代表性成果

1.Huang, Y.,Zhang, X.-Y.,Zhu, G.-X.,Gao, Y.-J.,Cheng, Q.-F.,Cheng, X.-W., 2019.Synthesis of silver phosphate/sillenite bismuth ferrite/graphene oxide nanocomposite and its enhanced visible light photocatalytic mechanism.SEPARATION AND PURIFICATION TECHNOLOGY,215: 490-499.

2.Wang, Z.-J.,Zhang, X.-Y.,Zhang, H.-X.,Zhu, G.-X.,Gao, Y.-J.,Cheng, Q.-F.,Cheng, X.-W., 2019.Synthesis of magnetic nickel ferrite/carbon sphere composite for levofloxacin elimination by activation of persulfate.SEPARATION AND PURIFICATION TECHNOLOGY,215: 528-539.

3.Shi, Q.-J.,Li, Z.-J.,Chen, L.,Zhang, X.-L.,Han, W.-H.,Xie, M.-Z.,Yang, J.-L.,Jing, L.-Q., 2019.Synthesis of SPR Au/BiVO4 quantum dot/rutile-TiO2 nanorod array composites as efficient visible-light photocatalysts to convert CO2 and mechanism insight.APPLIED CATALYSIS B-ENVIRONMENTAL,244: 641-649.

4.Chen, G.,Zhang, X.-Y.,Gao, Y.-J.,Zhu, G.-X.,Cheng, Q.-F.,Cheng, X.-W., 2019.Novel magnetic MnO2/MnFe2O4 nanocomposite as a heterogeneous catalyst for activation of peroxymonosulfate (PMS) toward oxidation of organic pollutants.SEPARATION AND PURIFICATION TECHNOLOGY,213:456-464.

5.Guan, Q.-Y.,Luo, H.-P.,Pan, N.-H.,Zhao, R.,Yang, L.-Q.,Yang, Y.-Y.,Tian, J., 2019.Contribution of dust in northern China to PM10 concentrations over the Hexi corridor.SCIENCE OF THE TOTAL ENVIRONMENT,660: 947-958.

第一作者第二三单位

非第一作者单位

6.Liang, J.,Russell, J.-M.,Xie, H.-C.,Lupien, R.-L.,Si, G.-C.,Wang, J.,Hou, J.-Z.,Zhang, G.-X., 2019.Vegetation effects on temperature calibrations of branched glycerol dialkyl glycerol tetraether (brGDGTs) in soils.Organic Geochemistry,127: 1-11.

7.Miehe, G.,Schleuss, P.-M.,Seeber, E.,Babel, W.,Biermann, T.,Braendle, M.,Chen, F.-H.,Coners, H.,Foken, T.,Gerken, T.,Graf, H.-F.,Guggenberger, G.,Hafner, S.,Holzapfel, M.,Ingrisch, J.,Kuzyakov, Y.,Lai, Z.-P.,Lehnert, L.,Leuschner, C.,Li, X.-G.,Liu, J.-Q.,Liu, S.-B.,Ma, Y.-M.,Miehe, S.,Mosbrugger, V.,Noltie, H.-J.,Schmidt, J.,Spielvogel, S.,Unteregelsbacher, S.,Wang, Y.,Willinghofer, S.,Xu, X.-L.,Yang, Y.-P.,Zhang, S.-R.,Opgenoorth, L.,Wesche, K., 2019.The Kobresia pygmaea ecosystem of the Tibetan highlands - Origin, functioning and degradation of the world's largest pastoral alpine ecosystem Kobresia pastures of Tibet.Science of the Total Environment,648: 754-771.

8.Li, Y.-P.,Wang, S.-L.,Nan, Z.-R.,Zang, F.,Sun, H.-L.,Zhang, Q.,Huang, W.,Bao, L.-L., 2019.Accumulation, fractionation and health risk assessment of fluoride and heavy metals in soil-crop systems in northwest China.SCIENCE OF THE TOTAL ENVIRONMENT,663: 307-314.

9.Wang, G.,Wang, Y.-L.,Wei, Z.-F.,He, W.,Ma, X.-Y.,Sun, Z.-P.,Xu, L.,Gong, J.-C.,Wang, Z.-X.,Pan, Y.-H., 2019.Paleoclimate changes of the past 30 cal ka BP inferred from lipid biomarkers and geochemical records from Qionghai Lake, southwest China.JOURNAL OF ASIAN EARTH SCIENCES,172: 346-358.

Gender and renewable energy study in Tibetan pastoral areas of China

作者: Ding, Wenguang; He, Li; Zewudie, Dinka;等.

RENEWABLE ENERGY 卷: 133 页: 901-913 出版年: APR 2019

Preparation and characterization of palladium/polyaniline/foamed nickel composite electrode for electrocatalytic dechlorination

作者: Li, Junjing; Luan, Cong; Cui, Yuqi;等.

SEPARATION AND PURIFICATION TECHNOLOGY 卷: 211 页: 198-206 出版年: MAR 18 2019

10.

Synthesis of Ag2CO3/alpha-Fe2O3 heterojunction and it high visible light driven photocatalytic activity for elimination of organic pollutants

作者: Guo, Ruonan; Qi, Xinyu; Zhang, Xinyi;等.

SEPARATION AND PURIFICATION TECHNOLOGY 卷: 211 页: 504-513 出版年: MAR 18 2019

11.

Temperature fluctuations during the Common Era in subtropical southwestern China inferred from brGDGTs in a remote alpine lake

作者: Feng, Xiaoping; Zhao, Cheng; D'Andrea, William J.;等.

EARTH AND PLANETARY SCIENCE LETTERS 卷: 510 页: 26-36 出版年: MAR 15 2019

12.

Asymmetrical river valleys and their tectonic significance in the Maxianshan area, NE Tibetan Plateau

作者: Ma, Zhenhua; Peng, Tingjiang; Feng, Zhantao;等.

GEOMORPHOLOGY 卷: 329 页: 70-80 出版年: MAR 15 2019

13.

Variations in soil delta C-13 with alpine meadow degradation on the eastern Qinghai-Tibet Plateau

作者: Zhao, Yunfei; Wang, Xia; Ou, Yansheng;等.

GEODERMA 卷: 338 页: 178-186 出版年: MAR 15 2019

14.

Mechanism and kinetics studies of the atmospheric oxidation of p,p'-Dicofol by OH and NO3 radicals

作者: Dang, Juan; Tian, Shuai; Zhang, Qingzhu

CHEMOSPHERE 卷: 219 页: 645-654 出版年: MAR 2019

15.

Quantitative analysis of planation surfaces of the upper Yangtze River in the Sichuan-Yunnan Region, Southwest China

作者: Liu, Fenliang; Gao, Hongshan; Pan, Baotian;等.

FRONTIERS OF EARTH SCIENCE 卷: 13 期: 1 页: 55-74 出版年: MAR 2019

16.

2D-Bi2MoO6/2D-g-C(3)N4 nanosheet heterojunction composite: synthesis and enhanced visible light photocatalytic mechanism

作者: Guo, Ruonan; Zhang, Xinyi; Li, Bo;等.

JOURNAL OF PHYSICS D-APPLIED PHYSICS 卷: 52 期: 8 文献号: 085302 出版年: FEB 20 2019

17.

Brief communication: Evaluation and inter-comparisons of Qinghai-Tibet Plateau permafrost maps based on a new inventory of field evidence

作者: Cao, Bin; Zhang, Tingjun; Wu, Qingbai;等.

CRYOSPHERE 卷: 13 期: 2 页: 511-519 出版年: FEB 12 2019

18.

Pollution characteristics in a dusty season based on highly time-resolved online measurements in northwest China

作者: Wang, Fanglin; Sun, Yunlong; Tao, Yan;等.

SCIENCE OF THE TOTAL ENVIRONMENT 卷: 650 页: 2545-2558 子辑: 2 出版年: FEB 10 2019

19.

Construction of BiOCOOH/g-C3N4 composite photocatalyst and its enhanced visible light photocatalytic degradation of amido black 10B

作者: Cui, Yuqi; Zhang, Xinyi; Zhang, Huixuan;等.

SEPARATION AND PURIFICATION TECHNOLOGY 卷: 210 页: 125-134 出版年: FEB 8 2019

20.

Persulfate activation by magnetic gamma-Fe2O3/Mn3O4 nanocomposites for degradation of organic pollutants

作者: Ma, Qiuling; Zhang, Xinyi; Guo, Ruonan;等.

SEPARATION AND PURIFICATION TECHNOLOGY 卷: 210 页: 335-342 出版年: FEB 8 2019

21.

Variation in soil hydrological properties on shady and sunny slopes in the permafrost region, Qinghai-Tibetan Plateau

作者: Sun, Yan; Wang, Yibo; Yang, Wenjing;等.

ENVIRONMENTAL EARTH SCIENCES 卷: 78 期: 3 文献号: 100 出版年: FEB 2019

22.

Spatial and Temporal Variations of Embodied Carbon Emissions in China's Infrastructure

作者: Bai, Jing; Qu, Jiansheng; Maraseni, Tek Narayan;等.

SUSTAINABILITY 卷: 11 期: 3 文献号: 749 出版年: FEB 1 2019

23.

NO3- circulation and associated driving factors in the unsaturated zone of southwestern Tengger Desert, Northwestern China

作者: Qi, Shi; Ma, Jinzhu; Ling, Xinying;等.

CATENA 卷: 173 页: 394-409 出版年: FEB 2019

24.

International Comparison of Human Development Index Corrected by Greenness and Fairness Indicators and Policy Implications for China

作者: Liang, Man; Niu, Shuwen; Li, Zhen;等.

SOCIAL INDICATORS RESEARCH 卷: 142 期: 1 页: 1-24 出版年: FEB 2019

25.

A tree ring-based record of annual mass balance changes for the TS.Tuyuksuyskiy Glacier and its linkages to climate change in the Tianshan Mountains

作者: Zhang, Ruibo; Wei, Wenshou; Shang, Huaming;等.

QUATERNARY SCIENCE REVIEWS 卷: 205 页: 10-21 出版年: FEB 1 2019

26.

Gas-phase reaction of benzo[a]anthracene with hydroxyl radical in the atmosphere: products, oxidation mechanism, and kinetics (vol 24, 320, 2018)

作者: Dang, Juan; Zhang, Qingzhu

JOURNAL OF MOLECULAR MODELING 卷: 25 期: 2 文献号: 53 出版年: FEB 2019

27.

Geohazards mitigation strategies simulation and evaluation based on surface runoff depth: A case study in Bailong River basin

作者: Li, Kai; Yue, Dongxia; Guo, Jianjun;等.

CATENA 卷: 173 页: 1-8 出版年: FEB 2019

28.

Resetting of the luminescence signal in modern riverbed cobbles along the course of the Shiyang River, China

作者: Liu, Jinfeng; Cui, Furong; Murray, Andrew S.;等.

QUATERNARY GEOCHRONOLOGY 卷: 49 特刊: SI 页: 184-190 出版年: FEB 2019

29.

The characteristics of evapotranspiration and crop coefficients of an irrigated vineyard in arid Northwest China

作者: Wang, Shangtao; Zhu, Gaofeng; Xia, Dunsheng;等.

AGRICULTURAL WATER MANAGEMENT 卷: 212 页: 388-398 出版年: FEB 1 2019

30.

Contributions of modern Gobi Desert to the Badain Jaran Desert and the Chinese Loess Plateau

作者: Wang, Xunming; Cai, Diwen; Sun, Jimin;等.

SCIENTIFIC REPORTS 卷: 9 文献号: 985 出版年: JAN 30 2019

31.

Deciphering Human Contributions to Yellow River Flow Reductions and Downstream Drying Using Centuries-Long Tree Ring Records

作者: Li, Jinbao; Xie, Shang-Ping; Cook, Edward R.;等.

GEOPHYSICAL RESEARCH LETTERS 卷: 46 期: 2 页: 898-905 出版年: JAN 28 2019

32.

Variation in PM2.5 source over megacities on the ancient Silk Road, northwestern China

作者: Guan, Qingyu; Liu, Zeyu; Yang, Ligin;等.

JOURNAL OF CLEANER PRODUCTION 卷: 208 页: 897-903 出版年: JAN 20 2019

33.

A water-energy balance approach for multi-category drought -assessment across globally diverse hydrological basins

作者: Zhang, Baoqing; AghaKouchak, Amir; Yang, Yuting;等.

AGRICULTURAL AND FOREST METEOROLOGY 卷: 264 页: 247-265 出版年: JAN 15 2019

34.

Dissolved organic carbon in snow cover of the Chinese Altai Mountains, Central Asia: Concentrations, sources and light-absorption properties

作者: Zhang, Yulan; Kang, Shichang; Gao, Tanguang;等.

SCIENCE OF THE TOTAL ENVIRONMENT 卷: 647 页: 1385-1397 出版年: JAN 10 2019

35.

Bioadsorption of arsenic from aqueous solution by the extremophilic bacterium Acidithiobacillus ferrooxidans DLC-5

作者: Xu, Shenghui; Xu, Ruixiang; Nan, Zhongren;等.

BIOCATALYSIS AND BIOTRANSFORMATION 卷: 37 期: 1 页: 35-43 出版年: JAN 2 2019

36.

Leaf and stem traits variation of Stellera chamaejasme Linn. with slope aspect in alpine steppe

作者: Li, Lili; Zhang, Tingjun; Zhao, Chengzhang;等.

ECOLOGICAL RESEARCH 卷: 34 期: 1 页: 119-126 出版年: JAN 2019

37.

Gap-Filling of MODIS Fractional Snow Cover Products via Non-Local Spatio-Temporal Filtering Based on Machine Learning Techniques

作者: Hou, Jinliang; Huang, Chunlin; Zhang, Ying;等.

REMOTE SENSING 卷: 11 期: 1 文献号: 90 出版年: JAN 1 2019

38.

Paleosols in Devonian red-beds from northwest China and their paleoclimatic characteristics

作者: Guo, Xuelian; Retallack, Gregory J.; Lu, Bin;等.

SEDIMENTARY GEOLOGY 卷: 379 页: 16-24 出版年: JAN 2019

39.

Modeling alpine grassland forage phosphorus based on hyperspectral remote sensing and a multi-factor machine learning algorithm in the east of Tibetan Plateau, China

作者: Gao, Jinlong; Meng, Baoping; Liang, Tiangang;等.

ISPRS JOURNAL OF PHOTOGRAMMETRY AND REMOTE SENSING 卷: 147 页: 104-117 出版年: JAN 2019

40.

Multiproxy records of Holocene millennial-scale climatic variations from the aeolian deposit in eastern Horqin dune field, northeastern China

作者: Liu, Bing; Jin, Heling; Sun, Liangying;等.

GEOLOGICAL JOURNAL 卷: 54 期: 1 页: 351-363 出版年: JAN-FEB 2019

41.

New records of Podocarpium A. Braun ex Stizenberger (Fabaceae) from Check for the Oligocene to Miocene of China: Reappraisal of the phylogeographical updates history of the genus

作者: Li, Xiangchuan; Ma, Fujun; Xiao, Liang;等.

REVIEW OF PALAEOBOTANY AND PALYNOLOGY 卷: 260 页: 38-50 出版年: JAN 2019

42.

Long-term summer warming trend during the Holocene in central Asia indicated by alpine peat alpha-cellulose delta C-13 record

作者: Rao, Zhiguo; Huang, Chao; Xie, Luhua;等.

QUATERNARY SCIENCE REVIEWS 卷: 203 页: 56-67 出版年: JAN 1 2019

43.

Late Holocene lacustrine environmental and ecological changes caused by anthropogenic activities in the Chinese Loess Plateau

作者: Zhang, Can; Zhao, Cheng; Zhou, Aifeng;等.

QUATERNARY SCIENCE REVIEWS 卷: 203 页: 266-277 出版年: JAN 1 2019

44.

Climatic significance of the stable carbon isotopic composition of surface soils in northern Iran and its application to an Early Pleistocene loess section

作者: Wang, Qiang; Wang, Xin; Wei, Haitao;等.

ORGANIC GEOCHEMISTRY 卷: 127 页: 104-114 出版年: JAN 2019

45.

Degradation Kinetics of Dichlorophenols During Electrochemical Hydrodechlorination Using Palladium/Polypyrrole/Foam Nickel Electrode

作者: Li, Junjing; Wang, Huan; Cui, Yuqi;等.

SCIENCE OF ADVANCED MATERIALS 卷: 11 期: 1 特刊: SI 页: 50-55 出版年: JAN 2019

46.

Differential rock uplift along the northeastern margin of the Tibetan Plateau inferred from bedrock channel longitudinal profiles

作者: Li, Qiong; Pan, Baotian; Gao, Hongshan;等.

JOURNAL OF ASIAN EARTH SCIENCES 卷: 169 页: 182-198 出版年: JAN 2019

47.

Construction of Fe2O3/Co3O4/exfoliated graphite composite and its high efficient treatment of landfill leachate by activation of potassium persulfate

作者: Guo, Ruonan; Meng, Qi; Zhang, Huixuan;等.

CHEMICAL ENGINEERING JOURNAL 卷: 355 页: 952-962 出版年: JAN 1 2019

Context Sensitive Links出版商处的全文查看摘要

2018年度

(共发表论文152篇，第一作者第一单位发表SCI论文95篇，参考2018年分区，发表一区17篇，二区31篇)

第一作者第一单位

10.Cao, B.,Zhang, T.-J.,Peng, X.-Q.,Mu, C.-C.,Wang, Q.-F.,Zheng, L.,Wang, K.,Zhong, X.-Y., 2018.Thermal Characteristics and Recent Changes of Permafrost in the Upper Reaches of the Heihe River Basin, Western China. Journal of Geophysical Research-Atmospheres, 123(15): 7935-7949. (SCI-2)

11.Chang, J.,Ye, R.-Z.,Wang, G.-X., 2018.Review: Progress in permafrost hydrogeology in China. Hydrogeology Journal, 26(5 SI): 1387-1399. (SCI-3)

12.Chang, J.,Hui, Z.-C.,Pan, B.-T.,Wang, Z.-J.,Ma, J.-F., 2018.Characteristics of the modern pollen assemblages from different sedimentary environments of the middle reaches of the arid Heihe region of Asia. Quaternary International, 479(SI): 34-41. (SCI-3)

13.Chen, G.,Meng, X.-M.,Qiao, L.,Zhang, Y.,Wang, S.-Y., 2018.Response of a loess landslide to rainfall: observations from a field artificial rainfall experiment in Bailong River Basin, China. Landslides, 15(5):895-911. (SCI-2)

14.Chen, G., Zhang, Y., Zeng, R.-Q., Yang, Z.-K., Chen, X., Zhao, F.-M., Meng, X.-M., 2018. Detection of Land Subsidence Associated with Land Creation and Rapid Urbanization in the Chinese Loess Plateau Using Time Series InSAR: A Case Study of Lanzhou New District. Remote Sensing, 10(2): 270.(SCI-2)

15.Chen, J.,Liu, J.-B.,Xie, C.-L.,Chen, G.-J.,Chen, J.-H.,Zhang, Z.-P.,Zhou, A.-F.,Ruhland, K.-M.,Smol, J.-P.,Chen, F.-H.,Biogeochemical responses to climate change and anthropogenic nitrogen deposition from a 200-year record from Tianchi Lake, Chinese Loess Plateau.Quaternary International, 493: 22-30.(SCI-3)

16.Chen, J. Huang,W.,Jin, L.-Y.,Chen, J.-H.,Chen, S.-Q.,Chen, F.-H., 2018.A climatological northern boundary index for the East Asian summer monsoon and its interannual variability. Science China-Earth Science, 61(1): 13-22.(SCI-3)

17.Chen, S.-Q.,Liu, J.-B.,Xie, C.-L.,Chen, J.-H.,Wang, H.-P.,Wang, Z.-L.,Rao, Z.-G.,Xu, Q.-H.,Chen, F.-H., 2018.Evolution of integrated lake status since the last deglaciation: A high-resolution sedimentary record from Lake Gonghai, Shanxi, China.PalaeogeographyPalaeoclimatology Palaeoecology, 496:175-182. (SCI-3)

18.Cui, H.,Wang, J.,Yu, B.-B.,Hu, Z.-B.,Yao, P.,Harbor, J.-M., 2018.Marine Isotope Stage 3 paleotemperature inferred from reconstructing the Die Shan ice cap, northeastern Tibetan Plateau. Quaternary Research, 89(2): 494-504.(SCI-3)

19.Cui, Y.-F.,Liu, Y.-J.,Ma, M.-M., 2018.Spatiotemporal evolution of prehistoric Neolithic-Bronze Age settlements and influencing factors in the Guanting Basin, northeast Tibetan Plateau. Science China-Earth Science, 61(2): 149-162.(SCI-3)

20.Cui, Y.-Q.,Zhang, X.-Y.,Guo, R.-N.,Zhang, H.-X.,Li, B.,Xie, M.-Z.,Cheng, Q.-F.,Cheng, X.-W., 2018.Construction of Bi2O3/g-C3N4 composite photocatalyst and its enhanced visible light photocatalytic performance and mechanism. Separation and Purification Technology, 203: 301-309.(SCI-2)

21.Cui, Y.-Q.,Zhang, Z.-X.,Li, B.,Guo, R.-N.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Ultrasound assisted fabrication of AgBr/TiO2 nano-tube arrays photoelectrode and its enhanced visible photocatalytic performance and mechanism for detoxification of 4-chlorphenol.Separation and Purification Technology, 197: 189-196.(SCI-2)

22.Cui, Y.-Q.,Deng, X.-Y.,Ma, Q.-L.,Zhang, H.-X.,Cheng, X.-W.,Li, X.-L.,Xie, M.-Z.,Cheng, Q.-F., 2018.Kinetics of Photoelectrocatalytic Degradation of Diclofenac Using N, S CO-Doped TIO2Nano-Crystallite Decorated TIO2 Nanotube Arrays Photoelectrode. Environment Protection Engineering, 44(2): 117-130. (SCI-4)无原文

23.Dang, J.,Zhang, Q.-Z., 2018.Gas-phase reaction of benzo[a]anthracene with hydroxyl radical in the atmosphere: products, oxidation mechanism, and kinetics. Journal of Molecular Modeling, 24(11): 320.(SCI-4)无原文

24.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Ma, Q.-L.,Cui, Y.-Q.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Effect of Ti3+ on enhancing photocatalytic and photoelectrochemical properties of TiO2 nanorods/nanosheets photoelectrode. Separation and Purification Technology, 192: 329-339.(SCI-2)

25.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cui, Y.-Q.,Ma, Q.-L.,Zhang, X.-Y.,Cheng, X.-W.,Li, B.,Xie, M.-Z.,Cheng, Q.-F., 2018.Effect of fabricating parameters on photoelectrocatalytic performance of CeO2/TiO2 nanotube arrays photoelectrode.Separation and Purification Technology, 193: 264-273.(SCI-2)

26.Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cheng, X.-W.,Cheng, Q.-F., 2018.Construction of AgBr nano-cakes decorated Ti3+ self-doped TiO2 nanorods/nanosheets photoelectrode and its enhanced visible light driven photocatalytic and photoelectrochemical properties. Applied Surface Science, 441: 420-428.(SCI-2)

27.Deng, X.-Y.,Guo, R.-N.,Zhang, H.-X.,Li, B.,Ma, Q.-L.,Cui, Y.-Q.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.A facile strategy to fabricate reduced TiO2 nano-tube arrays photoelectrode and its high visible light photocatalytic performance for detoxification of trichlorophenol solution. Journal of the Taiwan Institute of Chemical Engineers, 85: 83-90.(SCI-2)

28.Dong, G.-H.,Zhang, F.-Y.,Liu, F.-W.,Zhang, D.-J.,Zhou, A.-F.,Yang, Y.-S.,Wang, G.-H., 2018.Multiple evidences indicate no relationship between prehistoric disasters in Lajia site and outburst flood in upper Yellow River valley, China. Science China-Earth Science, 61(4): 441-449. (SCI-3)无原文

Dong, G.-H.,Yang, Y.-S.,Liu, X.-Y.,Li, H.-M.,Cui, Y.-F.,Wang, H.,Chen, G.-K.,Dodson, J.,Chen, F.-H., 2018.Prehistoric trans-continental cultural exchange in the Hexi Corridor, northwest China. Holocene, 28(4): 621-628. (SCI-3)无原文

Dong, G.-H.,A new story for wheat into China.Nature Plants, 4(5): 243-244.weibiaozhu

29.Gao, F.-Y.,Shi, F.-X.,Chen, H.-M.,Zhang, X.-H.,Yu, X.-Y.,Cui, Q.,Zhao, C.-Z., 2018.Rapid Expansion of Melica przewalskyi Causes Soil Moisture Deficit and Vegetation Degradation in Subalpine Meadows. Clean-soil Air Water, 46(1): 1700587.(SCI-4)

30.Gao, L.-L.,Gou, X.-H.,Deng, Y.,Wang, Z.-Q.,Gu, F.,Wang, F., 2018.Increased growth of Qinghai spruce in northwestern China during the recent warming hiatus.Agricultural and Forest Meteorology, 260: 9-16. (SCI-1)

31.Gao, T.-G., Zhang, T.-J., Guo, H., Hu, Y.-T., Shang, J.-G., Zhang, Y.-L.,Impacts of the active layer on runoff in an upland permafrost basin, northern Tibetan Plateau. 2018. PLOS ONE, 13(2 ): e0192591.(SCI-3)

32.Gou, J.-F.,Li, X.-H.,Zhang, H.-X.,Guo, R.-N.,Deng, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Synthesis of of silver/silver chloride/exfoliated graphite nano-photocatalyst and its enhanced visible light photocatalytic mechanism for degradation of organic pollutants. Journal of Industrial and Engineering Chemistry, 59: 99-107.(SCI-2)

33.Gu, C.-J.,Ma, J.-Z.,Zhu, G.-F.,Yang, H.,Zhang, K.,Wang, Y.-Q.,Gu, C.-L., 2018.Partitioning evapotranspiration using an optimized satellite-based ET model across biomes. Agricultural and Forest Meteorology, 259: 355-363.(SCI-1)

34.Guan, Q.-Y.,Wang, F.-F.,Xu, C.-Q.,Pan, N.-H.,Lin, J.-K.,Zhao, R.,Yang, Y.-Y.,Luo, H.-P., 2018.Source apportionment of heavy metals in agricultural soil based on PMF: A case study in Hexi Corridor, northwest China. Chemosphere, 193: 189-197.(SCI-2)

35.Guan, Q.-Y.,Li, F.-C.,Yang, L.-Q.,Zhao, R.,Yang, Y.-Y.,Luo, H.-P., 2018.Spatial-temporal variations and mineral dust fractions in particulate matter mass concentrations in an urban area of northwestern China. Journal of Environmental Management, 222: 95-103.(SCI-2)

36.Guan, Q.-Y.,Yang, L.-Q.,Pan, N.-H.,Lin, J.-K.,Xu, C.-Q.,Wang, F.-F.,Liu, Z.-Y., 2018.Greening and Browning of the Hexi Corridor in Northwest China: Spatial Patterns and Responses to Climatic Variability and Anthropogenic Drivers. Remote Sensing, 10(8): 1270.(SCI-2)

37.Guan, Q.-Y.,Song, N.,Wang, F.-F.,Yang, L.-Q.,Liu, Z.-Y., 2018.Contamination levels and health risk assessments of heavy metals in an oasis-desert zone: a case study in northwest China. Environmental Science and Pollution Research, 25(23 SI): 22606-22618.(SCI-3)

38.Guo, B.-H.,Liu, S.-P.,Peng, T.-J.,Ma, Z.-H.,Feng, Z.-T.,Li, M.,Li, X.-M.,Li, J.-J.,Song, C.-H.,Zhao, Z.-J.,Pan, B.-T.,Stockli, D.-F.,Nie, J.-S., 2018.Late Pliocene establishment of exorheic drainage in the northeastern Tibetan Plateau as evidenced by the Wuquan Formation in the Lanzhou Basin. Geomorphology, 303: 271-283.(SCI-2)

39.Guo, R.-N.,Xia, X.-H.,Zhang, X.-Y.,Li, B.,Zhang, H.-X.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Construction of Ag3PO4/TiO2 nano-tube arrays photoelectrode and its enhanced visible light driven photocatalytic decomposition of diclofenac. Separation and Purification Technology, 200: 44-50.(SCI-2)

40.Hu, Y.-H., Huang, Y., Su, J.-Q., Gao, Z., Li, S.-Q., Nan, Z.-R., 2018. Temporal changes of metal bioavailability and extracellular enzyme activities in relation to afforestation of highly contaminated calcareous soil. Science of theTotal Environment,622: 1056-1066.(SCI-2)

41.Huang, W.,Feng, S.,Liu, C.,Chen, J.,Chen, J.-H.,Chen, F.-H., 2018.Changes of climate regimes during the last millennium and the twenty-first century simulated by the Community Earth System Model. Quaternary Science Reviews, 180:42-56.(SCI-1)

42.Huang, X.-Z.,Chen, X.-M.,Du, X., 2018.Modern pollen assemblages from human-influenced vegetation in northwestern China and their relationship with vegetation and climate. Vegetation History and Archaeobotany, 27(6): 767-780.(SCI-3)无原文

43.Huang, X.-Z.,Peng, W.,Rudaya, N.,Grimm, E.-C.,Chen, X.-M.,Cao, X.-Y.,Zhang, J.,Pan, X.-D.,Liu, S.-S.,Chen, C.-Z.,Chen, F.-H., 2018.Holocene Vegetation and Climate Dynamics in the Altai Mountains and Surrounding Areas, Geophysical Research Letters, 45(13): 6628-6636.(SCI-1)

44.Hui, Z.-C.,Li, X.-C.,Ma, Z.-H.,Xiao, L.,Zhang, J.,Chang, J., 2018.Miocene pollen assemblages from the Zeku Basin, northeastern Tibetan Plateau, and their palaeoecological and palaeoaltimetric implications.Palaeogeography Palaeoclimatology Palaeoecology, 511: 419-432.(SCI-3)

45.Ji, S.-C.,Nie, J.-S.,Lechler, A.,Huntington, K.-W.,Heitmann, E.-O.,Breecker, D.-O., 2018.A symmetrical CO2 peak and asymmetrical climate change during the middle Miocene. Earth and Planetary Science Letters, 499: 134-144.(SCI-1)

46.Jia, J.,Gao, F.-Y.,Xia, D.-S.,Huang, W.,Chen, F.-H., 2018.Moisture variations in arid central Asia and its out-of-phase relationship with the Asian Monsoon during MIS 5: evidence from loess records. Journal of Quaternary Science, 33(4):435-443. (SCI-3)无原文

47.Jia, J.,Lu, H.,Wang, Y.-J.,Xia, D.-S., 2018.Variations in the Iron Mineralogy of a Loess Section in Tajikistan During the Mid-Pleistocene and Late Pleistocene: Implications for the Climatic Evolution in Central Asia. Geochemistry Geophysics Geosystems, 19(4): 1244-1258. (SCI-2)

48.Jia, J.,Liu, H.,Gao, F.-Y.,Xia, D.-S., 2018.Variations in in the westerlies in Central Asia since 16 ka recorded by a loess section from the Tien Shan Mountains.Palaeogeography Palaeoclimatology Palaeoecology,504: 156-161. (SCI-3)

49.Li, C.-B.,Wang, L.-M.,Wang, W.-R.,Qi, J.-G.,Yang, L.-S.,Zhang, Y.,Wu, L.,Cui, X.,Wang, P., 2018.An analytical approach to separate climate and human contributions to basin streamflow variability. Journal of Hydrology, 559: 30-42. (SCI-2)

50.Li, F.-Q.,Pan, B.-T.,Lai, Z.-P.,Gao, H.-S.,Ou, X.-J., 2018. Identifying the Degree of Luminescence Signal Bleaching in Fluvial Sediments FromtheInner Mongolian Researchs of the Yellow River. Geochronometria, 45(1): 82-96. (SCI-4)

51.Li, G.-Q.,Madsen, D.-B.,Jin, M.,Stevens, T.,Tao, S.-X.,She, L.-L.,Yang, L.-P.,Li, F.-L.,Wei, H.-T.,Duan, Y.-W.,Chen, F.-H., 2018.Orbital scale lake evolution in the Ejina Basin, central Gobi Desert, China revealed by K-feldspar luminescence dating of paleolake shoreline features. Quaternary International, 482: 109-121. (SCI-3)

52.Li, G.-Q.,Chen, F.-H.,Xia, D.-S.,Yang, H.,Zhang, X.-J.,Madsen, D.,Oldknow, C.,Wei, H.-T.,Rao, Z.-G.,Qiang, M.-R., 2018.A Tianshan Mountains loess-paleosol sequence indicates anti-phase climatic variations in arid central Asia and in East Asia.Earth and Planetary Science Letters, 494: 153-163. (SCI-1)

53.Li, G.-Q.,She, L.-L.,Jin, M.,Yang, H.,Madsen, D.,Chun, X.,Yang, L.-P.,Wei, H.-T.,Tao, S.-X.,Chen, F.-H., 2018.The spatial extent of the East Asian summer monsoon in arid NW China during the Holocene and Last Interglaciation. Global and Planetary Change, 169: 48-65.(SCI-2)

54.Li, Y.,Liu, Y.,Ye, W.-T.,Xu, L.-M.,Zhu, G.-R.,Zhang, X.-Z.,Zhang, C.-Q., 2018.A new assessment of modern climate change, China-An approach based on paleo-climate. Earth-Science Reviews, 177: 458-477.(SCI-1)

55.Li, Y.,Qiang, M.-R.,Jin, Y.-X.,Liu, L., Zhou, A.-F.,Zhang, J.-W., 2018. Influence of Aquatic Plant Photosynthesis the Reservoir Effect of Genggahailake, Northeastern Qinghai-Tibetan Plateu. Radiocarbon, 60(2): 561-569. (SCI-3)

56.Li, Y.,Xu, L.-M.,Zhang, C.-Q.,Liu, Y.,Zhu, G.-R.,Zhou, X.-H., 2018.Temporal and spatial evolution of Holocene vegetation and lake hydrological status, China. Holocene, 28(5): 706-720. (SCI-3)

57.Li, Z.-J.,Wang, F.,Wang, X.,Li, B.-F.,Chen, F.-H., 2018.A multi-proxy climatic record from the central Tengger Desert, southern Mongolian Plateau: Implications for the aridification of inner Asia since the late Pliocene. Journal of Asian Earth Science, 160: 27-37. (SCI-3)

58.Li, Z.-J.,Li, Z.-X.,Song, L.-L.,Ma, J.-Z.,Song, Y., 2018.Environment significance and hydrochemical characteristics of supra-permafrost water in the source region of the Yangtze River.Science of theTotal Environment, 644: 1141-1151.(SCI-2)

59.Lin, X.-R., Rioual, P., Peng, W., Yang, H.-D., Huang, X.-Z., 2018. Impact of recent climate change on Lake Kanas, Altai Mountains (NW China) inferred from diatom and geochemical evidence. Journal of Paleolimnology, 59(4): 461-477.(SCI-3)

60.Liu, C.,Huang, W.,Feng, S.,Chen, J.-H.,Zhou, A.-F., 2018.Spatiotemporal variations of aridity in China during 1961-2015: decomposition and attribution. Science Bulletin, 63(18): 1187-1199.(SCI-3)

61.Liu, J.-B.,Chen, J.-H.,Kandasamy, S.,Chen, S.-Q.,Xie, C.-L.,Chen, Q.-M.,Lin, B.-Z.,Yu, K.-F.,Xu, Q.-H.,Velasco, V.-M.,Chen, F.-H., 2018.A 14.7 Ka record of earth surface processes from the arid-monsoon transitional zone of China. Earth Surface Processes and Landforms, 43: 723-734.(SCI-2)

62.Lu, H.,Jia, J.,Wang, Y.-J.,Yin, Q.-Z.,Xia, D.-S., 2018.The cause of extremely high magnetic susceptibility of the S5S1 paleosol in the central Chinese Loess Plateau. Quaternary International, 493: 252-257. (SCI-3)

63.Lu, L.,Zhang, T.-J.,Wang, T.-J.,Zhou, X.-M., 2018.Evaluation of Collection-6 MODIS Land Surface Temperature Product Using Multi-Year Ground Measurements in an Arid Area of Northwest China.Remote Sensing, 10(11): 1852.(SCI-2)无原文

64.Luo, Z.,Su, Q.-D.,Wang, Z.,Heermance, R.-V.,Garzione, C.,Li, M.,Ren, X.-P.,Song, Y.-G.,Nie, J.-S., 2018.Orbital forcing of Plio-Pleistocene climate variation in a Qaidam Basin lake based on paleomagnetic and evaporite mineralogic analysis.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI): 31-39.(SCI-3)

65.Ma, Q.-L.,Zhang, H.-X.,Cui, Y.-Q.,Deng, X.-Y.,Guo, R.-N.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Fabrication of Cu2O/TiO2 nano-tube arrays photoelectrode and its enhanced photoelectrocatalytic performance for degradation of 2,4,6-trichlorophenol. Journal of Industrial and Engineering Chemistry, 57: 181-187.(SCI-2)

66.Ma, Q.-L.,Zhang, H.-X.,Guo, R.-N.,Li, B.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2018.Construction of CuS/TiO2 nano-tube arrays photoelectrode and its enhanced visible light photoelectrocatalytic decomposition and mechanism of penicillin G.Electrochimica Acta, 283: 1154-1162. (SCI-1)

67.Ma, Z.-B.,Chen, X.-P.,Chen, H., 2018.Multi-scale Spatial Patterns and Influencing Factors of Rural Poverty: A Case Study in the Liupan Mountain Region, Gansu Province, China. Chinese Geographical Science, 28(2): 296-312. (SCI-4)无原文

68.Mu, C.-C.,Li, L.-L.,Zhang, F.,Li, Y.-X.,Xiao, X.-X.,Zhao, Q.,Zhang, T.-J., 2018.Impacts of permafrost on above- and belowground biomass on the northern Qinghai-Tibetan Plateau. Arctic Antarctic and Alpine Research, 50(1): e1447192. (SCI-3)

69.Mu, C.-C.,Li, L.-L.,Wu, X.-D.,Zhang, F.,Jia, L.,Zhao, Q.,Zhang, T.-J., 2018.Greenhouse gas released from the deep permafrost in the northern Qinghai-Tibetan Plateau. Scientific Reports, 8:4205.(SCI-3)

70.Nie, J.-S.,Ruetenik, G.,Gallagher, K.,Hoke, G.,Garzione, C.-N.,Wang, W.-T.,Stockli, D.,Hu, X.-F.,Wang, Z.,Wang, Y.,Stevens, T.,Danisik, M.,Liu, S.-P., 2018.Rapid incision of the Mekong River in the middle Miocene linked to monsoonal precipitation. Nature Geoscience, 11(12): 944-948.(SCI-1)

71.Nie, J.-S.,Pullen, A.,Garzione, C.-N.,Peng, W.-B.,Wang, Z., 2018.Pre-Quaternary decoupling between Asian aridification and high dust accumulation rates. Science Advances, 4(2): eaao6977.(SCI-2)

72.Nie, J.-S., 2018.The Plio-Pleistocene 405-kyr climate cycles.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI):26-30.(SCI-3)

73.Niu, S.-W.,Hong, Z.-G.,Qiang, W.-L.,Shi, Y.-D.,Liang, M.,Li, Z.,2018.Assessing the potential and benefits of domestic solar water heating system based on field survey.Environmental Progress & Sustainable Energy, 37(5): 1781-1791.(SCI-4)

74.Pang, H.-L.,Pan, B.-T.,Garzanti, E.,Gao, H.-S.,Zhao, X.,Chen, D.-B., 2018.Mineralogy and geochemistry of modern Yellow River sediments: Implications for weathering and provenance. Chemical Geology, 488: 76-86. (SCI-2)

75.Peng, W.-B.,Nie, J.-S.,Wang, Z.,Qiang, X.-K.,Garzanti, E.,Pfaff, K.,Song, Y.-G.,Stevens, T., 2018.A major change in precipitation gradient on the Chinese Loess Plateau at the Pliocene-Quaternary boundary. Journal of Asian Earth Science, 155(SI): 134-138. (SCI-3)

76.Peng, X.-Q.,Zhang, T.-J.,Frauenfeld, O.-W.,Wang, K.,Luo, D.-L.,Cao, B.,Su, H.,Jin, H.-J.,Wu, Q.-B., 2018.Spatiotemporal Changes in Active Layer Thickness under Contemporary and Projected Climate in the Northern Hemisphere. Journal of Climate, 31(1):251-266. (SCI-1)

77.Ren, L.-L.,Dong, G.-H.,Li, H.-M.,Rhode, D.,Flad, R.-K.,Li, G.-Q.,Yang, Y.,Wang, Z.-X.,Cai, L.-H.,Ren, X.-Y.,Zhang, D.-J.,Chen, F.-H., 2018.Dating Human Settlement in the East-Central Tibetan Plateau During the Late Holocene. Radiocarbon, 60(1): 137-150.(SCI-3)

78.Qing, W.-W.,Han, C.-T.,Liu, J.-F., 2018.Surface energy balance of Bayi Ice Cap in the middle of Qilian Mountains, China. Journal of Mountain Science, 15(6): 1229-1240. (SCI-4)无原文

79.Shen, Z.-W.,Liu, J.-B.,Xie, C.-L.,Zhang, X.-S.,Chen, F.-H., 2018.An environmental perturbation at AD 600 and subsequent human impacts recorded by multi-proxy records from the sediments of Lake Mayinghai, North China. Holocene, 28(12): 1870-1880.(SCI-3)

80.Wang, B.,Li, S.-Q.,Dong, S.-J.,Xin, R.-B.,Jin, R.-Z.,Zhang, Y.-M.,Dong, K.-J.,Jiang, Y.-C., 2018.A New Fine Particle Removal Technology: Cloud-Air-Purifying. Industrial & Engineering Chemistry Research, 57(34): 11815-11825. (SCI-2)无原文

81.Wang, F.,Li, Z.-J.,Wang, X.,Li, B.-F.,Chen, F.-H., 2018.Variation and interplay of the Siberian High and westerlies in central-east Asia during the past 1200 kyr. Aeolian Research, 22: 62-81. (SCI-3)

82.Wang, J.,Yao, P.,Yu, B.-B.,Zou, L.-Y.,Wang, F.,Harbor, J.-M., 2018.Controls on spatial variations of glacial erosion in the Qilian Shan, northeastern Tibetan Plateau. Geomorphology, 318: 128-138. (SCI-2)

83.Wang, L.,Guan, Q.-Y.,Wang, F.-F.,Yang, L.-Q.,Liu, Z.-Y., 2018.Association between heating seasons and criteria air pollutants in three provincial capitals in northern China: Spatiotemporal variation and sources contribution. Building and Environment, 132: 233-244.(SCI-2)

84.Wang, L.-B.,Jia, J.,Li, G.-Q.,Li, Z.-J.,Wang, X.,Chen, F.-H.,Fine-grained quartz OSL dating chronology of loess sequence from southern Tajikistan: Implications for climate change in arid central Asia during MIS 2. Journal of Asian Earth Science, 155(SI): 116-123. (SCI-3)

85.Wang, W.,Wang, Y.-Q.,An, C.-B.,Ruan, Q.-R.,Duan, F.-T.,Li, W.-Y.,Dong, W.-M.,2018.Human diet and subsistence strategies from the Late Bronze Age to historic times at Goukou, Xinjiang, NW China. Holocene, 28(4) : 640-650. (SCI-3)无原文

86.Wang, Y.-J.,Jia, J.,Liu, H.,Lu, H.,Lu, C.-C.,Xia, D.-S., 2018.Iron mineralogy characteristics of the desert sediments of the Tarim Basin and its provenance implications. Canadian Journal of Earth Sciences, 55(12): 1384-1388.(SCI-4)

87.Wei, X.,Huang, C.-H.,Wei, N.,Zhao, H.-C.,Wang, T., 2018.Reducing soil loss using surface application of stem juices. Land Degradation & Development, 29(6): 1705-1713.(SCI-1)

88.Wu, D.,Chen, X.-M.,Lv, F.-Y.,Brenner, M.,Curtis, J.,Zhou, A.-F.,Chen, J.-H.,Abbott, M.,Yu, J.-Q.,Chen, F.-H., 2018.Decoupled early Holocene summer temperature and monsoon precipitation in southwest China.Quaternary Science Reviews, 193: 54-67. (SCI-1)

89.Xiao, X.-X.,Zhang, T.-J.,Zhong, X.-Y.,Shao, W.-W.,Li, X.-D., 2018.Support vector regression snow-depth retrieval algorithm using passive microwave remote sensing data. Remote Sensing of Environment, 210: 48-64. (SCI-1)

90.Xie, H.-C.,Zhang, H.-W.,Ma, J.-Y.,Li, G.-Q.,Wang, Q.,Rao, Z.-G.,Huang, W.,Huang, X.-Z.,Chen, F.-H., 2018.Trend of increasing Holocene summer precipitation in arid central Asia: Evidence from an organic carbon isotopic record from the LJW10 loess section in Xinjiang, NW China.Palaeogeography Palaeoclimatology Palaeoecology,509(SI): 24-32. (SCI-3)

91.Yang, J.-L.,Shi, Q.-J.,Zhang, R.,Xie, M.-Z.,Jiang, X.,Wang, F.-C.,Cheng, X.-W.,Han, W.-H., 2018.BiVO4 quantum tubes loaded on reduced graphene oxide aerogel as efficient photocatalyst for gaseous formaldehyde degradation. Carbon, 138: 118-124.(SCI-1)

92.Yue, D.-X.,Zeng, J.-J.,Yang, C., Zou, M.-L., Li, K., Chen, G.-G., Guo, J.-J.,Xu,X.-F.,Meng,X.-M., 2018.Ecological risk assessment of the Gannan Plateau, northeastern Tibetan Plateau. Journal of Mountain Science, 15(6): 1254-1267. (SCI-4)无原文

93.Zhang, H.-X.,Cheng, S.,Li, B.,Cheng, X.-W.,Cheng, Q.-F., 2018.Fabrication of magnetic Co/BiFeO3 composite and its advanced treatment of pharmaceutical waste water by activation of peroxysulphate. Separation and Purification Technology, 202: 242-247. (SCI-2)

94.Zhang, H.-X.,Li, H.-R.,Wang, Z.-J.,Li, B.,Cheng, X.-W.,Cheng, Q.-F., 2018.Synthesis of Magnetic CoFe2O4 Nanoparticles and Their Efficient Degradation of Diclofenac by Activating Persulfate via Formation of Sulfate Radicals. Journal of Nanoscience and Nanotechnology, 18(10) : 6942-6948. (SCI-4)无原文

95.Zhang, H.-X.,Zhang, X.-Y.,Guo, R.-N.,Cheng, Q.-F.,Cheng, X.-W., 2018.A Facile Strategy to Fabricate Nanoscale Zero-Valent Iron Decorated Graphene Oxide Composite for Dechloridation of Trichloroacetic Acid in Water.Journal of Nanoscience and Nanotechnology, 18(12): 8252-8257.(SCI-4)无原文

96.Zhang, J.,Huang, X.-Z.,Wang, Z.-L.,Yan, T.-L.,Zhang, E.-Y., 2018.A late-Holocene pollen record from the western Qilian Mountains and its implications for climate change and human activity along the Silk Road, Northwestern China, Holocene, 28(7): 1141-1150. (SCI-3)

97.Zhang, J.-Z.,Gou, X.-H.,Manzanedo, R.-D.,Zhang, F.,Pederson, N., 2018.Cambial phenology and xylogenesis of Juniperus przewalskii over a climatic gradient is influenced by both temperature and drought.Agricultural and Forest Meteorology, 260: 165-175.(SCI-1)

98.Zhang, J.-Z.,Gou, X.-H.,Pederson, N.,Zhang, F.,Niu, H.-G.,Zhao, S.-D.,Wang, F., 2018.Cambial phenology in Juniperus przewalskii along different altitudinal gradients in a cold and arid region. Tree Physiology, 38(6): 840-852. (SCI-1)

99.Zhang, X.-J.,Li, J.-R.,Gao, M.,Jin, L.-Y., 2018.Simulated precipitation changes in Central Asia since the Last Glacial Maximum. Quaternary International, 490: 82-97.(SCI-3)

100.Zhang, X.-N.,Zhou, A.-F.,Wang, X.,Song, M.,Zhao, Y.-T.,Xie, H.-C.,Russell, J.-M.,Chen, F.-H., 2018.Unmixing grain-size distributions in lake sediments: a new method of endmember modeling using hierarchical clustering. Quaternary Research, 89(1 SI): 365-373.(SCI-3)

101.Zhang, X.-Y., Zhang, H.-X.,Xiang, Y.-Y.,Hao, S.-B.,Zhang, Y.-X.,Guo, R.-N.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F.,Li, B., 2018.Synthesis of silver phosphate/graphene oxide composite and its enhanced visible light photocatalytic mechanism and degradation pathways of tetrabromobisphenol A. Journal of Hazardous Materials, 342: 353-363.(SCI-1)

102.Zhang, Y.,Meng, X.-M.,Jordan, C.,Novellino, A.,Dijkstra, T.,Chen, G., 2018.Investigating slow-moving landslides in the Zhouqu region of China using InSAR time series. Landslides, 15(7): 1299-1315. (SCI-2)

103.Zhou, X.,Zhang, T.-J.,Li, Z.-Q.,Tao, Y.,Wang, F.-T.,Zhang, X.,Xu, C.-H.,Ma, S.,Huang, J., 2018.Particulate and gaseous pollutants in a petrochemical industrialized valley city, Western China during 2013-2016. Environment Science and Pollution Research, 25(15SI): 15174-15190. (SCI-3)

104.Zhu, G.-F.,Li, X.,Ma, J.-Z.,Wang, Y.-Q.,Liu, S.-M.,Huang, C.-L.,Zhang, K.,Hu, X.-L., 2018.A new moving strategy for the sequential Monte Carlo approach in optimizing the hydrological model parameters. Advances in Water Resources, 114: 164-179. (SCI-2)

第一作者第二三单位

105.Fan, Y.-X.,Mou, X.-S.,Wang, Y.-D.,Liu, C.-Y.,Zhao, H.,Wang, F.,Li, Z.-J.,Mao, X.,Liu, W.-H.,Ma, J.,Liu, C.-R.,Zhang, F.,Zhang, F., 2018.Quaternary paleoenvironmental evolution of the Tengger Desert and its implications for the provenance of the loess of the Chinese Loess Plateau.Quaternary Science Reviews, 197: 21-34.(SCI-1)

106.Jin, C.,Nan, Z.-R.,Wang, H.-C.,Li, X.-L.,Zhou, J.,Yao, X.,Jin, P., 2018.Effect of Cd stress on the bioavailability of Cd and other mineral nutrition elements in broad bean grown in a loess subsoil amended with municipal sludge compost. Environmental Science and Pollution Research, 25(8) SI: 7418-7432.(SCI-3)

107.Li, G.-H.,Xia, D.-S.,Appel, E.,Wang, Y.-J.,Jia, J.,Yang, X.-Q., 2018.A paleomagnetic record in loess-paleosol sequences since late Pleistocene in the arid Central Asia. Earth Planets and Space, 70:44.(SCI-3)

108.Li, Y.-J., Armitage, S.-J., Stevens, T., Meng, X.-M., 2018. Alluvial fan aggradation/incision history of the eastern Tibetan plateau margin and implications for debris flow/debris-charged flood hazard. Geomorphology, 318: 203-216.(SCI-2)

109.Li, Y.-P.,Wang, S.-L.,Zhang, Q.,Zang, F.,Nan, Z.-R.,Sun, H.-L.,Huang, W.,Bao, L.-L., 2018.Accumulation, interaction and fractionation of fluoride and cadmium in sierozem and oilseed rape (Brassica napus L.) in northwest China. Plant Physiology and Biochemistry, 127: 457-468. (SCI-3)

110.Liu, L.-N.,Qu, J.-S.,Zhang, Z.-Q.,Zeng, J.-J.,Wang, J.-P.,Dong, L.-P.,Pei, H.-J.,Liao, Q., 2018.Assessment and determinants of per capita household CO2 emissions (PHCEs) based on capital city level in China. Journal of Geographical Science, 28(10): 1467-1484.(SCI-3)无原文

111.Liu, W.-H.,Gou, X.-H.,Li, J.-B.,Huo, Y.-X.,Yang, M.-X.,Lin, W., 2018.Separating temperature from precipitation signals encoded in tree-ring widths over the past millennium on the northeastern Tibetan Plateau, China.Quaternary Science Reviews, 93: 159-169. (SCI-1)

112.Qi, S.,Ma, J.-Z.,Feng, Q.,Liu, F.-H.,He, J.-H.,Shu, H.-P.,Jia, B., 2018.NO3- sources and circulation in the shallow vadose zone in the edge of Dunhuang Mingsha sand dunes in an extremely arid area of Northwestern China. Catena, 162: 193-202.(SCI-2)

113.Wang, B., Xia, D.-S., Yu, Y., Chen, H., Jia, J., 2018. Source apportionment of soil-contamination in Baotou City (North China) based on a combined magnetic and geochemical approach. Science of the Total Environment, 642: 95-104.(SCI-2)

114.Wang, H.-P.,Chen, J.-H.,Zhang, S.-D.,Zhang, D.-D.,Wang, Z.-L.,Xu, Q.-H.,Chen, S.-Q.,Wang, S.-J.,Kang, S.-C.,Chen, F.-H., 2018.A chironomid-based record of temperature variability during the past 4000 years in northern China and its possible societal implications.Climate of the Past, 14(3): 383-396.(SCI-2)

115.Zhang, Q.,Wang, S.-L.,Nan, Z.-R.,Li, Y.-P.,Zang, F.,2018.Accumulation, fractionation, and risk assessment of mercury and arsenic in the soil-wheat system from the wastewater-irrigated soil in Baiyin, northwest China. Environment Science and Pollution Research, 25(15 SI): 14856-14867. (SCI-3)

116.Zhang, Q.,Wang, S.-L.,Yousaf, M.,Wang, S.-X.,Nan, Z.-R.,Ma, J.-M.,Wang, D.-P.,Zang, F., 2018.Hydrochemical characteristics and water quality assessment of surface water in the northeast Tibetan Plateau of China. Water Science and Technology-Water Supply, 18(5): 1757-1768.(SCI-4)无原文

117.Zhang, Z.-P.,Liu, J.-B.,Chen, S.-Q.,Chen, J.,Zhang, S.-J.,Xia, H.,Shen, Z.-W.,Wu, D.,Chen, F.-H.,2018.Nonlagged Response of Vegetation to Climate Change During the Younger Dryas: Evidence from High-Resolution Multiproxy Records from an Alpine Lake in Northern China. Journal of Geophysical Research- Atmospheres, 123(14): 7065-7075. (SCI-2)一作三单位

非第一作者单位

118.Chen, J.,Liu, L.,Zhang, T.-J.,Cao, B.,Lin, H., 2018.Using Persistent Scatterer Interferometry to Map and Quantify Permafrost Thaw Subsidence: A Case Study of Eboling Mountain on the Qinghai-Tibet Plateau.Journal of Geophysical Research-Earth Surface, 123(10): 2663-2676.

119.Cheng, Q.-F.,Deng, X.-Y.,Zhang, H.-X.,Guo, R.-N.,Cui, Y.-Q.,Ma, Q.-L.,Zhang, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Li, B., 2018.Microwave assisted construction of Ag-AgBr/reduced TiO2 nano-tube arrays photoelectrode and its enhanced visible light photocatalytic performance for degradation of 4-chlorphenol.Separation and Purification Technology, 193: 255-263.

120.Gao, B., Yang, D.-W., Qin, Y., Wang, Y.-H., Li, H.-Y., Zhang, Y.-L., Zhang, T.-J., 2018.Change in frozen soils and its effect on regional hydrology, upper Heihe basin, northeastern Qinghai-Tibetan Plateau. Gryosphere, 12(2): 657-673. 无原文

121.Heermance, R.-V.,Pearson, J.,Moe, A.,Liu, L.-T.,Xu, J.-H.,Chen, J.,Richter, F.,Garzione, C.-N.,Nie, J.-S.,Bogue, S., 2018.Erg deposition and development of the ancestral Taklimakan Desert (western China) between 12.2 and 7.0 Ma. Geology, 46(10): 919-922.

122.Huo, G.-P., Zhao, X.-N., Gao, X.-D., Wang, S.-F., Pan, Y.-H., 2018. Seasonal water use patterns of rainfed jujube trees in stands of different ages under semiarid Plantations in China.Agriculture Ecosystems & Environment, 265: 392-401.

123.Jin, X., He, C.-S., Zhang, L.-H., Zhang, B.-Q., 2018. A Modified Groundwater Module in SWAT for Improved Streamflow Simulation in a Large, Arid Endorheic River Watershed in Northwest China.Chinese Geographical Science, 28(1): 47-60.

124.Li, D.-M.,Meng, C.-X.,Wu, G.-X.,Xie, B.-T.,Han, Y.-F.,Guo, Y.-Q.,Song, C.-H.,Gao, Z.-Q.,Huang, Z.-Y., 2018.Effects of zinc on the production of alcohol by Clostridium carboxidivorans P7 using model syngas. Journal of Industrial Microbiology & Biotechnology, 45(1): 61-69.无原文

125.Li, J.-J.,Wang, H.,Wang, L.,Ma, C.,Luan, C.,Zhao, B.,Zhang, Z.-H.,Zhang, H.-W.,Cheng, X.-W.,Liu, J.-L., 2018.The Preparation of Pd/Foam-Ni Electrode and Its Electrocatalytic Hydrodechlorination for Monochlorophenol Isomers. Catalysts, 8(9): 378.无原文

126.Li, J.-J.,Deng, X.-Y.,Guo, R.-N.,Li, B.,Cheng, Q.-F.,Cheng, X.-W., 2018.Visible light driven photocatalytic decomposition of penicillin G by Ti3+ self-doped TiO2 nano-catalyst through response surface methodology. Journal of the Taiwan Institute of Chemical Engineers, 87: 174-181.

127.Li, L.-Z.,Ma, Q.-L.,Wang, S.-F.,Song, S.-X.,Li, B.,Guo, R.-N.,Cheng, X.-W.,Cheng, Q.-F., 2018.Photocatalytic Performance and Degradation Mechanism of Aspirin by TiO2 through Response Surface Methodology. Catalysts, 8(3): 118.

128.Liang, H.-B.,Xue, Y.-Y.,Li, Z.-S.,Wang, S.,Wu, X.,Gao, G.-Y.,Liu, G.-H.,Fu, B.-J., 2018.Soil moisture decline following the plantation of Robinia pseudoacacia forests: Evidence from the Loess Plateau.ForestEcology and Management, 412:62-69.

129.Liu, W.-M.,Hu, K.-H.,Carling, P.-A.,Lai, Z.-P.,Cheng, T.,Xu, Y.-L., 2018.The establishment and influence of Baimakou paleo-dam in an upstream reach of the Yangtze River, southeastern margin of the Tibetan Plateau. Geomorphology, 321: 167-173.

130.Meng, B.-P.,Gao, J.-L.,Liang, T.-G.,Cui, X.,Ge, J.,Yin, J.-P.,Feng, Q.-S.,Xie, H.-J., 2018.Modeling of Alpine Grassland Cover Based on Unmanned Aerial Vehicle Technology and Multi-Factor Methods: A Case Study in the East of Tibetan Plateau, China. Remote Sensing, 10(2): 320.

131.Qiang, W.-L.,Niu, S.-W.,Liu, X.-J.,Wang, X.,Jia, Z.,Dai, R.-Q., 2018.Analysis of generation cost changes during China's energy transition. Energy & Environment, 29(4): 456-472.

132.Ren, S.-L.,Yi, S.-H.,Peichl, M.,Wang, X.-Y., 2018.Diverse Responses of Vegetation Phenology to Climate Change in Different Grasslands in Inner Mongolia during 2000-2016.Remote Sensing, 10(1): 17.

133.Schuster, P.-F.,Schaefer, K.-M.,Aiken, G.-R.,Antweiler, R.-C.,Dewild, J.-F.,Gryziec, J.-D.,Gusmeroli, A.,Hugelius, G.,Jafarov, E.,Krabbenhoft, D.-P.,Liu, L.,Herman-Mercer, N.,Mu, C.-C.,Roth, D.-A.,Schaefer, T.,Striegl, R.-G.,Wickland, K.-P.,Zhang, T.-J., 2018.Permafrost Stores a Globally Significant Amount of Mercury. Geophysical Research Letters, 45(3): 1463-1471.

134.Song, Y.-G.,Fang, X.-M.,Chen, X.-L.,Torii, M.,Ishikawa, N.,Zhang, M.-S.,Yang, S.-L.,Chan, H., 2018.Rockmagnetic record of late Neogene red clay sediments from the Chinese Loess Plateau and its implications for East Asian monsoon evolution.Palaeogeography Palaeoclimatology Palaeoecology, 510(SI): 109-123.

135.Storozum, M.-J.,Qin, Z.,Ren, X.-L.,Li, H.-M.,Cui, Y.-F.,Fu, K., 2018.The collapse of the North Song dynasty and the AD 1048-1128 Yellow River floods: Geoarchaeological evidence from northern Henan Province, China. Holocene, 28(11): 1759-1770.

136.Sun, B.-Y., Wang, X.-X.,Ji, M.-X.,Pang, L.-B.,Shi, Q.-Q.,Hou, S.-K.,Sun, D.-H.,Wang, S.-Q., 2018.Miocene mammalian faunas from Wushan, China and their evolutionary, biochronological, and biogeographic significances. Palaeoworld, 27(2): 258-270.

137.Sun, H.-L.,Bendle, J.,Seki, O.,Zhou, A.-F., 2018.Mid-to-late Holocene hydroclimatic changes on the Chinese Loess Plateau: evidence from n-alkanes from the sediments of Tianchi Lake.Journal of Paleolimnology, 60(4): 511-523.

138.Wang, J.-Z.,Wu, J.-L.,Pan, B.-T.,Jia, H.-J.,Li, X.,Wei, H., 2018.Sediment records of Yellow River channel migration and Holocene environmental evolution of the Hetao Plain, northern China. Journal of Asian Earth Science, 156: 180-188.

139.Wang, S.-J.,Shi, X.-Y.,Cao, W.-H.,Pu, T., 2018.Seasonal Variability and Evolution of Glaciochemistry at An Alpine Temperate Glacier on the Southeastern Tibetan Plateau. Water, 10(2): 114.

140.Wang, X.-Q., Jin, Z.-D., Zhang, X.-B., Xiao, J., Zhang, F., Pan, Y.-H., 2018.High-resolutiongeochemical records of deposition couplets in a palaeolandslide-dammed reservoir on the Chinese Loess Plateau and its implication for rainstorm erosion. Journal of Soils and Sediments, 18(3): 1147-1158.

141.Wei, B.-C.,Xie, Y.-W.,Jia, X.,Wang, X.-Y.,He, H.-J.,Xue, X.-Y., 2018.Land use/land cover change and it's impacts on diurnal temperature range over the agricultural pastoral ecotone of Northern China. Land Degradation & Development, 29(9) : 3009-3020.非一作

142.Wu, X.-D.,Xu, H.-Y.,Liu, G.-M.,Zhao, L.,Mu, C.-C., 2018.Effects of permafrost collapse on soil bacterial communities in a wet meadow on the northern Qinghai-Tibetan Plateau. BMC Ecology, 18:27.

143.Xu, H.-Y.,Liu, G.-M.,Wu, X.-D.,Smoak, J.-M.,Mu, C.-C.,Ma, X.-L.,Zhang, X.-L.,Li, H.-Q.,Hu, G.-L., 2018.Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau. Ecological Indicators, 85: 585-593.

144.Xu, M., Kang, S.-C., Chen, X.-L., Wu, H., Wang, X.-Y., Su, Z.-B., 2018. Detection of hydrological variations and their impacts on vegetation from multiple satellite observations in the Three-River Source Region of the Tibetan Plateau. Science of the Total Environment, 639: 1220-1232.

145.Yang, N.,Zhang, Z.-L.,Xue, B.,Ma, J.-X.,Chen, X.-P.,Lu, C.-Y., 2018.Economic Growth and Pollution Emission in China: Structural Path Analysis. Sustainability, 10(7): 2569.

146.Zhang, H.,Werner, J.-P.,Garcia-Bustamante, E.,Gonzalez-Rouco, F.,Wagner, S.,Zorita, E.,Fraedrich, K.,Jungclaus, J.-H.,Ljungqvist, F.-C.,Zhu, X.-H.,Xoplaki, E.,Chen, F.-H.,Duan, J.-P.Ge, Q.-S.,Hao, Z.-X.,Ivanov, M.,Schneider, L.,Talento, S.,Wang, J.-L.,Yang, B.,Luterbacher, J., 2018.East Asian warm season temperature variations over the past two millennia. Scientific Reports, 8: 7702.

147.Zhang, H.-X.,Deng, X.-Y.,Ma, Q.-L.,Cui, Y.-Q.,Cheng, X.-W.,Xie, M.-Z.,Li, X.-L.,Cheng, Q.-F., 2018.Fabrication of Silver Decorated Graphene Oxide Composite for Photocatalytic Inactivation of Escherichia coli.Journal of Nanoscience and Nanotechnology, 18(4): 2304-2309.无原文

148.Zhang, J.-N.,Xia, Z.-K.,Zhang, X.-H.,Storozum, M.-J.,Huang, X.-Z.,Han, J.-Y.,Xu, H.,Zhao, H.-T.,Cui, Y.-F.,Dodson, J.,Dong, G.-H., 2018.Early-middle Holocene ecological change and its influence on human subsistence strategies in the Luoyang Basin, north-central China. Quaternary Research, 89(2): 446-458.

149.Zhang, P.,Wu, Q.-B.,Mu, C.-C.,Chen, X.-P., 2018.Nucleation Mechanisms of CO2 Hydrate Reflected by Gas Solubility. Scientific Reports, 8: 10441.

150.Zhang, S.-H., Yang, G.-L., Hou, S.-G., Zhang, T.-J., Li, Z.-G., Liang, F., 2018.Distribution of ARGs and MGEs among glacial soil, permafrost, and sediment using metagenomic analysis. Environmental Pollution, 234: 339-346.

151.Zhang, S.-W., Yang, Z.-Y., Cioppa, M.-T., Liu, Q.-S., Wang, X.-S., Eichhorn, H.-S., Qiao, Y.-S., Chen, F.-H., Shao, Z.-G., Liu, J.-B., Zhang, S.-H., Gagnon, J.-E., Huo, J.-J., Sheng, M., 2018. A high-resolution Holocene record of the East Asian summer monsoon variability in sediments from Mountain Ganhai Lake, North China. Palaeogeography Palaeoclimatology Palaeoecology, 508: 17-34.

152.Zhang, X.-J.,Jin, L.-Y.,Chen, J.,Lu, H.-Y.,Chen, F.-H., 2018.Lagged response of summer precipitation to insolation forcing on the northeastern Tibetan Plateau during the Holocene. Climate Dynamics, 50(9-10): 3117-3129.

153.Zhang, X.-J.,Jin, L.-Y.,Lu, H.-Y.,Park, W.,Schneider, B.,Latif, M., 2018.East-west contrast of Northeast Asian summer precipitation during the Holocene. Global and Planetary Change, 170: 190-200.

154.Zhang, Y.-M.,Wang, F.,Ou, P.,Zhu, H.,Zhao, Y.-L.,Wang, L.-Q.,Chen, Z.,Li, S., 2018.Prepared multifunctional aerogel for high performance supercapacitors and effective adsorbents. Materials Research Express, 5(5): 055508.

155.Zhang, Y.-L.,Kang, S.-C.,Sprenger, M.,Cong, Z.-Y.,Gao, T.-G.,Li, C.-L.,Tao, S.,Li, X.-F.,Zhong, X.-Y.,Xu, M.,Meng, W.-J.,Neupane, B.,Qin, X.,Sillanpaa, M., 2018.Black carbon and mineral dust in snow cover on the Tibetan Plateau. Gryosphere, 12(2): 413-431.

156.Zhang, Y.-L.,Kang, S.-C.,Li, G.,Gao, T.-G.,Chen, P.-F.,Li, X.-F.,Liu, Y.-J.,Hu, Z.-F.,Sun, S.-W.,Guo, J.-M.,Wang, K.,Chen, X.-T.,Sillanpaa, M., 2018.Dissolved organic carbon in glaciers of the southeastern Tibetan Plateau: Insights into concentrations and possible sources. PLOS ONE, 13(10): e0205414.

157.Zhang, Y.-M.,Wang, F.,Ou, P.,Zhu, H.,Lai, Y.-X.,Zhao, Y-L.,Shi, W.-L.,Chen, Z.,Li, S.,Wang, T., 2018.High efficiency and rapid degradation of bisphenol A by the synergy between adsorption and oxidization on the MnO2@nano hollow carbon sphere. Journal of Hazardous Materials, 360: 223-232.

158.Zhang, Y.-Y.,Zhao, W.-Z.,He, J.-H.,Fu, L., 2018.Soil Susceptibility to Macropore Flow Across a Desert-Oasis Ecotone of the Hexi Corridor, Northwest China. Water Resources Research, 54(2): 1281-1294.

159.Zhao, S.,Xia, D.-S.,Jin, H.-L.,Jia, J.,Liu, B., 2018.A multi-proxy late Holocene climate record from aeolian deposits of the Horqin sandy land, northeast China and its societal implications.Aeolian Research, 35: 29-38.

160.Zhong, S.,Niu, S.-W.,Wang, Y.-P., 2018.Research on Potential Evaluation and Sustainable Development of Rural Biomass Energy in Gansu Province of China.Sustainability,10(10): 3800.

161.Zhong, X.-Y.,Zhang, T.-J.,Kang, S.-C.,Wang, K.,Zheng, L.,Hu, Y.-T.,Wang, H.-J., 2018.Spatiotemporal variability of snow depth across the Eurasian continent from 1966 to 2012. Cryosphere, 12(1): 227-245.

2017年度

(共发表论文150篇，其中SCI论文147篇，第一作者第一单位发表SCI论文89篇，参考2016年分区，发表一区20篇，二区25篇)

第一作者第一单位

162.Cao, B., Gruber, S., Zhang, T.-J., 2017. REDCAPP (v1.0): parameterizing valley inversions in air temperature data downscaled from reanalyses. Geoscientific Model Development, 10(8): 2905-2923.(SCI-2)

163.Cao, B., Gruber, S, Zhang, T.-J., Li, L.-L., Peng, X.-Q., Wang, K., Zheng, L., Shao, W.-W., Guo, H., 2017. Spatial variability of active layer thickness detected by ground- penetrating radar in the Qilian Mountains, Western China. Journal of Geophysical Research-EarthSurface, 122(3):574-591.(SCI-2)

164.Cao, B., Pan, B.-T., Cai, M.-Y., Wang, J., 2017. An investigation on changes in glacier mass balance and hypsometry for a small mountainous glacier in the northeastern Tibetan Plateau. Journal of Mountain Science,14(8): 1624-1632.

165.Cao, J.-T., Rao, Z.-G., Jia, G.-D., Xu, Q.-H., Chen, F.-H., 2017. A 15 ka pH record from an alpine lake in north China derived from the cyclization ratio index of aquatic brGDGTs and its paleoclimatic significance. Original Geochemistry, 109:31-46.(SCI-2)

166.Chang, J., Wang, G.-X., Mao, T.-X., Sun, X.-Y., 2017. 2017. ANN Model-Based Simulation of the Runoff Variation in Respo nse to Climate Change on the Qinghai-Tibet Plateau, China. Advances in Meterology, 9451802.

167.Chen, J.-H.,Lv, F.-Y.,Huang, X.-Z.,Birks, H.-JB.,Telford, R.-J.,Zhang, S.-R.,Xu, Q.-H.,Zhao, Y.,Wang, H.-P.,Zhou, A.-F.,Huang, W.,Liu, J.-B.,Wei, G.-Y., 2017.A novel procedure for pollen-based quantitative paleoclimate reconstructions and its application in China.Science China-Earth Sciences, 60(11):2059-2066.

168.Chen, X.-M., Huang, X.-Z., Wu, D., Zhang, X.-N., Dodson, J, Zhou, A.-F., Chen, F.-H., 2017. Modern pollen assemblages in topsoil and surface sediments of the Xingyun Lake catchment, central Yunnan Plateau, China, and their implications for interpretation of the fossil pollen record. Review of Palaeobotany and Palynology, 241:1-12.

169.Cui, Y.-Q., Ma, Q.-L., Deng, X.-Y., Meng, Q., Cheng, X.-W., Xie, M.-Z., Li, X.-L., Cheng, Q.-F., Liu, H.-L., 2017. Fabrication of Ag-Ag2O/reduced TiO2 nanophotocatalyst and its enhanced visible light driven photocatalytic performance for degradation of diclofenac solution. Applied Catalysis B-environmental, 206:136-145.(SCI-1)

170.Cui, Y.-Q., Zhang, H.-X., Guo, R.-N., Ma, Q.-L., Deng, X.-Y., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., Zou, C.-W., 2017. Fabrication of bismuth oxide/titanium dioxide nano-tube arrays photoelectrode and its enhanced visible light photocatalytic performance for degradation of 4-chlorphenol. Electrochimica Acta, 246: 1075-7081.(SCI-1)

171.Dai, S., Dai, W., Zhao, Z.-B., Luo, J.-H., Qiang, L., Ma, X., Zhang, X.-W., Xu, J.-J., 2017. Timing, Displacement and Growth Pattern of the Altyn Tagh Fault: A Review. Acta Geologica Sinica-English Edition, 91(2):669-687.

172.Deng, X.-Y., Ma, Q.-L., Cui, Y.-Q., Cheng, X.-W., Cheng, Q.-F., 2017. Fabrication of TiO2 nanorods/nanosheets photoelectrode on Ti mesh by hydrothermal method for degradation of methylene blue:influence of calcination temperature.Applied Surface Science 419: 409-417.(SCI-2)

173.Deng, X.-Y., Ma, Q.-L., Cui, Y.-Q., Zhang, H.-X., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., Li, B., 2017. Microwave-assisted synthesis of Ag2O/reduced TiO2 nano-tube arrays photoelectrode with enhanced visible photocatalytic activity for degradation of organic pollutants. Separation andPurificationTechnology, 182:230-237.(SCI-2)

174.Deng, X.-Y., Zhang, H.-X., Ma, Q.-L., Cui, Y.-Q., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., 2017. Fabrication of p-NiO/n-TiO2 nano-tube arrays photoelectrode and its enhanced photocatalytic performance for degradation of 4-chlorphenol, Separation and Purification Technology, 186: 1-9.(SCI-2)

175.Deng, Y., Gou, X.-H., Gao, L.-L., Yang, M.-X., Zhang, F., 2017. Tree-ring recorded moisture variations over the past millennium in the Hexi Corridor, northwest China. Environmental Earth Sciences. 76(2):272.

176.Deng, Y., Gou, X.-H., Gao, L.-L., Yang, M.-X., Zhang, F., 2017. Spatiotemporal drought variability of the eastern Tibetan Plateau during the last millennium. Climate Dynamics, 49(5-6): 2077-2091.(SCI-1)

177.Dong, G.-H., Yang, Y.-S., Han, J.-Y., Wang, H., Chen, F.-H., 2017. Exploring the history of cultural exchange in prehistoric Eurasia from the perspectives of crop diffusion and consumption. Science China-Earth Sciences, 60(6):1110-1123.

178.Dong, G.-H.,Liu, F.-W.,Chen, F.-H., 2017.Environmental and technological effects on ancient social evolution at different spatial scales.Science China-Earth Sciences, 60(12):2067-2077.

179.Gao, H.-S., Li, Z.-M., Liu, X.-F., Pan, B.-T., Wu, Y.-J., Liu, F.-L., 2017. Fluvial terraces and their implications for Weihe River valley evolution in the Sanyangchuan Basin. Science China-Earth Sciences, 60(3):413-427.

180.Gao, L.-L., Gou, X.-H., Deng, Y., Yang, M.-X., Zhang, F., 2017. Assessing the influences of tree species, elevation and climate on tree-ring growth in the Qilian Mountains of northwest China. Trees-Structure and Function, 31(2):393-404.(SCI-2)

181.Geng, H.-P.,Pan, B.-T.,Huang, B.,Cao, B.,Gao, H.-S., 2017.The spatial distribution of precipitation and topography in the Qilian Shan Mountains, northeastern Tibetan Plateau.GEOMORPHOLOGY, 297:43-54.(SCI-2)

182.Gou, J.-F., Ma, Q.-L., Deng, X.-Y., Cui, Y.-Q., Zhang, H.-X., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., 2017. Fabrication of Ag2O/TiO2-Zeolite composite and its enhanced solar light photocatalytic performance and mechanism for degradation of norfloxacin. Chemical Engineering Journal, 308: 818-826.(SCI-1)

183.Gou, J.-F., Ma, Q.-L., Cui, Y.-Q., Deng, X.-Y., Zhang, H.-X., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., Liu, H.-L., 2017. Visible light photocatalytic removal performance and mechanism of diclofenac degradation by Ag3PO4 sub-microcrystals through response surface methodology. Journal of Industrial and Engineering Chemistry, 49: 112-121.(SCI-2)

184.Guan, Q.-Y., Cai, A., Wang, F.-F., Yang. L.-Q., Xu, C.-Q., Liu, Z.-Y., 2017. Spatio-temporal variability of particulate matter in the key part of Gansu Province, western China. Environmental Pollution, 230, 189-198.(SCI-2)

185.Guan, Q.-Y., Sun, X.-Z., Yang, J., Pan, B.-T., Zhao, S.-L., Wang, L., 2017. Dust storms in northern China: Long-term spatiotemporal characteristics and climate controls. Journal of Climate, 30, 6683-6700.(SCI-1)

186.Guan, Q.-Y., Guan, W.-Q., Yang, J., Zhao, S.-L., Pan, B.-T., Wang, L., Song, N., Lu, M., Li, F.-C., 2017. Spatial and temporal changes in desertification in the Southern Region of the Tengger Desert from 1973 to 2009. Theoretical and Applied Climatology, 129, 487-502.

187.Guo, J.-J., Yue, D.-X., Li, K., Hui, C., 2017. Biocapacity optimization in regional planning. Scientific Reports, 7:e41150.

188.Hu, X.-F., Pan, B.-T., Fan, Y.-X., Wang, J., Hu, Z.-B., Cao, B., Li, Q.-Y., Geng, H.-P., 2017. Folded fluvial terraces in a young, actively deforming intramontane basin between the Yumu Shan and the Qilian Shan mountains, NE Tibet. Lithosphere, 9(4): 545-560.(SCI-2)

189.Hu, Z.-B., Pan, B.-T., Bridgland, D., Vandenberghe, J., Guo, L.-Y., Fan, Y.-L., Westaway, R., 2017. The linking of the upper-middle and lower reaches of the Yellow River as a result of fluvial entrenchment. Quaternary Science Reviews,166 :324-338.(SCI-1)

190.Huang, X.-Z., Liu, S.-S., Dong, G.-H., Qiang, M.-R., Bai, Z.-J., Zhao, Y., Chen, F.-H., 2017. Early human impacts on vegetation on the northeastern Qinghai-Tibetan Plateau during the middle to late Holocene. Progress in Physical Geography, 41(3):286-301.(SCI-2)

191.Hui, Z.-C.,Li, J.-J.,Song, C.-H.,Chang, J.,Zhang, J.,Liu, J.,Liu, S.-P.,Peng, T.-J.,2017.Vegetation and climatic changes during the Middle Miocene in the Wushan Basin, northeastern Tibetan Plateau: Evidence from a high-resolution palynological record.JOURNAL OF ASIAN EARTH SCIENCES, 147:116-127.

192.Huo, Y.-X., Gou, X.-H., Liu, W.-H., Li, J.-B., Zhang, F., Fang, K.-Y., 2017. Climate-growth relationships of Schrenk spruce (Picea schrenkiana) along an altitudinal gradient in the western Tianshan mountains, northwest China. Trees-Structure and Function, 31(2):429-439.(SCI-2)

193.Li, B.-F., Sun, D.-H., Xu, W.-H., Wang, F., Liang, B.-Q., Ma, Z.-W., Wang, X., Li, Z.-J., Chen, F.-H., 2017. Paleomagnetic chronology and paleoenvironmental records from drill cores from the Hetao Basin and their implications for the formation of the Hobq Desert and the Yellow River. Quaternary Science Reviews, 156: 69-89.(SCI-1)

194.Li, G.-Q., Duan, Y.-W., Huang, X.-Z., Buylaert, J.-P, Peng, W., Madsen, D.-B., Rao, Z.-G., She, L.-L., Xie, H.-C., Chen, J.-H., 2017. The luminescence dating chronology of a deep core from Bosten Lake (NW China) in arid central Asia reveals lake evolution over the last 220 ka. Boreas, 46(2):264-281.

195.Li, G.-Q., Li, F.-L., Jin, M., She, L.-L., Duan, Y.-W., Madsen, D, Wang, L.-B., Chen, F., 2017. Late Quaternary lake evolution in the Gaxun Nur basin, central Gobi Desert, China, based on quartz OSL and K-feldspar pIRIR dating of paleoshorelines. Journal of Quaternary Science, 32(3): 347-361.(SCI-2)

196.Li, H., An, C.-B., Dong, W.-M., Wang, W., Hu, Z.-Y., Wang, S.-Z., Zhao, X.-Y., Yang, Y.-S., 2017. Woodland vegetation composition and prehistoric human fuel collection strategy at the Shannashuzha site, Gansu Province, northwest China, during the middle Holocene. Vegetation History and Archaeobotany, 26(2): 213-221.

197.Li, H.-M.,Liu, F.-W.,Cui, Y.-F.,Ren, L.-L.,Storozum, M.-J.,Qin, Z.,Wang, J.,Dong, G.-H.,2017.Human settlement and its influencing factors during the historical period in an oasis-desert transition zone of Dunhuang, Hexi Corridor, northwest China.QUATERNARY INTERNATIONAL,458:113-122.

198.Li, J.-J.,Ma, Z.-H.,Li, X.-M.,Peng, T.-J.,Guo, B.-H.,Zhang, J.,Song, C.-H.,Liu, J.,Hui, Z.-C.,Yu, H.,Ye, X.-Y.,Liu, S.-P.,Wang, X.-X.,2017.Late Miocene-Pliocene geomorphological evolution of the Xiaoshuizi peneplain in the Maxian Mountains and its tectonic significance for the northeastern Tibetan Plateau.Geomorphology, 295:393-405.(SCI-2)

199.Li, X.-G., Wei, N., Wei, X., 2017. Complexity Analysis of Precipitation-Runoff Series Based on a New Parameter-Optimization Method of Entropy. Journal of Hydrologic Engineering, 22(9): 04017029.

200.Li, X.-G., 2017.A new method to evaluate floodwater for control/use in high-sediment rivers of Northwest China.Scientific Reports,7:17219.

201.Li, Y., Li, P.-C., Zhang, C.-Q., Wang, Y., 2017. Long-Term Fine-Grained Sediment Records in a Drainage System in Arid China: A New Perspective from Paleo-Climatological Records and Simulations. Annals of the American Association of Geographers, 107(5): 1216-1228. SSCI

202.Li, Y., Zhang, C.-Q., Li, P.-C., Wang, Y., 2017. Basin-Wide Sediment Grain-Size Numerical Analysis and Paleo-Climate Interpretation in the Shiyang River Drainage Basin. Geographical Analysis, 49(3):309-327. SSCI

203.Li, Y., Zhang, C.-Q., Wang, N.-A., Han, Q., Zhang, X.-Z., Liu, Y., Xu, L.-M., Ye, W.-T., 2017. Substantial inorganic carbon sink in closed drainage basins globally. Nature Geoscience, 10(7):501-506.(SCI-1)

204.Li, Y., Qiang, M.-R., Zhang, J.-W., Huang, X.-Z., Zhou, A.-F., Chen, J.-H., Wang, G.-G., Zhao, Y., 2017. Hydroclimatic changes over the past 900 years documented by the sediments of Tiewaike Lake, Altai Mountains, Northwestern China. Quaternary International, 452: 91-101.

205.Li, Y.-X., Rao, Z.-G., Cao, J.-T., Jiang, H., Gao, Y.-L., 2017. Highly negative oxygen isotopes in precipitation in southwest China and their significance in paleoclimatic studies. Quaternary International, 440:64-71.

206.Li,Z.-J.,Song,L.-L.,Ma,J.-Z., 2017.Hydrochemical characteristics and environmental significance in different ablation period in Hulugou River Basin in Qilian Mountain.Environmental Earth Sciences,76(17): 606

207.Li, Z.-J.,Liu, F.,Song, Y.,Song, L.-L.,Tian, Q.,Jia, B.,Li, Y.-G.,Ma, J.-Z., 2017.Chemical characteristics of precipitation and the indicative significance for sand dust events in the northern and southern slopes of Wushaoling Mountain, northwestern China.Journal of Arid Land, 9(6):911-923.

208.Liu, J.-B., Rhland, K.-M., Chen, J.-H., Xu, Y.-Y. Chen, S.-Q., Chen, Q.-M., Huang, W., Xu, Q.-H., Chen, F.-H., Smol, J.-P., 2017. Aerosol-weakened summer monsoons decrease lake fertilization on the Chinese Loess Plateau. Nature Climate Change, 7(3): 190-194.(SCI-1)

209.Liu, J.-B., Chen, S.-Q., Chen, J.-H., Zhang, Z.-P., Chen, F.-H., 2017. Chinese cave delta O-18 records do not represent northern East Asian summer monsoon rainfall. Proceedings of the National Academy of Sciences of the United States of America, 114(15): E2987-E2988.(SCI-1)

210.Liu, L.-N., Qu, J.-S., Clarke-Sather, A., Maraseni, T.-N., Pang, J.-X., 2017. Spatial Variations and Determinants of Per Capita Household CO2 Emissions (PHCEs) in China.Sustainability, 9(7):1277

211.Liu, X.-W., Yuan, D.-Y., Su, Q., 2017. Late Pleistocene slip rate of the northern Qilian Shan frontal thrust, western Hexi Corridor, China. Terra Nova, 29(4): 238-244.

212.Liu, Y.,Li, Y., 2017.Quantitative reconstruction of precipitation and runoff during MIS 5a, MIS 3a, and Holocene, arid China.THEORETICAL AND APPLIED CLIMATOLOGY, 130(3-4):747-754.

213.Ma, Q.-L., Cui, Y.-Q., Deng, X.-Y., Li, B., Cheng, Q.-F., Cheng, X.-W., 2017. Fabrication of Magnetic TiO2 Nano-Catalyst and Its Enhanced Photocatalytic and Recycle Performance. Journal of Nanoscience and Nanotechnology, 17(3):2019-2024.

214.Ma, Q.-L.,Zhang, H.-X.,Guo, R.-N.,Cui, Y.-Q.,Deng, X.-Y.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F.,Li, B., 2017.A novel strategy to fabricate plasmonic Ag/AgBr nano-particle and its enhanced visible photocatalytic performance and mechanism for degradation of acetaminophen.Journal of the Taiwan Institute of Chemical Engineers,80:176-183.(SCI-2)

215.Ma, Q. -L., Zhang, H.-X.,, Deng, X.-Y., Cui, Y.-Q., Cheng, X.-W., Li, X.-L., Xie, M.-Z., Cheng, Q.-F., Li, B., 2017.Electrochemical fabrication of NZVI/TiO2 nano-tube arrays photoelectrode and its enhanced visible light photocatalytic performance and mechanism for degradation of 4-chlorphenol.Separation and Purification Technology, 182:144-150.(SCI-2)

216.Ma, Q.-L.,Wang, H.-T.,Zhang, H.-X.,Cheng, X.-W.,Xie, M.-Z.,Cheng, Q.-F., 2017.Fabrication of MnO2/TiO2 nano-tube arrays photoelectrode and its enhanced visible light photoelectrocatalytic performance and mechanism.Separation and Purification Technology,189:193-203.(SCI-2)

217.Mu, C.-C.,Zhang, T-J.,Zhao, Q., Su, H., Wang, S.-F., Cao, B., Peng, X.-Q., Wu, Q.-B., Wu, X.-D., 2017.Permafrost affects carbon exchange and its response to experimental warming on the northern Qinghai-Tibetan Plateau.Agricultural and Forest Meteorology,247:252-259.(SCI-1)

218.Mu, C.-C.,Abbott, B.-W.,Zhao, Q.,Su, H.,Wang, S.-F.,Wu, Q.-B.,Zhang, T.-J.,Wu, X.-D., 2017.Permafrost collapse shifts alpine tundra to a carbon source but reduces N2O and CH4 release on the northern Qinghai-Tibetan Plateau.Geophysical Research Letters,44(17):8945-8952.(SCI-1)

219.Mu, C.-C.,Abbott, B.-W.,Wu, X.-D.,Zhao, Q.,Wang, H.-J.,Su, H.,Wang, S.-F.,Gao, T.-G.,Guo, H.,Peng, X.-Q.,Zhang, T.-J.,2017.Thaw Depth Determines Dissolved Organic Carbon Concentration and Biodegradability on the Northern Qinghai-Tibetan Plateau.Geophysical Research Letters, 44(18):9389-9399.(SCI-1)

220.Mu, C.-C.,Wu, X.-D.,Zhao, Q.,Smoak, J.-M.,Yang, Y.-L.,Hu, L.,Zhong, W.,Liu, G.-M.,Xu, H.-Y.,Zhang, T.-J.,2017.Relict Mountain Permafrost Area (Loess Plateau, China) Exhibits High Ecosystem Respiration Rates and Accelerating Rates in Response to Warming.Journal of Geophysical Research-Biogeosciences,122(10):2580-2592.(SCI-2)

221.Nian, Y.-Y., Li, X., Zhou, J., 2017. Landscape changes of the Ejin Delta in the Heihe River Basin in Northwest China from 1930 to 2010. International Journal of Remote Sensing, 38(2): 537-557.

222.Nie, J.-S., Garzione, C., Su, Q.-D., Liu, Q.-S., Zhang, R., Heslop, D., Necula, C., Zhang, S.-H., Song, Y.-G., Luo, Z., 2017. Dominant 100,000-year precipitation cyclicity in a late Miocene lake from northeast Tibet. Science Advances, 2017;3: e1600762.

223.Pei, B.-B., Yang, L., Dong, K.-J., Jiang, Y.-C., Du, X.-S., Wang, B., 2017.The effect of cross-shaped vortex finder on the performance of cyclone separator. Powder Technology, 313: 135- 144.(SCI-2)

224.Peng, X.-Q., Zhang, T.-J., Frauenfeld, O.-W., Wang, K., Cao, B., Zhong, X.-Y., Su, H., Mu, C.- C., 2017. Response of seasonal soil freeze depth to climate change across China. Cryosphere, 11(3):1059-1073.(SCI-1)

225.Peng, X.-Q.,Mu, C.-C., 2017.Changes of soil thermal and hydraulic regimes in the Heihe River Basin.EnvironmentalMonitoring andAssessment, 189(10):483.

226.Qiang, M.-R., Song, L., Jin, Y.-X., Li, Y., Liu, L., Zhang, J.-W., Zhao, Y., Chen, F.-H., 2017.A 16-ka oxygen-isotope record from Genggahai Lake on the northeastern Qinghai-Tibetan Plateau: Hydroclimatic evolution and changes in atmospheric circulation. Quaternary Science Reviews, 162:72-87.(SCI-1)

227.Qiao, L., Meng, X.-M., Chen, G., Zhang, Y., Guo, P., Zeng, R.-Q., Li, Y.-J., 2017. Effect of rainfall on a colluvial landslide in a debris flow valley. Journal of Mountain Science, 14(6): 1113-1123.

228.Ren, L.-L., Li, X., Kang, L.-H., Brunson, K., Liu, H.-G., Dong, W.-M., Li, H.-M., Min, R., Liu, X., Dong, G.-H., 2017. Human paleodiet and animal utilization strategies during the Bronze Age in northwest Yunnan Province, southwest China. Plos One. 12(5): e0177867.

229.Shi, X.-Y.,Pu, T.,He, Y.-Q.,Qi, C.-S.,Zhang, G.-T.,Xia, D.-S., 2017.Variability of Stable Isotope in Lake Water and Its Hydrological Processes Identification in Mt. Yulong Region.Water, 9(9):711.

230.Tian, J., Zhang, B.-Q., He, C.-S., Yang, L.-X., 2017. Variability in Soil Hydraulic Conductivity and Soil Hydrological Response Under Different Land Covers in the Mountainous Area of the Heihe River Watershed, Northwest China. Land Degradation & Development, 28(4): 1437-1449.(SCI-1)

231.Wang, B., Pei, B.-B., Liu, H., Jiang, Y.-C., Xu, D.-L., Chen, Y.-X., 2017. Function and effect of the inner vortex on the performance of cyclone separators. AICHE Journal, 63(10): 4508-4518.(SCI-2)

232.Wang, X., Wei, H.-T., Khormali, F., Taheri, M., Kehl, M., Frechen, M., Lauer, T., Chen, F.-H., 2017. Grain-size distribution of Pleistocene loess deposits in northern Iran and its palaeoclimatic implications. Quaternary International, 429:41-51.

233.Wang, X.-X.,Deng, L.-Z.,Zattin, M.,Jia, M.-X.,Li, J.-J.,2017.Palaeogene growth of the northeastern Tibetan Plateau: Detrital fission track and sedimentary analysis of the Lanzhou basin, NW China.Journal of Asian Earth Sciences,147:322-331.

234.Wang, Y.-B., Sun, Y., Niu, F.-J., Wu, Q.-B., 2017. Using Cs-137 measurements to investigate the impact of soil erosion on soil nutrients in alpine meadows within the Yangtze River region, China. Cold Regions Science and Technology, 135:28-33.

235.Wei, X., Li, X.-G., Wei, N., 2017. Reducing runoff and soil loss using corn stalk juice at plot scale. Soil&Tillage Resrarch, 168:63-70.

236.Xie, M.-Z., Zhang, Z.-M., Han, W.-H., Cheng, X.-W., Li, X.-L., Xie, E.-Q., 2017. Efficient hydrogen evolution under visible light irradiation over BiVO4 quantum dot decorated screw-like SnO2 nanostructures. Journal of Materials Chemistry A, 5: 10338- 10346.(SCI-1)

237.Xie, Z.-T., Chen, G., Meng, X.-M., Zhang, Y., Qiao, L., Tan, L., 2017. A comparative study of landslide susceptibility mapping using weight of evidence, logistic regression and support vector machine and evaluated by SBAS-InSAR monitoring: Zhouqu to Wudu segment in Bailong River Basin, China. Environmental Earth Sciences, 76(8):313.

238.Yang, Y.-S., Dong, G.-H., Zhang, S.-J., Cui, Y.-F., Li, H.-M., Chen, G.-K., Dodson, J., Chen, F.-H., 2017. Copper content in anthropogenic sediments as a tracer for detecting smelting activities and its impact on environment during prehistoric period in Hexi Corridor, Northwest China. Holocene, 27(2):282-291

239.Zhang, B.-Q., Wang, Z.-K., Chen, G., 2017. A sensitivity study of applying a two-source potential evapotranspiration model in the standardized precipitation evapotranspiration index for drought monitoring. Land Degradation &Development, 28(2):783-793.(SCI-1)

240.Zhang, B.-Q., Long, B., Wu, Z.-Y., Wang, Z.-K., 2017. An evaluation of the performance and the contribution of different modified water demand estimates in drought modeling over water-stressed regions. Land Degradation & Development, 28(3):1134-1151.(SCI-1)

241.Zhang, D.-J., Zhang, N.-M., Wang, J., Ha, B.-B., Dong, G.-H., Chen, F.-H., 2017. Comment on "Permanent human occupation of the central Tibetan Plateau in the early Holocene". Science, 357:6351.(SCI-1)

242.Zhang, K., Ma, J.-Z., Zhu, G.-F., Ma, T., Han, T., Feng, L.-L., 2017. Parameter sensitivity analysis and optimization for a satellite-based evapotranspiration model across multiple sites using Moderate Resolution Imaging Spectroradiometer and flux data. Journal of Geophysical Research-Atmosphere, 122(1): 230-245.(SCI-2)

243.Zhang, L.-H.,He, C.-S.,Bai, X.,Zhu, Y., 2017.Physically Based Adjustment Factors for Precipitation Estimation in a Large Arid Mountainous Watershed, Northwest China.Journal of Hydrologic Engineering,22(11):04017047.

244.Zhang, L.-H., He, C.-S., Li, J.-L., Wang, Y Wang, Z, 2017.Comparison of IDW and Physically Based IDEW Method in Hydrological Modelling for a Large Mountainous Watershed, Northwest China. River Research and Applications, 33(6): 912-924.

245.Zhang, L.-H.,He, C.-S.,Zhang, M.-M., 2017.Multi-Scale Evaluation of the SMAP Product Using Sparse In-Situ Network over a High Mountainous Watershed, Northwest China.Remote Sensing, 9(11):1111.

246.Zhang, N.-M., Dong, G.-H., Yang, X.-Y., Zuo, X.-X., Kang, L.-H., Ren, L.-L., Liu, H.-G., Hu Li, H., Min, R., Liu, X., Zhang, D.-J., Chen, F.-H., 2017. Diet reconstructed from an analysis of plant microfossils in human dental calculus from the Bronze Age site of Shilinggang, southwestern China. Journal of Archaeological Science, 83: 41-48.

247.Zhang, P.,Guo, Y.,Quan, Z.-J., 2017.C-O and C-S coupling reaction of 1,2-di(pyrimidin-2-yl) disulfides with phenols/thiophenols promoted by copper(I) chloride.HeteroatomChemistry,28(5):e21397.

248.Zhang, R., Nie, J.-S., 2017. Goethite Concentration Variations in the Red Clay Sequence on the Chinese Loess Plateau.Geochemistry Geophysics Geosystems,18(11): 4179-4185. (SCI-2)

249.Zhang, S.-J., Yang, Y.-S., Storozum, M.-J., Li, H.-M., Cui, Y.-F., Dong, G.-H., 2017. Copper smelting and sediment pollution in Bronze Age China: A case study in the Hexi corridor, Northwest China. Catena, 156:92-101.(SCI-2)

250.Zhang, Y.-M.,Cai, P.,Jiang, F.-H.,Dong, K.-J.,Jiang, Y.-C.,Wang, B., 2017.Understanding the separation of particles in a hydrocyclone by force analysis.POWDER TECHNOLOGY, 322:471-489.(SCI-2)

251.Zhao, W., Ma, J.-Z., Gu, C.-J., Qi, S., Zhu, G.-F., He, J.-H., 2017. Erratum to: Distribution of isotopes and chemicals in precipitation in Shule River Basin, northwestern China: an implication for water cycle and groundwater recharge. Journal of Arid Land, 9(2):318-318.

252.Zhao, Y.-T., An, C.-B., Duan, F.-T., Zhao, J.-J., Mao, L.-M., Zhou, A.-F., Cao, Z.-H., Chen, F.-H., 2017. Consistent vegetation and climate deterioration from early to late MIS3 revealed by multi-proxies (mainly pollen data) in north-west China. Review of Palaeobotany and Palynology, 244:43-53.

第一作者第二三单位

253.Chen, Y.-Z., Wang, S.-L., Nan, Z.-R., Ma, J.-M., Zang, F., Li, Y.-P., Zhang, Q., 2017. Effect of fluoride and cadmium stress on the uptake and translocation of fluoride and cadmium and other mineral nutrition elements in radish in single element or co-taminated sierozem. Environmental and Experimental Botany, 134: 54-61.

254.Fan, Y.-X.,Wang, Y.-D.,Mou, X.-S.,Zhao, H., Zhang, F.,Zhang, F.,Liu, W.-H.,Hui, Z.-C., Huang, X.-Z.,Ma, J., 2017. Environmental status of the Jilantai Basin, North China, on the northwestern margin of the modern Asian summer monsoon domain during Marine Isotope Stage 3.Journal of Asian Earth Sciences, 147: 178-192.

255.Hao, Y.-Y., Xie, Y.-W., Ma, J.-H., Zhang, W.-P., 2017. The critical role of local policy effects in arid watershed groundwater resources sustainability: A case study in the Minqin oasis, China. Science of Total Environment, 601:1084-1096.

256.Huang, T.-M., Pang, Z.-H., Liu, J.-L., Yin, L.-H., Edmunds, W.-M., 2017. Groundwater recharge in an arid grassland as indicated by soil chloride profile and multiple tracers. Hydrological Processes, 31(5):1047-1057.

257.Jin, C., Nan, Z.-R., Wang, H.-C., Jin, P., 2017. Plant growth and heavy metal bioavailability changes in a loess subsoil amended with municipal sludge compost. JOURNAL OF SOILS AND SEDIMENTS, 17(12): 2797-2809.

258.Li, Y.-P., Wang, S,-L., Prete, D, Xue, S,-Y, Nan, Z.-R., Zang, F., Qian, Z., 2017. Accumulation and interaction of fluoride and cadmium in the soil-wheat plant system from the wastewater irrigated soil of an oasis region in northwest China. Science of the total environment, 595:344-351.

259.Liu, B., Jin, -H.-L., Sun, L.-Y., Su, Z.-Z., Zhang, C.-X., Zhao, S., 2017. History of moisture change derived from slope sediments of the eastern Gonghe Basin (northeastern Qinghai-Tibetan Plateau) during the last 17ka.Geological Journal, 52(4): 583-593.

260.Liu, B., Jin, H.-L., Sun, L.-Y., Sun, Z., Zhang, C.-X., 2017.Grain size and geochemical study of the surface deposits of the sand dunes in the Mu Us desert, northern China. Geological Journal, 52(6): 1009-1019.

261.Rao, Z.-G., Guo, W.-K., Cao, J.-T., Shi, F.-X., Li, C.-Z., 2017. Relationship between the stable carbon isotopic composition of modern plants and surface soils and climate: A global review. Earth-Science Reviews, 165:110-119.

262.Xu, X., Guan, H., Skrzypek, G.,Simmons, C.-T., 2017. Response of leaf stable carbon isotope composition to temporal and spatial variabilities of aridity index on two opposite hillslopes in a native vegetated catchment.Journal of Hydrology, 553: 214-223.

263.Yang, Y.-C.,Zhang, D.-L.,Meng, Q.-M.,Yu, W.,Yuan, L., 2017.Stratified evolution of urban residential spatial structure in Chinathrough the transitional period: A case study of five categories ofhousings in Chengdu.Habitat International, 69: 78-93. SSCI

264.Zang, F., Wang, S.-L., Nan, Z.-R., Ma, J.-M., Li, Y.-P., Zhang, Q., Chen,Y.-Z., 2017. Immobilization of Cu, Zn, Cd and Pb in mine drainage stream sediment using Chinese loess. Chemosphere, 181: 83-91.

265.Zang, F., Wang, S.-L., Nan, Z.-R., Ma, J.-M., Zhang, Q., Chen, Y.-Z., Li, Y.-P., 2017. Accumulation, spatio-temporal distribution, and risk assessment of heavy metals in the soil-corn system around a polymetallic mining area from the Loess Plateau, northwest China. Geoderma, 305:188-196.

266.Zhang, H.-Y.,Wang, Z.-W., Li, R.-N., Guo, J.-L., Li, Y., Zhu, J.-M., Xie, X.-Y., 2017. TiO2 supported on reed straw biochar as an adsorptive and photocatalytic composite for the efficient degradation of sulfamethoxazole in aqueous matrices.Chemosphere, 185: 351-360.

267.Zhang, R.-B., Shang, H.-M., Yu, S.-L., He, Q., Yuan, Y.-J., Bolatov, K., Mambetov, B.-T., 2017. Tree-ring-based precipitation reconstruction in southern Kazakhstan, reveals drought variability since AD 1770. International Journal of Climatology, 37(2):741-750.第四单位

268.Zhang, X.-J., Jin, L.-Y., Chen, J., Chen, F.-H., Park, W., Schneider, B., Latif, M., 2017. Detecting the relationship between moisture changes in arid central Asia and East Asia during the Holocene by model-proxy comparison. QUATERNARY SCIENCE REVIEWS, 176: 36-50.

269.Zhao, Y.-T., Nelson, D.-M., Clegg, B.-F., An, C.-B., Hu, F.-S., 2017. Isotopic analysis on nanogram quantities of carbon from dissolved insect cuticle: a method for paleoenvironmental inferences. RapidCommunications in Mass Spectrometry, 31(21): 1825-1834.

非第一作者单位

270.Cheng, Q.-F., Nengzi, L.-C.,Bao, L.-L., Huang, Y., Liu, S.-Y., Cheng, X.-W., Li, B., Zhang, J., 2017. Distribution and genetic diversity of microbial populations in the pilot-scale biofilter for simultaneous removal of ammonia, iron and manganese from real groundwater, Chemosphere 182: 450-457.

271.Chu, K.-W., Chen, J.,Wang, B., Yu, A.-B.,Vince, A., Barnett, G.-D., Barnett, P.-J., 2017. Understand solids loading effects in a dense medium cyclone: Effect of particle size by a CFD-DEM method.PowderTechnology, 320: 594-609.

272.Cui, S., Fu, Q., Li, Y.-F., Ma, J.-M., Tian, C.-G., Liu, L.-Y., Zhang, L.-M., 2017. Modeling the air-soil exchange, secondary emissions and residues in soil of polychlorinated biphenyls in China. Scientific Reports, 7:221.

273.Dallmeyer, A., Claussen, M., Ni, J., Cao, X.-Y., Wang, Y.-B., Fischer, N., Pfeiffer, M., Jin, L.-Y., Khon, V., Wagner, S., Haberkorn, K., Herzschuh, U., 2017. Biome changes in Asia since the mid-Holocene - an analysis of different transient Earth system model simulations. Climate of the Past, 13(2):107-134.

274.Han, C.-H., Wang, Z.-L., Si, G.-C., Lei, T.-Z., Yuan, Y.-L., Zhang, G.-X., 2017. Increased precipitation accelerates soil organic matter turnover associated with microbial community composition in topsoil of alpine grassland on the eastern Tibetan Plateau.Canadian Journal of Microbiology, 63(10): 811-821.

275.He, P.-J., Wang, X.-X., Song, C.-H., Wang, Q.-Q., Deng, L.-Z., Zhong, S.-R., 2017. Cenozoic evolution of the Western Qinling Mt. Range based on thermochronologic and sedimentary records from the Wudu Basin, NE Tibetan Plateau. Journal of Asian Earth Sciences, 138:484-494.

276.Heitmann, E.-O.,Ji, S.-C., Nie, J.-S., Breecker, D.-O.,2017.Orbitally-paced variations of water availability in the SE Asian Monsoon region following the Miocene Climate Transition.Earth and Planetary Science Letters, 474:272-282.

277.Huang, J.-P., Li, Y., Fu, C., Chen, F.-H., Fu, Q., Dai, A., Shinoda, M., Ma, Z., Guo, W., Li, Z., Zhang, L.,Liu, Y., Yu, H., He, Y., Xie, Y., Guan, X., Ji, M., Lin, L., Wang, S., Yan, H., Wang, G., 2017. Dryland climate change: Recent progress and challenges.Reviews of Geophysics, 55(3):719-778.

278.Huang, T.-M., Pang, Z.-H., Liu, J.-L., Ma, J.-Z.,Gates, J., 2017. Groundwater recharge mechanism in an integrated tableland of the Loess Plateau, northern China: insights from environmental tracers.HydrogeologyJournal,25(7): 2049-2065.

279.Huang, X., Yang, Y.-C., 2017. Urban redevelopment, gentrification and gentrifiers in post-reform inland China: A case study of Chengdu, China. Chinese Geographical Science, 27(1): 151-164.

280.Karimi, A., Khormali, F., Wang, X., 2017. Discrimination of sand dunes and loess deposits using grain-size analysis in northeastern Iran.Arabian Journal of Geosciences,10(12):275.

281.Li, F.-R., Zhao, Y., Gaillard, M.-J., Li, H., Sun, J.-H., Xu, Q.-H., 2017. Modern pollen-climate relationships in north Xinjiang, northwestern China: Implications for pollen-based reconstruction of Holocene climate. Holocene, 27(7): 951-966.

282.Li, X.-M., Wang, M.-D., Zhang, Y.-Z., Lei, L., Hou, J.-Z., 2017. Holocene climatic and environmental change on the western Tibetan Plateau revealed by glycerol dialkyl glycerol tetraethers and leaf wax deuterium-to-hydrogen ratios at Aweng Co. Quaternary Research, 87(3): 455-467.

283.Li, Y., Huang, C.-L., Hou, J.-L., Gu, J., Zhu, G.-F., Li, X., 2017. Mapping daily evapotranspiration based on spatiotemporal fusion of ASTER and MODIS images over irrigated agricultural areas in the Heihe River Basin, Northwest China. Agricultural and Forest Meteorology, 244:82-97.

284.Liu, L., Ma, J.-Q., Luo, Y., He, C.-S., Liu, T.-G., 2017. Hydrologic Simulation of a Winter Wheat-Summer Maize Cropping System in an Irrigation District of the Lower Yellow River Basin, China. Water, 9(1): e7.

285.Liu, X.-Y., Lister, D.-L., Zhao, Z.-J., Petrie, C.-A., Zeng, X.-S., Jones, P.-J., Staff, R.-A., Pokharia, A.-K., Bates, J., Singh, R.-N., Weber, S.-A.,Matuzeviciute, G.-M., Dong, G.-H., Li, H.-M., Lu, H.-L., Jiang, H.-E., Wang, J.-X., Ma, J., Tian, D., Jin, G.-Y., Zhou, L.-P., Wu, X.-H., Jones, M.-K., 2017. Journey to the east: Diverse routes and variable flowering times for wheat and barley en route to prehistoric China.Plos One, 12(11): e0187405.

286.Long, H., Shen, J., Chen, J.-H., Tsukamoto, S., Yang, L.-H., Cheng, H.-Y., Frechen, M. 2017. Holocene moisture variations over the arid central Asia revealed by a comprehensive sand-dune record from the central Tian Shan, NW China. QUATERNARY SCIENCE REVIEWS, 174: 13-32.

287.Ma, Q.-L., Cui, Y.-Q., Deng, X.-Y., Cheng, X.-W., Cheng, Q.-F., Li, B., 2017. Controllable Fabrication of TiO2 Nanobelts/Nanotubes Photoelectrode for Dye Sensitized Solar Cells. Journal of Nanoscience and Nanotechnology, 17(3):2072-2078.

288.Meng, B.-P., Ge, J., Liang, T.-G., Yang, S.-X., Gao, J.-L., Feng, Q.-S., Cui, X., Huang, X.-D., Xie, H.-J., 2017. Evaluation of Remote Sensing Inversion Error for the Above-Ground Biomass of Alpine Meadow Grassland Based on Multi-Source Satellite Data. Remote Sensing, 9(4): 372.

289.Miao, Y.-F., Zhang, D.-J., Cai, X.-M., Li, F., Jin, H.-L., Wang, Y.-P., Liu, B., 2017. Holocene fire on the northeast Tibetan Plateau in relation to climate change and human activity. Quaternary International, 443: 124-131.

290.Qi, J.-H., Niu, S.-W., Zhao, Y.-F., Liang, M., Ma, L.-B., Ding, Y.-X., 2017. Responses of Vegetation Growth to Climatic Factors in Shule River Basin in Northwest China: A Panel Analysis. Sustainability, 9(3): 368.

291.Sun, Q.-F., Colin, C., Liu, Z.-F., Mischke, S., Duchamp-Alphonse, S., Zhang, C.-J., Chen, F.-H., 2017. Climate changes of the northeastern Tibetan Plateau since the late glaciation inferred from clay mineralogy of sediments in Kuhai Lake. Quaternary International, 440: 24-34.

292.Taheri, M., Khormali, F., Wang, X., Amini, A., Wei, H.-T., Kehl, M., Frechen, M., Chen, F.-H., 2017. Micromorphology of the lower Pleistocene loess in the Iranian Loess Plateau and its paleoclimatic implications. Quaternary International, 429:31-40.

293.Tang, Z.-G., Ma, J.-H., Peng, H.-H., Wang, S.-H., Wei, J.-F., 2017. Spatiotemporal changes of vegetation and their responses to temperature and precipitation in upper Shiyang river basin. Advances in Apace Research, 60(5): 969-979.

294.Wang, K.,Zhang, T.-J.,Zhang, X.-D.,Clow, G.-D.,Jafarov, E.-E.,Overeem, I.,Romanovsky, V.,Peng, X.-Q.,Cao, B., 2017.Continuously amplified warming in the Alaskan Arctic: Implications for estimating global warming hiatus. Geophysical Research Letters, 44(17):9029-9038.

295.Wang, Q.-F.,Jin, H.-J., Zhang, T.-J., Cao, B., Peng, X.-Q., Wang, K., Xiao, X.-X., Guo, H., Mu, C.-C., Li, L.-L., 2017. Hydro-thermal processes and thermal offsets of peat soils in the active layer in an alpine permafrost region, NE Qinghai-Tibet plateau.Global and Planetary Change, 156: 1-12.

296.Wang, Q.-F., Zhang, T.-J., Jin, H.-J., Cao, B., Peng, X.-Q., Wang, K., Li, L.-L., Guo, H., Liu, J., Cao, L., 2017. Observational study on the active layer freeze-thaw cycle in the upper reaches of the Heihe River of the north-eastern Qinghai-Tibet Plateau. Quaternary International, 440: 13-22

297.Wang, X.-M., Cheng, H., Che, H.-Z., Sun, J.-M., Lu, H.-Y., Qiang, M.-R., Hua, T., Zhu, B.-Q., Li, H., Ma, W.-Y., Lang, L.-L., Jiao, L.-L., Li, D.-F., 2017. Modern dust aerosol availability in northwestern China. Scientific Reports, 7:8741.

298.Wang, Y.-Q., Ma, J.-Z., Guan, H.-D., Zhu, G.-F., 2017. Determination of the saturated film conductivity to improve the EMFX model in describing the soil hydraulic properties over the entire moisture range. Journal of Hydrology, 549:38-49.

299.Wu, X.-D., Xu, H.-Y., Liu, G.-M., Ma, X.-L., Mu, C.-C., Zhao, L., 2017. Bacterial communities in the upper soil layers in the permafrost regions on the Qinghai-Tibetan plateau.Applied Soil Ecology, 120: 81-88.

300.Xu, Q.-H., Chen, F.-H., Zhang, S.-R., Cao, X.-Y., Li, J.-Y., Li, Y.-C., Li, M.-Y., Chen, J.-H., Liu, J.-B., Wang, Z.-L., 2017. Vegetation succession and East Asian Summer Monsoon Changes since the last deglaciation inferred from high-resolution pollen record in Gonghai Lake, Shanxi Province, China. Holocene, 27(6):835-846.

301.Zhang, F., Zhang, W.-J., Li, M., Zhang, Y., Li, F.-M., Li, C.-B., 2017. Is crop biomass and soil carbon storage sustainable with long-term application of full plastic film mulching under future climate change? Agricultural Systems, 150: 67-77.

302.Zhang, N.,Zhao, C.,Quiring, S.-M.,Li, J.-L., 2017.Winter Wheat Yield Prediction Using Normalized Difference Vegetative Index and Agro-Climatic Parameters in Oklahoma.AgronomyJournal,109(6):2700-2713.

303.Zhang, P., Wu, Q.-B., Mu, C.-C., 2017. Influence of temperature on methane hydrate formation. Scientific Reports, 7: 7904.

304.Zhang, X.-X., Xie, Y.-W., 2017. Detecting Historical Vegetation Changes in the Dunhuang Oasis Protected Area Using Landsat Images.Sustainability, 9(10): 1780.

305.Zhang, Y., Hou, J.-H., Cao, Y.-P., Gu, J., Huang, C.-L., 2017. OpenMP parallelization of a gridded SWAT (SWATG).Computers& Geosciences, 109: 228-237.

306.Zhang, Y.-L., Kang, S.-C., Cong, Z.-Y., Schmale, J., Sprenger, M., Li, C.-L., Yang, W., Gao, T.-G., Sillanpaa, M., Li, X.-F., Liu, Y.-J., Chen, P.-F., Zhang, X.-L., 2017. Light-absorbing impurities enhance glacier albedo reduction in the southeastern Tibetan plateau. Journal of Geophysical Research-Atmospheres, 122(13): 6915-6933.

307.Zhang, Y.-L., Kang, S.-C., Li, C.-L., Gao, T.-G., Cong, Z.-Y., Sprenger, M., Liu, Y.-J., Li, X.-F., Guo, J.-M., Sillanpaa, M., Wang, K., Chen, J.-Z., Li, Y., Sun, S.-W., 2017. Characteristics of black carbon in snow from Laohugou No. 12 glacier on the northern Tibetan Plateau. Science of Total Environment, 607:1237-1249.

308.Zhang, Z., Zimmermann, N.-E., Stenke, A., Li, X., Hodson, E.-L., Zhu, G.-F., Huang, C.-L., Poulter, B., 2017. Emerging role of wetland methane emissions in driving 21st century climate change. Proceedings of the National Academy of Sciences of the United States of America, 114(36): 9647-9652.

309.Zhang, Z.-G., Nie, J.-S., Fang, X.-M., 2017. Provenance analysis reveals mountain uplift in the midsection of the Altyn Tagh Fault during the Middle Miocene. Canadian Journal of Earth Sciences, 54(3):278-289.

310.Zhao, Z.-J., Granger, DE, Chen, Y., Shu, Q., Liu, G.-F., Zhang, M.-H., Hu, X.-F., Wu, Q.-L., Hu, E., Li, Y., Yan, Y.-J., Qiao, L.-L., 2017. Cosmogenic nuclide burial dating of an alluvial conglomerate sequence: An example from the Hexi Corridor, NE Tibetan Plateau. Quaternary Geochronology, 39:68-78.

311.Zhou, F.-F., Fang, K.-Y., Zhang, F., Li, Y.-J., 2017. Interdecadal moisture patterns and teleconnections in Monsoonal Asia over the past seven centuries. International Journal of Climatology, 37(2): 861-869.

2016年度

(共发表SCI论文122篇，第一作者第一单位发表SCI论文81篇，参考2016年分区，发表一区16篇，二区25篇)

第一作者第一单位

1.Chang, G.-Y.,Wang, L.,Meng, L.-Y.,Zhang, W.-X., 2016.Farmers' attitudes toward mandatory water-saving policies: A case study in two basins in northwest China. Journal of Environmental Management, 181:455-464.

2.Chen, F.-H.,Jia, J.,Chen, J.-H.,Li, G.-Q.,Zhang, X.-J.,Xie, H.-C.,Xia, D.-S.,Huang, W.,An, C.-B., 2016.A persistent Holocene wetting trend in arid central Asia, with wettest conditions in the late Holocene, revealed by multi-proxy analyses of loess-paleosol sequences in Xinjiang, China. Quaternary Science Reviews, 146:134-146. SCI-1

3.Chen, F.-H., Wu, D., Chen, J.-H., Zhou, A.-F., Yu, J.-Q., Shen, J., Wang, S.-M., Huang, X.-Z., 2016. Holocene moisture and East Asian summer monsoon evolution in the northeastern Tibetan Plateau recorded by Lake Qinghai and its environs: A review of conflicting proxies. Quaternary Science Reviews 154, 111-129.SCI-1

4.Chen, J.-H., Rao, Z.-G., Liu, J.-B., Huang, W., Feng, S., Dong, G.-H., Hu, Y., Xu, Q.-H.,Chen, F.-H., 2016. On the timing of the East Asian summer monsoon maximum during the Holocene - Does the speleothem oxygen isotope record reflect monsoon rainfall variability? Science China Earth Sciences 59 (12):2328-2338.SCI-3

5.Chen, J.-S.,Liu, X.-M., 2016.A connection between geomagnetic intensity and climatic anomalies recorded in Chinese loess. Quaternary International, 399:151-155.SCI-3

6.Cui, Y.-Q.,Meng, Q.,Deng, X.-Y.,Ma,Q.-L.,Zhang, H.-X.,Cheng, X.-W.,Li,X.-L.,Xie,M.-Z.,Cheng, Q.-F., 2016.Fabrication of platinum nano-crystallites decorated TiO2 nano-tubearray photoelectrode and its enhanced photoelectrocatlyticperformance for degradation of aspirin and mechanism.Journal of Industrial and Engineering Chemistry,43:177–184.SCI-2

7.Dai, S.,Zhu, Q.,Huang, Y.-B.,Da Silva, A.-C.,Zhao, J.,Liu, J.-W.,Kong, L.,Peng, D.-X.,Luo, L.-L., Yan, N.-Y., Wang, W.-J., Zhang, X., 2016.Early Cretaceous Climate Changes Recorded in Magnetic Susceptibility and Color Index Variations of the Lower Liupanshan Group, Central China. Acta Geologica Sinica-English Edition, 90(3):1011-1023.SCI-3

8.Deng, Y.,Gou, X.-H.,Gao, L.-L.,Zhang, F.,Xu, X.-Y.,Yang, M.-X., 2016.Tree-ring recorded drought variability in the northern Min Mountains of northwestern China.International Journal of Climatology,36: 3550–3560.

9.Ding, W.-G., Yu, H.-L., Zhao, C.,Xu,H.,Chen, L.-Z.,Xu, L, 2016.Impacts of historical socio-economic development policies on eco-environment in great Dunhuang region of China. Environmental Science and Policy, 55: 258-265.SCI-2

10.Dong, G.-H.,Liu, H.-G.,Yang, Y.-S.,Yang, Y.,Zhou, A.-F.,Wang, Z.-X.,Ren, X.-Y.,Chen, F.-H., 2016.Emergence of ancient cities in relation to geopolitical circumstances and climate change during late Holocene in northeastern Tibetan Plateau, China. Frontiers of Earth Science, 10(4): 669-682.SCI-4

11.Dong, G.-H., Ren, L.-L., Jia, X., Liu, X.-Y., Dong, S.-M., Li, H.-M.,Wang, Z.-X., Xiao, Y.-M., Chen, F.-H., 2016. Chronology and subsistence strategy of Nuomuhong Culture in the Tibetan Plateau. Quaternary International,426:42-49.SCI-3

12.Dong, W.-M., An, C.-B., Fan, W.-J., Li, H., Zhao, X.-Y., 2016.Stable isotopic detection of manual intervention among the faunal assemblage from a Majiayao site in NW China. Radiocarbon, 58(2):311-321.SCI-2

13.Gao, H.-S., Li, Z.-M., Pan, B.-T., Liu, F.-L., Liu, X.-P., 2016.Fluvial responses to late Quaternary climate change in the Shiyang River drainage system, western China. Geomorphology, 258: 82-94.SCI-2

14.Gao,H.-S., Li,Z.-M., Ji,Y.-P., Pan,B.-T., Liu,X.-F. 2016. Climatic and tectonic controls on strath terraces along the upper Weihe River in central China. QuaternaryResearch, 86: 326–334SCI-3

15.Gao, T.-G.,Zhang, T.-J.,Cao, L.,Kang, S.-C.,Sillanpaa, M., 2016.Reduced winter runoff in a mountainous permafrost region in the northern Tibetan Plateau. Cold Regions Science and Technology, 126:36-43.SCI-3

16.Guan, Q.-Y., Wang, L., Pan, B.-T.,Guan, W.-Q.,Sun, X.-Z.,Cai, A.,2016.Distribution features and controls of heavy metals in surface sediments from the riverbed of the Ningxia-Inner Mongolian reaches, Yellow River, China. Chemosphere, 144: 29-42.SCI-2

17.Guan, Q.-Y.,Wang, L.,Wang, F.-F.,Pan, B.-T.,Song, N.,Li, F.-C.,Lu, M., 2016.Phosphorus in the catchment of high sediment load river: A case of the Yellow River, China. Science of the Total Environment, 572: 660-670.SCI-2

18.Guan, Q.-Y.,Cai, A.,Wang, F.-F.,Wang, L.,Wu, T.,Pan, B.-T.,Song, N.,Li, F.-C., Lu, M., 2016.Heavy metals in the riverbed surface sediment of the YellowRiver, China.EnvironmentalScience andPollutionResearch,23(24):24768–24780.SCI-3

19.Hu, Z.-B., Pan, B.-T., Guo, L.-Y.,Vandenberghe,J.,Liu, X.-P.,Wang,J.-P.,Fan,Y.-L.,Mao, J.-W.,Gao,H.-S.,Hu,X.-F., 2016.Rapid fluvial incision and headward erosion by the Yellow River along the Jinshaan gorge during the past 1.2 Ma as a result of tectonic extension. Quaternary Science Reviews. 133:1-14.SCI-1

20.Jia, J.,Xia, D.-S.,Wang, Y.-J.,Wang, B.,Lu, H.,Zhao, S., 2016.East Asian monsoon evolution during the Eemian, as recorded in the western Chinese Loess Plateau. Quaternary International, 399:156-164.SCI-3

21.Jiang, Y.-W., Zhang,L.-H., Zhang, B.-Q., He, C.-S., Jin, X., Zhang, X.-F.,2016. Modeling Irrigation Management for Water Conservation by DSSAT Model in arid Northwestern China. Agricultural Water Management,77:37-45SCI-2

22.Jin, L.-Y.,Zhang, X.-J.,Leduc, G., 2016.Reply to comment by Rashid et al. on "Asynchronous variation in the East Asian winter monsoon during the Holocene".Journal of Geophysical Research-Atmospheres, 121(4):1615-1620.SCI-2

23.Li, B.-F., Sun, D.-H., Wang, X., Zhang, Y.-B., Hu, W.-W., Wang, F., Li, Z.-J., Ma, Z.-W., Liang, B.-Q., 2016.delta O-18 and delta C-13 records from a Cenozoic sedimentary sequence in the Lanzhou Basin, Northwestern China: Implications for palaeoenvironmental and palaeoecological changes. Journal of Asian Earth Sciences, 125: 22-36.SCI-2

24.Li, G.-Q.,Rao, Z.-G.,Duan, Y.-W.,Xia, D.-S.,Wang, L.-B.,Madsen, D.-B.,Jia, J.,Wei, H.-T.,Qiang, M.-R., Chen, J.-H., Chen, F.-H., 2016.Paleoenvironmental changes recorded in a luminescence dated loess/paleosol sequence from the Tianshan Mountains, arid central Asia, since the Penultimate Glaciation. Earth and Planetary Science Letters, 448:1-12.SCI-1

25.Li, H.-M.,Zuo, X.-X.,Kang, L.-H.,Ren, L.-L.,Liu, F.-W.,Liu, H.-G.,Zhang, N.-M.,Min, R.,Liu, X.,Dong, G.-H., 2016.Prehistoric agriculture development in the Yunnan-Guizhou Plateau, southwest China:Archaeobotanical evidence. Science China-Earth Sciences, 59(8):1562-1573.SCI-3

26.Li, X.-G.,Wei, X.,Wei, N., 2016.Correlating check dam sedimentation and rainstorm characteristics on the Loess Plateau, China. Geomorphology, 265:84-97.SCI-2

27.Li, Y.,Xu, L.-M., 2016.Asynchronous Holocene Asian monsoon vapor transport and precipitation.PalaeogeographyPalaeoclimatologyPalaeoecology, 461:195-200.SCI-3

28.Li, Y.,Zhang, C.-Q.,Wang, Y., 2016.The verification of millennial-scale monsoon water vapor transport channel in northwest China.Journalof Hydrology, 536:273-283.SCI-2

29.Liu, J.,Li, J.-J.,Song, C.-H., 2016.Palynological evidence for late Miocene stepwise aridification on the northeastern Tibetan Plateau. Climate of the Past, 12(7):1473-1484.SCI-2

30.Ma, H.-Y., 2016.Major ion chemistry of groundwater in the Sangong River Watershed, Northwestern China.Environmental Earth Sciences,75：487.

31.Mu, C.-C.,Zhang, T.-J.,Zhang, X.,Cao, B.,Peng, X.-Q., 2016.Sensitivity of soil organic matter decomposition to temperature at different depths in permafrost regions on the northern Qinghai-Tibet Plateau. European Journal of Soil Science, 37(6): 773-781.SCI-1

32.Mu, C.-C.,Zhang, T.-J.,Zhao, Q.,Guo, H.,Zhong, W.,Su, H.,Wu, Q.-B., 2016.Soil organic carbon stabilization by iron in permafrost regions of the Qinghai-Tibet Plateau. Geophysical Research Letters, 43(19): 10286-10294.SCI-1

33.Mu, C.-C.,Zhang, T.-J.,Zhang, X.-K.,Cao, B.,Peng, X.-Q.,Cao, L.,Su, H., 2016.Pedogenesis and physicochemical parameters influencing soil carbon and nitrogen of alpine meadows in permafrost regions in the northeastern Qinghai-Tibetan Plateau. Catena, 141:85-91.SCI-3

34.Mu, C.-C.,Zhang, T.-J.,Zhang, X.-K.,Li, L.-L.,Guo, H.,Zhao, Q.,Cao, L.,Wu, Q.-B.,Cheng, G.-D., 2016.Carbon loss and chemical changes from permafrost collapse in the northern Tibetan Plateau. Journal of Geophysical Research-Biogeosciences, 121(7):1781-1791.SCI-2

35.Niu, S.-W., Jia, Y.-Q., Ye, L.-Q.,Dai, R.-Q.,Li,N., 2016.Does electricity consumption improve residential living status in less developed regions? An empirical analysis using the quantile regression approach. Energy, 95: 550-560.SCI-1

36.Niu, S.-W.,Liu, Y.-Y.,Ding, Y.-X.,Qu, W., 2016.China's energy systems transformation and emissions peak. Renewable&Sustainable Energy Reviews, 58:782-795.SCI-1

37.Pan, B.-T., Chen, D.-B., Hu, X.-F., Cao, X.-L., Chen, J.-J., Mao, J.-W.,2016. Drainage evolution of the heihe river in western hexi corridor, china, derived from sedimentary and magnetostratigraphic results. Quaternary Science Reviews, 150, 250-263.SCI-1

38.Pan, B.T., Pang, H.-L., Gao, H.-S., Garzanti, E., Zou, Y., Liu, X.-P.,Li, F.-Q., Jia, Y.-X.,2016. Heavy-mineral analysis and provenance of yellow river sediments around the china loess plateau. Journal of Asian Earth Sciences, 127, 1-11.SCI-2

39.Pang, J.-X.,Chen, X.-P.,Zhang, Z.-L.,Li, H.-J., 2016.Measuring Eco-Efficiency of Agriculture in China. Sustainability, 8(4):398.SCI-4

40.Peng, T.-J.,Li, J.-J.,Song, C.-H.,Guo, B.-H.,Liu, J.,Zhao, Z.-J.,Zhang, J., 2016.An integrated biomarker perspective on Neogene-Quaternary climatic evolution in NE Tibetan Plateau: Implications for the Asian aridification. Quaternary International, 399:174-182.SCI-3

41.Peng, W.-B.,Wang, Z.,Song, Y.-G.,Pfaff, K.,Luo, Z.,Nie, J.-S.,Chen, W.-H., 2016.A comparison of heavy mineral assemblage between the loess and the Red Clay sequences on the Chinese Loess Plateau. Aeolian Research, 21:87-91.SCI-3

42.Peng, X.-Q.,Zhang, T.-J.,Cao, B.,Wang, Q.-F.,Wang, K.,Shao, W.-W.,Guo, H., 2016.Changes in freezing-thawing index and soil freeze depth over the Heihe River Basin, western China. Arctic Antarctic and Alpine Research, 48(1):161-176

43.Peng,X.-Q., Frauenfeld, O.-W., Cao, B., Wang, K., Wang, H.-J.,Hang Su, H.,Huang, Z.,Yue, D.-X.,Zhang, T.-J., 2016. Response of changes in seasonal soil freeze/thaw state to climate change from 1950 to 2010 across china.Journal of Geophysical Research-earth Surface,121:1984–2000.

44.Qiang, M.-R., Jin, Y.-X., Liu, X.-X.,Song,L.,Li,H.,Li,F.-S.,Chen, F.-H., 2016.Late Pleistocene and Holocene aeolian sedimentation in Gonghe Basin, northeastern Qinghai-Tibetan Plateau: Variability, processes, and climatic implications. Quaternary Science Reviews, 132: 57-73.SCI-1

45.Rao, Z.-G.,Qiang, M.-R.,Jia, G.-D.,Li, Y.-X.,Dan, D.,Chen, F.-H., 2016.A 15 ka lake water delta D record from Genggahai Lake, northeastern Tibetan Plateau, and its paleoclimatic significance. Organic Geochemistry, 97:5-16.

46.Rao, Z.-G.,Jia, G.-D.,Li, Y.-X.,Chen, J.-H.,Xu, Q.-H.,Chen, F.-H., 2016.Asynchronous evolution of the isotopic composition and amount of precipitation in north China during the Holocene revealed by a record of compound-specific carbon and hydrogen isotopes of long-chain n-alkanes from an alpine lake. Earth and Planetary Science Letters, 446:68-76.SCI-1

47.Rao, Z.-G.,Li, Y.-X.,Zhang, J.-W., Jia, G.-D.,Chen, F.-H., 2016.Investigating the long-term palaeoclimatic controls on the delta D and delta O-18 of precipitation during the Holocene in the Indian and East Asian monsoonal regions. Earth-Science Reviews, 159:292-305.SCI-1

48.Sun, P.,Ma, J.-Z.,Qi, S.,Zhao, W.,Zhu, G.-F.,The effects of a dry sand layer on groundwater recharge in extremelyarid areas: field study in the western Hexi Corridorof northwestern China.HydrogeologyJournal(2016) 24:1515–1529. SCI-3

49.Wang, H.-P., Brooks, S.-J., Chen, J.-H., Hu, Y., Wang, Z.-L., Liu, J.-B., Xu, Q.-H.,Chen, F.-H., 2016. Response of chironomid assemblages to East Asian summer monsoon precipitation variability in northern China since the last deglaciation. Journal of Quaternary Science 31 (8):967-982.SCI-2

50.Wang, X., Wei, H.-T., Taheri, M.,Khormali, F.,Danukalova,G.,Chen, F.-H., 2016.Early Pleistocene climate in western arid central Asia inferred from loess-palaeosol sequences. Scientific Reports, 6: e20560.SCI-2

51.Wang, X.,Kraatz, B.,Meng, J.,Carrapa, B.,Decelles, P.,Clementz, M.,Abdulov, S.,Chen, F.-H., 2016.Central Asian aridification during the late Eocene to early Miocene inferred from preliminary study of shallow marine-eolian sedimentary rocks from northeastern Tajik Basin. Science China-Earth Sciences, 59(6):1242-1257.SCI-3

52.Wang, X.-X., Song, C.-H., Zattin, M., 2016. Cenozoic pulsed deformation history of northeastern Tibetan Plateau reconstructed from fission-track thermochronology. Tectonophysics, 672-673: 212-227.SCI-2

53.Wang, X.-Y.,Yi, S.-H.,Wu, Q.-B.,Yang, K.,Ding, Y.-J., 2016.The role of permafrost and soil water in distribution of alpine grassland and its NDVI dynamics on the Qinghai-Tibetan Plateau.Global and Planetary Change, 147: 40-53.

54.Wang, Y.,Li, Y.,Zhang, C.-Q., 2016.Holocene millennial-scale erosion and deposition processes in the middle reaches of inland drainage basins, arid China.Environmental Earth Sciences,75:454.

55.Wei, G.-X., Zhu, X.-F., Yue, N., Fan, Y.-X., Dong, J., Dang, H.-H., 2016. Constraining the groundwater flow system and aquifer properties using major ions, environmental traces and a simple physical model in China's Jilantai Basin.Environmental Earth Sciences,75：459.

56.Wei, G.-X.,Rao, Z.-G.,Dong, J.,Yue, N.,Dang, H.-H.,Dong, Y., 2016.Late Quaternary climatic influences on megalake Jilantai-Hetao, North China, inferred from a water balance model. Journal of Paleolimnology, 55(3):223-240.SCI-3

57.Wei, X.,Li, X.-G.,Wei, N., 2016.Fractal features of soil particle size distribution in layered sediments behind two check dams: Implications for the Loess Plateau, China. Geomorphology, 266:133-145.SCI-2

58.Xie, Y.-C.,Gong, J., Sun, P., Gou, X.-H., Xie, Y.-W., 2016.Impacts of major vehicular roads on urban landscape and urban growth in an arid region: A case study of Jiuquan city in Gansu Province, China. Journal of Arid Environments, 127: 235-244.SCI-4

59.Wu, D., Chen, F.-H., Li, K., Xie, Y.-W., Zhang, J.-W., Zhou, A.-F., 2016.Effects of climate change and human activity on lake shrinkage in Gonghe Basin of northeastern Tibetan Plateau during the past 60 years. Journal of Arid Land,8(4): 479-491.SCI-4

60.Xue, Y.-T.,Meng, X.-M.,Wasowsk, J.,Chen, G.,Li, K.,Guo, P.,Bovenga, F.,Zeng, R.-Q., 2016.Spatial analysis of surface deformation distribution detected by persistent scatterer interferometry in Lanzhou Region, China.Environmental Earth Sciences, 75(1):1866-6280.

61.Yu, S.-Y.,Colman, S.-M.,Li, L.-X., 2016.BEMMA: A Hierarchical Bayesian End-Member Modeling Analysis of Sediment Grain-Size Distributions. Mathematical Geosciences, 48(6):723-741.SCI-3

62.Zeng, R.-Q.,Meng, X.-M.,Zhang, F.-Y.,Wang, S.-Y.,Cui, Z.-J.,Zhang, M.-S.,Zhang, Y.,Chen, G., 2016.Characterizing hydrological processes on loess slopes using electrical resistivity tomography - A case study of the Heifangtai Terrace, Northwest China. Journal of Hydrology, 541:742-753.SCI-2

63.Zhang, B.-Q., He, C.-S., Burnham, M., Zhang, L.-H., 2016.Evaluating the coupling effects of climate aridity and vegetation restoration on soil erosion over the Loess Plateau in China. Science of the Total Environment, 539: 436-449.SCI-2

64.Zhang,B.-Q.,He, C.-S., 2016.A modified water demand estimation method for droughtidentification over arid and semiarid regions.Agricultural and Forest Meteorology,230–231:58–66.SCI-1

65.Zhang, C.-Q.,Li, Y., 2016.Verification of watershed vegetation restoration policies, arid China.Scientific Reports, 6:30740.SCI-2

66.Zhang D.-J., Dong G.-H., Wang H., Ren X.-Y., Ha P.-P.,Qiang，M.-R., Chen F.H., 2016. History and possible mechanisms of prehistoric human migration to the Tibetan Plateau. Science China-Earth Sciences,59(9):1765-1778.

67.Zhang, J.,Li, J.-J.,Guo, B.-H.,Ma, Z.-H.,Li, X.-M.,Ye, X.-Y.,Yu, H.,Liu, J.,Yang, C.,Zhang, S.-D., Song, C.-H., Hui, Z.-C., Peng, T.-J., 2016.Magnetostratigraphic age and monsoonal evolution recorded by the thickest Quaternary loess deposit of the Lanzhou region, western Chinese Loess Plateau. Quaternary Science Reviews, 139:17-29.SCI-1

68.Zhang, J.-W.,Ma, X.-Y.,Qiang, M.-R.,Huang, X.-Z.,Li, S.,Guo, X.-Y.,Henderson, A.-C.-G.,Holmes, J.-A.,Chen, F.-H., 2016.Developing inorganic carbon-based radiocarbon chronologies for Holocene lake sediments in arid NW China. Quaternary Science Reviews, 144:66-82.SCI-1

69.Zhang, J.-Z.,Gou, X.-H.,Zhang, Y.-X.,Lu, M.,Xu, X.-Y.,Zhang, F.,Liu, W.-H.,Gao, L.-L., 2016.Forward modeling analyses of Qilian Juniper (Sabina przewalskii) growth in response to climate factors in different regions of the Qilian Mountains, northwestern China. Trees-Structure and Function, 30(1): 175-188.SCI-2

70.Zhang, L.-H., Jin, X., He, C.-S., Zhang, B.-Q., Zhang, X.-F., Li, J.-L., Zhao, C., Tian, J., DeMarchi, C., 2016.Comparison of SWAT and DLBRM for Hydrological Modeling of a Mountainous Watershed in Arid Northwest China. Journal of Hydrologic Engineering, 21(5): 04016007.SCI-3

71.Zhang, R.,Necula, C.,Heslop, D.,Nie, J.-S., 2016.Unmixing hysteresis loops of the late Miocene-early Pleistocene loess-red clay sequence. Scientific Reports, 6:29515.SCI-2

72.Zhang, R.-B., Yuan, Y.-J., Gou, X.-H.,He, Q.,Shang, H.-M.,Zhang, T.-W.,Chen, F.,Ermenbaev, B.,Yu, S.-L.,Qin,L.,Fan,Z., 2016.Tree-ring-based moisture variability in western Tianshan Mountains since AD 1882 and its possible driving mechanism. Agricultural and Forest Meteorology, 218-219: 267-276.SCI-1

73.Zhang, X.-J.,Jin, L.-Y.,Jia, W.-N., 2016.Centennial-scale teleconnection between North Atlantic sea surface temperatures and the Indian summer monsoon during the Holocene. Climate Dynamics, 46(9-10):3323-3336.SCI-1

74.Zhang, X.-J., Jin, L.-Y., 2016.Association of the Northern Hemisphere circumglobal teleconnection with the Asian summer monsoon during the Holocene in a transient simulation. Holocene, 26(2): 290-301.SCI-2

75.Zhang, X.-J.,Jin, L.-Y.,Huang, W.,Chen, F.-H., 2016.Forcing mechanisms of orbital-scale changes in winter rainfall over northwestern China during the Holocene. Holocene, 26(4): 549-555SCI-2

76.Zhang, X.-N.,Zhou, A.-F.,Zhang, C.,Hao, S.-T.,Zhao, Y.-T.,An, C.-B., 2016.High-resolution records of climate change in arid eastern central Asia during MIS 3 (51600-25300 cal a BP) from Wulungu Lake, north-western China. Journal of Quaternary Science, 31(6):577-586.

77.Zhang, Z.-L., Xue, B., Pang, J.-X., 2016. The Decoupling of Resource Consumption and Environmental Impact from Economic Growth in China: Spatial Pattern and Temporal Trend. Sustainability, 8(3):222.SCI-4

78.Zhao, S.,Xia, D.-S.,Jin, H.-L.,Jia,J., Li.G.-H., Gao,F.-Y., Wang,Y.-J., 2016.Long-term weakening of the East Asian summer and winter monsoons during the mid- to late Holocene recorded by aeolian deposits at the eastern edge of the Mu Us Desert.Palaeogeography Palaeoclimatology Palaeoecology,457:258-268.SCI-3

79.Zhao, W.,Ma, J.-Z.,Gu, C.-J.,Qi, S.,Zhu, G.-F.,He, J.-H., 2016.Distribution of isotopes and chemicals in precipitation in Shule River Basin, northwestern China: an implication for water cycle and groundwater recharge. Journal of Arid Land, 8(6):973-985.SCI-4

80.Zhu, G.-F., Zhang, K., Li, X., Liu, S.-M., Ding, Z.-Y., Ma, J.-Z., Huang, C.-L.,Hana,T.,He, J.-H., 2016. Evaluating the complementary relationship for estimating evapotranspiration using the multi-site data across north China.Agricultural and Forest Meteorology, 230:33-44.

81.Zhu, G.-F.,Li, X.,Zhang, K.,Ding, Z.-Y.,Han, T.,Ma, J.-Z.,Huang, C.-L.,He, J.-H.,Ma, T., 2016.Multi-model ensemble prediction of terrestrial evapotranspiration across north China using Bayesian model averaging. Hydrological Processes, 30(16):2861-2879.SCI-4

第一作者第二三单位

82.Chen, F., Zhang, R.-B., Wang, H.-Q.,Qin, L.,Yuan, Y.-J., 2016.Updated precipitation reconstruction (AD 1482-2012) for Huashan, north-central China. Theoretical and Applied Climatology, 123(3-4): 723-732.

83.Chen, F.,Yuan, Y.-J., Zhang, T.-W.,Linderholm,H.-W.2016.Annual precipitation variation for the southern edge of the Gobi Desert (China) inferred from tree rings: linkages to climatic warming of twentieth century. Natural Hazards, 81(2): 939-955.

84.Fan, Y.-X.,Zhang, F.,Zhang, F.Liu, W.-H.,Chen, X.-L.,Fan, T.-L.,Wang, Y.-D.,Chen, F.-H.,Lai, Z.-P., 2016.History and mechanisms for the expansion of the Badain Jaran Desert, northern China, since 20 ka: Geological and luminescence chronological evidence. Holocene, 26(4):532-548.

85.Liu, B.,Jin, H.-L.,Sun, Z.,Zhao, S., 2016.Geochemical weathering of aeolian sand and its palaeoclimatic implications in the Mu Us Desert, northern China, since the Late Holocene. Journal of Arid Land, 8(5):647-659.

86.Ma, M.-M.,Dong, G.-H.,Jia, X.,Wang, H.,Cui, Y.-F.,Chen, F.-H., 2016.Dietary shift after 3600 cal yr BP and its influencing factors in northwestern China: Evidence from stable isotopes. Quaternary Science Reviews,145:57-70.

87.Mu, C.-C., Zhang, T.-J., Wu, Q.-B., 2016. Dissolved organic carbon, CO2, and CH4 concentrations and their stable isotope ratios in thermokarst lakes on the Qinghai-Tibetan Plateau. Journal of Limnology, 75(2): 313-319.

88.Niu, H.-W., He, Y.-Q., Kang, S.-C., 2016. Chemical compositions of snow from Mt. Yulong, southeastern Tibetan Plateau. Journal of Earth System Science, 125(2): 403-416.

89.Qu, J.-S.,Qin, S.-S.,Liu, L.-N.,Zeng, J.-J.,Bian, Y., 2016.A hybrid study of multiple contributors to per capita household CO2 emissions (HCEs) in China. Environmental Science an Pollution Research, 23(7): 6430-6442.

90.Wang, S.-L.,Nan, Z.-R.,Prete, D.,Ma, J.-M.,Liao, Q.,Zhang, Q., 2016.Accumulation, transfer, and potential sources of mercury in the soil-wheat system under field conditions over the Loess Plateau, northwest China. Science of the Total Environment. 568:245-252.

91.Wang, Z.-T.,An, Z.-S., 2016.A simple theoretical approach to the thermal expansion mechanism of salt weathering. Catena,147:695-698.

92.Zhang, H.-W.,Wu, Z.,Xiao, H.-L., 2016.Leaf stable carbon isotope composition in Picea schrenkiana var. tianschanica in relation to leaf physiological and morphological characteristics along an altitudinal gradient. Journal of Mountain Science, 13(7):1217-1228.

93.Zhang, R.-B.,Yuan, Y.-J.,Gou, X.-H.,Yang, Q.,Wei, W.-S.,Yu, S.-L.,Zhang, T.-W.,Shang, H.-M.,Chen,F., Fan, Z., Qin, L., 2016.Streamflow variability for the Aksu River on the southern slopes of the Tien Shan inferred from tree ring records. Quaternary Research, 85(3):371-379.

94.Zhang, R.-B.,Qin, L.,Yuan, Y.-J.,Gou, X.-H.,Zou, C.,Yang, Q.,Shang, H.-M.,Fan, Z.,2016.Radial growth response of Populus xjrtyschensis to environmental factors and a century-long reconstruction of summer streamflow for the Tuoshigan River, northwestern China. Ecological Indicators, 71: 191-197.

非第一作者单位

95.Bush, M.-A.,Saylor, J.-E.,Horton, B.-K.Nie, J.-S., 2016.Growth of the Qaidam Basin during Cenozoic exhumation in the northern Tibetan Plateau: Inferences from depositional patterns and multiproxy detrital provenance signatures. Lithosphere, 8(1): 58-82.

96.Chu, C.-J., Bartlett, M., Wang, Y.-S., He, F.-L., Weiner, J., Chave, J.,SACK, L., 2016.Does climate directly influence NPP globally?Global Change Biology, 22(1): 12-24.

97.Dodson,J., Dong,G.-H., 2016.What do we know about domestication in eastern Asia?. Quaternary International,426:2-9.

98.Gong, H.-J.,Nie, J.-S.,Wang, Z.,Peng, W.-B.,Zhang, R.,Zhang, Y.-X., 2016.A comparison of zircon U-Pb age results of the Red Clay sequence on the central Chinese Loess Plateau. Scientific Reports, 6:29642.

99.Lee, X.-Q., Huang, Y.-M., Huang, D.-K., Hu, L., Feng, Z.-D., Cheng, J.-Z., Wang, B., Ni, J., Shurkhuu, T., 2016.Variation of Soil Organic Carbon and Its Major Constraints in East Central Asia. Plos One, 11(3): e0150709.

100.Li, J.-Y.,Ilvonen, L.,Xu, Q.-H.,Ni, J.,Jin, L.-Y.,Holmstrom, L.,Zheng, Z.,Lu, H.-Y.,Luo, Y.-L., Li, Y.-C., Li, C.-H., Zhang, X.-J., Seppa, H., 2016.East Asian summer monsoon precipitation variations in China over the last 9500 years: A comparison of pollen-based reconstructions and model simulations. Holocene, 26(4): 592-602.

101.Liu, Y., Yang, Y.-C., 2016.Effects of Mg doping in the quantum barriers on the efficiency droop of GaN based light emitting diodes.. 25(5): 058101.

102.Ma, X.-X., Zheng, J.-J., Zheng, G.-D.,Xu, W.,Qian,Y.,Xia, Y.-Q.,Wang,Z.-D.,Wang,X.-F.,Ye, X.-Y., 2016.Influence of pyrite on hydrocarbon generation during pyrolysis of type-III kerogen. Fuel, 167: 329-336.

103.Maraseni, T.-N., Qu, J.-S., 2016.An international comparison of agricultural nitrous oxide emissions. Journal of Cleaner Production, 135: 1256-1266.

104.Maraseni, T.-N.,Qu, J.-S.,Yue, B.,Zeng, J.-J.,Maroulis, J., 2016.Dynamism of household carbon emissions (HCEs) from rural and urban regions of northern and southern China. Environmental Science and Pollution Research, 23(20): 20553-20566.

105.Miao, Y.-F.,Fang, X.-M.,Song, C.-H.,Yan, X.-L.,Zhang, P.,Meng, Q.-Q.,Li, F.,Wu, F.-L.,Yang, S.-L., Kang, S.-Y., Wang, Y.-P., 2016.Late Cenozoic fire enhancement response to aridification in mid-latitude Asia: Evidence from microcharcoal records. Quaternary Science Reviews, 139:53-66.

106.Saylor, J.-E.,Casturi, L.,Shanahan, T.-M.,Nie, J.-S.,Saadeh, C.-M., 2016.Tectonic and climate controls on Neogene environmental change in the Zhada Basin, southwestern Tibetan Plateau. Geology, 44(11):919-922.无原文

107.Siegert, C.-M., Levia, D.-F., Hudson, S.-A.,Dowtin-, A.-L. Zhang, F.,Mitchell,M.-J.2016.Small-scale topographic variability influences tree species distribution and canopy throughfall partitioning in a temperate deciduous forest. Forest Ecology and Management, 359: 109-117.

108.Song, M., Zhou, A.-F, He, Y.-X.,Zhao,C.,Wu, J.-L.,Zhao,Y.,Liu, W.-G.,Liu,Z.-H., 2016.Environmental controls on long-chain alkenone occurrence and compositional patterns in lacustrine sediments, northwestern China. Organic Geochemistry, 91:43-53.

109.Su, R.-X., Lough, J.-M., Sun, D.-H, 2016.Variations in massive Porites growth rates at Hainan Island, northern South China Sea. Marine Ecology Progress Series, 546: 47-60.

110.Wang, X.-F.,Cheng, G.-D.,Li, X.,Lu, L.,Ma, M.-G.,Su, P.-X.,Zhu, G.-F.,Tan, J.-L., 2016.A comparison of two photosynthesis parameterization schemes for an alpine meadow site on the Qinghai-Tibetan Plateau. Theoretical and Applied Climatology, 126(3-4):751-764.

111.Wang, Y.-Q.,Ma,J.-Z.,Guan, H.-D., 2016.A mathematically continuous model for describing the hydraulicproperties of unsaturated porous media over the entire range of matricsuctions.Journal of Hydrology 541 (2016) 873–888

112.Waring, R.-H.,Gao, L.-L., 2016.Recent reduction in the frequency of frost accounts for most of the increased growth of a high elevation spruce forest in northwestern China. Tree-Structure and Function, 30(4):1225-1236.

113.Wu, J.,Wang, J.-Z.,Qin, S.-S.,Lu,H.-Y., 2016.Suitable error evaluation criteria selection in the wind energy assessment via the K-means clustering algorithm. International Journal of Green Energy, 13(11):1145-1162.

114.Wu, Y., Zhu, Z.-Y., Qiu, S.-F.,Han, Y.-L.,Cai,J.-X.,Rao,Z.-G., 2016.Magnetic stratigraphy constraints on the Matuyama-Brunhes boundary recorded in a loess section at the southern margin of Chinese Loess Plateau. Geophysical Journal International, 204(2): 1072-1085.

115.Zhang, Y.-L.,Kang, S.-C.,Zhang, Q.-G.,Gao, T.-G.,Guo, J.-M.,Grigholm, B.,Huang, J.,Sillanpaa, M., Li, X.-F., Du, W.-T., Li, Y., Ge, X.-L., 2016.Chemical Records in Snowpits from High Altitude Glaciers in the Tibetan Plateau and Its Surroundings. Plos One, 11(5):e0155232.

116.Zhang, Y.-Y.,Zhao, W.-Z.,He, J.-H.,Zhang, K., 2016.Energy exchange and evapotranspiration over irrigated seed maize agroecosystems in a desert-oasis region, northwest China. Agricultural and Forest Meteorology, 223:48-59

117.Zhao, Z.-J., Granger, D., Zhang, M.-H., Kong, X.-G., Yang, S.-L., Chen, Y., Hu, E.-Y., 2016.A test of the isochron burial dating method on fluvial gravels within the Pulu volcanic sequence, West Kunlun Mountains, China. Quaternary Geochronology, 34:75-80.

118.Zheng, W.-J.,Liu, X.-W.,Yu, J.-X.,Yuan, D.-Y.,Zhang, P.-Z.,Ge, W.-P.,Pang, J.-Z.,Liu, B.-Y., 2016.Geometry and late Pleistocene slip rates of the Liangdang-Jiangluo fault in the western Qinling mountains, NW China. Tectonophysics, 687:1-13.

119.Zhou, F.-F.,Fang, K.-Y.,Zhang, F.,Dong, Z.-P.,Chen, D., 2016.Climate-Driven Synchronized Growth of Alpine Trees in the Southeast Tibetan Plateau. Plos One, 11(6):e0156126.

120.Zhou, F.-F., Fang, K.-Y., Li, Y.-J., Chen, Q.-Y., Chen, D., 2016.Nonlinear characteristics of hydroclimate variability in the mid-latitude Asia over the past seven centuries. Theoretical and Applied Climatology, 126(1-2):151-159

121.Zhou, X.-L.,Wang, Y.-S.,Zhang, P.-F.,Guo, Z.,Chu, C.-J.,Du, G.-Z., 2016.The effects of fertilization on the trait-abundance relationships in a Tibetan alpine meadow community. Journal of Plant Ecology, 9(2): 144-152.

122.Zhou, X.-Y., Lei, W.-J., Ma, J.-Z., 2016.Entropy Base Estimation of Moisture Content of the Top 10-m Unsaturated Soil for the Badain Jaran Desert in Northwestern China. Entropy, 18(9):323.

2015年度

(共发表论文124篇，SCI论文122篇，SSCI论文4篇，第一作者第一单位发表SCI论文59篇，SSCI论文4篇，参考2014年分区，发表一区13篇，二区17篇)

第一作者第一单位

1.An, C.-B., Dong, W.-M., Li, H.,Zhang, P.-Y.,Zhao, Y.-T.,Zhao, X.-Y., Yu, S.Y., 2015.Variability of the stable carbon isotope ratio in modern andarchaeological millets: evidence from northern China.Journal of Archaeological Science, 53:316-322.SCI-3/SSCI/A&HCI

2.An, C.-B., Dong, W.-M., Chen, Y.-F., Li, H., Shi, C., Wang, W., Zhang, P.-Y., Zhao, X.-Y., 2015. Stable isotopic investigations of modern and charred foxtail millet and the implications for environmental archaeological reconstruction in the western Chinese Loess Plateau. Quaternary Research, 84(1): 144-149.

3.Bai, Y., Zhu, G.-F., Su, Y.-Z., Zhang, K., Han, T., Ma, J.-Z., Wang, W.-Z., Ma, T., Feng, L.-L., 2015.Hysteresis loops between canopy conductance of grapevines and meteorological variables in an oasis ecosystem.Agricultural and Forest Meteorology, 214: 319–327. SCI-1

4.Chang, G.-Y., 2015. MaterialistValueOrientationsasCorrelatesoftheNewEcologicalParadigmamong UniversityStudents inChina. Psychological Reports,116(2):597-612.SSCI

5.Chen, F., Wang, H.-Q., Chen, F.-H., Yuan, Y.-J., Zhang, R.-B., 2015. Tree-ring reconstruction of July-May precipitation (AD 1816-2010) in the northwestern marginal zone of the East Asian summer monsoon reveals the monsoon-related climate signals. International Journal of Climatology,35(8):2109-2121. SCI-2

6.Chen,F.-H.,Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Jia, X., An, C.-B., Ma, M.-M., Xie, Y.-W., Barton, L., Ren, X.-Y., Zhao, Z.-J., Wu, X.-H., Jones, M.-K., 2015.Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science, 347(6219):248-250.SCI-1

7.Chen, F.-H., Xu, Q.-H., Chen, J.-H., Birks, H.-J.-B., Liu, J.-B., Zhang, S.-R., Jin, L.-Y., An, C.-B., Telford, R.-J., Cao, X.-Y., Wang, Z.-L., Zhang, X.-J., Selvaraj, K., Lu, H.-Y., Li, Y.-C., Zheng, Z., Wang, H.-P., Zhou, A.-F., Dong, G.-H., Zhang, J.-W., Huang, X.-Z., Bloemendal, J., Rao, Z.-G., 2015. East Asian summer monsoon precipitation variability since the last deglaciation. Scientific Reports,5: 11186.SCI-2

8.Chen, J.-H., Chen, F.-H., Feng, S., Huang, W., Liu, J.-B., Zhou, A.-F., 2015. Hydroclimatic changes in China and surroundings during the Medieval Climate Anomaly and Little Ice Age: Spatial patterns and possible mechanisms. Quaternary Science Reviews, 107: 98-111.Corrigendum to “Hydroclimatic changes in China and surroundings during the Medieval Climate Anomaly and Little Ice Age: Spatial patterns and possible mechanisms” [Quaternary Science Reviews 107 (2015) 98–111]. Quaternary Science Reviews, 119: 157–158.SCI-1

9.Cheng,X.-W.,Cheng,Q.-F.,Deng,X.-Y.,Pu Wang,P.,Liu, H.-L., 2015.Construction of TiO₂nano-tubes arrays coupled with Ag₂Snano-crystallites photoelectrode and its enhanced visible lightphotocatalytic performance and mechanism.Electrochimica Acta,184:264–275.SCI-1

10.Cheng,X.-W.,Cheng,Q.-F.,Lie,B.,Deng,X.-Y.,Li,J.-J.,Wang,P.,Zhang,B.-Q.,Liu,H.-L.,Wang, X.-N., 2015.One-step construction of N/Ti3+ codoped TiO2 nanotubesphotoelectrode with high photoelectrochemical andphotoelectrocatalytic performance.Electrochimica Acta,186:442–448.SCI-1

11.Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Liu, F.-W., Chen, F., Jones, M., 2015. Asian archaeology. Response to Comment on "Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 B.P.". Science,348(6237):872-872.SCI-1

12.Gao, L.-L., Gou, X.-H., Deng, Y., Yang, M.-X, Zhang, F., Li, J., 2015. Dendroclimatic reconstruction of temperature in the eastern Qilian Mountains, northwestern China. Climate Research,62(3):241-250. SCI-2

13.Geng H.-P., Pan, B.-T., Milledge, D.-G., Huang, B., Zhang, G.-L., 2015. Quantifying sheet wash erosion rates in a mountainous semi-arid basin using environmental radionuclides and a stream power model: Quantifying Sheet Erosion Using Radionuclide and Stream Power Model. Earth Surface Processes and Landforms,40(13):1814–1826.SCI-2

14.Gou, X.-H., Deng, Y., Gao, L.-L., Chen, F.-H., Yang, M.-X., Zhang. F., 2015. Millennium tree-ring reconstruction of drought variability in the eastern Qilian Mountains, northwest China. ClimateDynamics, 45(7-8): 1761–1770.SCI-1

15.Gou, X.-H, Gao, L.-L., Deng, Y., Chen, F.-H., Yang, M.-X., Still, C., 2015. An 850-year tree-ring-based reconstruction of drought history in the western Qilian Mountains of northwestern China. International Journalof Climatology,35(11):3308-3319.SCI-2

16.Guan, Q.-Y., Yang, J., Zhao, S.-L., Pan, B.-T., Liu, C.-L., Zhang, D., Wu, T., 2015. Climatological analysis of dust storms in the area surrounding the Tengger Desert during 1960-2007. Climate Dynamics,45(3-4):903-913.SCI-1

17.Guo, P., Meng, X.-M., Li, Y.-J., Chen, G., Zeng, R.-Q., Qiao, L., 2015. Effect of large dams and irrigation in the upper reaches of the Yellow River of China, and the geohazards burden. Proceedings of the Geologists Association,126(3):367-376. SCI-4

18.He, J.-H.,Ma, J.-Z.,Zhao, W., Sun, P., 2015.Groundwater evolution and recharge determination of the Quaternary aquifer in the Shule River basin, Northwest China.Hydrogeology Journal, 23(8):1745-1759.SCI-3

19.Hu, X.-F., Pan, B.-T., Kirby, E., Gao, H.-S., Hu, Z.-B., Cao, B., Geng, H.-P., Li, Q.-Y., and Zhang, G.-L., 2015, Rates and kinematics of active shortening along the eastern Qilian Shan, China, inferred from deformed fluvial terraces: Tectonics, 34(12):2478-2493.

20.Huang, W., Chen, J.-H., Zhang, X.-J., Feng, S., Chen, F.-H., 2015. Definition of the core zone of the "westerlies-dominated climatic regime", and its controlling factors during the instrumental period. Science China-Earth Sciences,58(5):676-684. SCI-4

21.Huang, W., Feng, S., Chen, J.-H., Chen, F.-H., 2015. Physical Mechanisms of Summer Precipitation Variations in the Tarim Basin in Northwestern China. Journal of Climate,28:3579-3591.SCI-1

22.Huang, X.-Z., Chen, C.-Z., Jia, W.-N., An, C.-B., Zhou, A.-F., Zhang, J.-W., Jin, M., Xia, D.-S., Chen, F.-H., Grimm, E.C., 2015. Vegetation and climate history reconstructed from an alpine lake in central Tienshan Mountains since 8.5 ka BP. Palaeogeography Palaeoclimatology Palaeoecology,432:36-48. SCI-3

23.Jin,M., Li, G.-Q., Li, F.-L., Duan Y.-W., Wen, L.-J., Wei, H.-T., Yang, L.-P., Fan, Y.-X., Chen, F.-H., 2015. Holocene shorelines and lake evolution in Juyanze Basin, southern Mongolian Plateau, revealed by luminescence dating. Holocene,25(12):1898-1911.SCI-2

24.Jin, X., Zhang, L.-H., Gu, J., Zhao, C., Tian, J., He, C.-S., 2015. Modelling the impacts of spatial heterogeneity in soil hydraulic properties on hydrological process in the upper reach of the Heihe River in the Qilian Mountains, Northwest China. Hydrological Processes,29, 3318-3327.SCI-3

25.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang,L.-S., Zou, S.-B.,Zhu, G.-F., Yang, W.-J.,2015.Spatiotemporal characteristics of alpine snow and ice melt under achanging regional climate: A case study in Northwest China.Quaternary International, 358: 126-136.SCI-3

26.Li, C.-B., Zhang, X.-L., Qi, J.-G., Wang, S.-B., Yang, L.-S., Yang, W.-J., Zhu, G.-F., Hao, Q.,2015.A case study of regional eco-hydrological characteristics in the Tao River Basin, northwestern China, based on evapotranspiration estimated by a coupled Budyko Equation-crop coefficient approach,Science China-earth Sciences, 58(11):2103-2112.SCI-4

27.Li, G.-H., Xia, D.-S., Jin, M., Jia, J., Liu, J.-B, Zhao, S., Wen, Y.-L., 2015. Magnetic characteristics of loess-paleosol sequences in Tacheng, northwestern China, and their paleoenvironmental implications. Quaternary International,372:87-96. SCI-3

28.Li, G.-H.,Xia, D.-S., Jia, J., Zhao,S., Gao, F.-Y., Wang, Y.-J., Lu,H. and Chen, F.-H., 2015.Magnetic properties derived from a loess section at the northern piedmont of Tianshan Mountains, Xinjiang, China, and their paleoenvironmental significance, Geophysical Journal International, 203:828-839. SCI-2

29.Li, G.-Q.,Wen, L.-J.,Xia, D.-S.,Duan, Y.-W.,Rao, Z.-G.,Madsen, D.-B.,Wei, H.-T.,Li, F.-L.,Jia, J.,Chen, F.-H., 2015. Quartz OSL and K-feldspar pIRIR dating of a loess/paleosol sequence from arid central Asia, Tianshan Mountains,NW China. Quaternary Geochronology, 28: 40-53.SCI-2

30.Li, G.-Q.,Jin, M.,Duan, Y.-W.,Madsen, D.-B.,Li, F.-L., Yang, L.-P.,Wei, H.-T.,Chen, F.-H., 2015. Quartz and K-feldspar luminescence dating of a Marine Isotope Stage 5 megalake in the Juyanze Basin, central Gobi Desert, China. PalaeogeographyPalaeoclimatologyPalaeoecology, 440: 96-109. SCI-3

31.Li, G.-Q.,Jin, M., Chen, X.-W., Wen, L.-J., Zhang, J.-W.,Madsen, D.-B., Zhao, H., Wang, X., Fan, T.-L.,Duan, Y.-W., Liu, X.-K., Wu, D.,Li, F.-L.,Chen, F.-H., 2015. Environmental changes in the Ulan Buh Desert, southern Inner Mongolia, China since the middle Pleistocene based on sedimentology, chronology and proxy indexes. Quaternary Science Reviews, 128: 69–80.SCI-1

32.Li, H., An, C.-B., Fan, W.-J., Dong, W.-M., Zhao, Y.-T., Wang, H.-P., 2015. Population history and its relationship with climate change on the Chinese Loess Plateau during the past 10,000years. Holocene,25(7):1144-1152.SCI-2

33.Li, J.-J., Zhou, S.-Z., Zhao, Z.-J., Zhang, J., 2015.The Qingzang movement: The major uplift of the Qinghai-Tibetan Plateau.Science China-earth Sciences, 58(11): 2113-2122.SCI-4

34.Liu, J.-B.,Chen, J.-H.,Zhang, X.-J.,Li, Y.,Rao, Z.-G.,Chen, F.-H., 2015.Holocene East Asian summer monsoon records in northern China and their inconsistency with Chinese stalagmite delta O-18records. Earth-Science Reviews, 148: 194-208. SCI-1

35.Liu, S.-P., Li, J.-J., Stockli, D.-F., Song, C.-H., Nie, J.-S., Peng, T.-J., Wang, X.-X., He, K., Hui, Z.-C., Zhang, J., 2015. Late Tertiary reorganizations of deformation in northeastern Tibet constrained by stratigraphy and provenance data from eastern Longzhong Basin. Journalof Geophysical Research-Solid Earth,120(8):5804-5821.SCI-2

36.Liu, W.-H., Gou, X.-H., Li, J.-B., Huo, Y.-X., Fang, K.-Y., 2015. A method to separate temperature and precipitation signals encoded in tree-ring widths for the western Tien Shan Mountains, northwest China. Global and Planetary Change, 133: 141–148.SCI-3

37.Liu, X.-K., Rao, Z.-G., Zhang, X.-J., Huang, W., Chen, J.-H., Chen, F.-H., 2015. Variations in the oxygen isotopic composition of precipitation in the Tianshan Mountains region and their significance for the Westerly circulation. Journal of Geographical Sciences,25(7):801-816. SCI-4

38.Ma, M.-M.,Dong, G.-H., Liu X., Lightfoot, E., Chen, F.-H., Wang, H., Li, H., Jones, M.-K., 2015.Stable isotope analysis of human and faunal remains at Qijiaping site in middle Gansu, China.International Journal of Osteoarchaeology,25(6):925-934.SSCI

39.Mu, C.-C., Zhang, T.-J., Wu, Q.-B., Cao.-B., Zhang, X.-K., Peng, X.-Q., Wan, X.-D., Zheng, L., Wang, Q.-F., Cheng, G.-D., 2015. Carbon and nitrogen properties of permafrost over the Eboling Mountain in the upper reach of Heihe River basin, Northwestern China. Arctic Antarctic and Alpine Research,47(2):203-211.SCI-3

40.Nie, J.-S., Stevens, T., Rittner, M., Stockli D., Garzanti E., Limonta M., Bird A., Andò, S., Vermeesch, P., Saylor J., Lu H.-Y., Breecker D., Hu X.-F., Liu, S.-P., Resentini A., Vezzoli G., Peng W.-B., Carter A., Ji S.-C., Pan B.-T., 2015. Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment. Nature Communications, 6: 8511.SCI-1

41.Pan, B.-T., Li, Q., Hu, X.-F., Geng, H.-P., Gao, H.-S., 2015. Bedrock channels response to differential rock uplift in eastern Qilian Mountain along the northeastern margin of the Tibetan Plateau. Journal of Asian Earth Sciences,100:1-19. SCI-2

42.Pan, B.-T., Pang, H.-L., Zhang, D., Guan, Q.-Y., Wang, L., Li, F.-Q., Guan, W.-Q., Cai, A., Sun, X.-Z., 2015. Sediment grain-size characteristics and its source implication in the Ningxia-Inner Mongolia sections on the upper reaches of the Yellow River. Geomorphology,246, 255-262.SCI-2

43.Pan, B.T., Guan, Q.Y., Liu, Z.B., Gao, H.S., 2015. Analysis of channel evolution characteristics in the Hobq Desert reach of the Yellow River (1962-2000). Global and Planetary Change,135:148-158.SCI-3

44.Rao, Z.-G., Guo, W.-K., Xie, L.-H., Huang, C., Liu, X.-K., Hua, H., Chen, F.-H., 2015. High resolution delta C-13(TOC) and magnetic susceptibility data from the late Early Pleistocene southern margins of the Chinese Loess Plateau. Organic Geochemistry,87:78-85.SCI-2

45.Rao, Z.-G., Liu, X.-K., Hua, H., Gao, Y.-L., Chen, F.-H.,2015.Evolving history of the East Asian summer monsoon intensity during the MIS5: inconsistent records from Chinese stalagmites and loess deposits.Environmental Earth Sciences,73(7):3937-3950.SCI-4

46.Ren, L.-L., Wang, Y.-R., Li, G.-Q., Li, Q.-L., Ma, Z.-T., Dong, G.-H., 2015.Discovery of a tiger (Panthera tigris (L.)) skeleton from the Little IceAge buried on the shore of Qinghai Lake, northeast Tibet Plateau.Quaternary International, 355:145-152. SCI-3

47.Wang, F.,Sun, D.-H.,Chen, F.-H.,Bloemendal, J.,Guo, F.,Li, Z.-J.,Zhang, Y.-B.,Li, B.-F.,Wang, X., 2015.Formation and evolution of the Badain Jaran Desert, NorthChina, as revealed by a drill core from the desert centre and by geological survey.Palaeogeography Palaeoclimatology Palaeoecology, 426：139-158. SCI-3

48.Wang, J.,Cui, H.,Harbor, J.-M.,Zheng, L.-M.,Yao, P.,2015.Mid-MIS₃climate inferred from reconstructing the Dalijia Shan ice cap, north-eastern Tibetan Plateau.Journal of Quaternary Science, 30(6):558-568. SCI-2

49.Wang, K., Zhang, T., Zhong, X.,2015.Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China.Cryosphere, 9(3):1321-1331. SCI-2

50.Wu, D., Zhou, A.-F., Liu, J.-B., Chen, X.-M., Wei, H.-T., Sun, H.-L.,Chen, F.-H.,2015. Changing intensity of human activity over the last 2,000 years recorded by the magnetic characteristics of sediments from Xingyun Lake, Yunnan, China. Journal of Paleolimnology, 53(1):47-60.SCI-3

51.Wu, D., Zhou, A.F., Chen, X.M., Yu, J.Q., Zhang, J.W., Sun, H.L., 2015. Hydrological and ecosystem response to abrupt changes in the Indian monsoon during the last glacial, as recorded by sediments from Xingyun Lake, Yunnan, China. Palaeogeography Palaeoclimatology Palaeoecology, 421: 15-23.SCI-3

52.Yang,Y.-C.,Zhang,D.-L.,Meng,Q.-M.,McCarn, C.,2015.Urban Residential Land Use Reconstruction under Dual-Track Mechanism of Market Socialism in China: A Case Study of Chengdu.Sustainability, 7:16849-16865.SCI-4 SSCI

53.Zhang,B.-Q.,He,C.-S.,Burnham,M.,Zhang,L.-H., 2015. Evaluating the coupling effects of climate aridity and vegetationrestoration on soil erosion over the Loess Plateau in China. Science of the Total Environment,539:436–449.SCI-2

54.Zhang, G.-L., Pan, B.-T., Cao, B., Wang, J., Cui, H., Cao, X.-L., 2015. Elevation changes measured during 1966-2010 on the monsoonal temperate glaciers' ablation region, Gongga Mountains, China. Quaternary International,371:49-57. SCI-3

55.Zhang, L.-H., Wang, S.-G., He, C.-S., Shang, K.-Z., Meng, L., Li, X., Lofgren, B.-M., 2014.A new method for instant correction of numerical weatherprediction products in China. Science China-Earth Science, 58(2):231-244.SCI-4

56.Zhang, P., Ma, J.-.Z., Shu, H.-P., Han, T., Zhang, Y.-L., 2015. Simulating debris flow deposition using a two-dimensional finite model and Soil Conservation Service-curve number approach for Hanlin gully of southern Gansu (China). Environmental Earth Sciences,73(10):6417-6426.SCI-4

57.Zhang, T.-J., Wang, N.-L., 2015. Introduction-Changing cryosphere under a warming climate. Arctic Antarctic and Alpine Research,47(2):191-193. SCI-3

58.Zhang, X.-J., Jin, L.-Y., Li, N., 2015. Asynchronous variation in the East Asian winter monsoon during the Holocene. Journal of Geophysical Research-Atmospheres,120(11):5357-5370.SCI-2

59.Zhao, S.,Gao, F.-Y., Jia, J., Li, G.-H., Xia, D.-S., Jin, H.-L.,2015.Magnetic properties of eolian sand sediments in the Mu Us Desert and their paleoenvironmental significance.Chinese Journal of Geophysics-Chinese Edition, 58(10):3706-3718.SCI-4

60.Zhao, Y.-T., An, C.-B., Mao, L.-M., Zhao, J.-J., Tang, L.-Y., Zhou, A.-F., Li, H., Dong, W.-M., Duan, F.-T., Chen, F.-H., 2015. Vegetation and climate history in arid western China during MIS₂: New insights from pollen and grain-size data of the Balikun Lake, eastern Tien Shan. Quaternary Science Reviews, 126: 112–125. SCI-1

61.Zhou, A.-F., He, Y.-X., Wu, D., Zhang, X.-N., Zhang, C., Liu, Z.-H., Yu, J.-Q., 2015. Changes in the Radiocarbon Reservoir Age in Lake Xingyun, Southwestern China during the Holocene. Plos One,10(3):e0121532.SCI-3

第一作者第二三单位

62.Chen, F.,Yuan, Y.-J.,Yu, S.-L.,Zhang, T.-W.,Shang, H.-M.,Zhang, R.-B.,Qin, L.,Fan, Z.-A., 2015.A 225-year long drought reconstruction for east Xinjiang based on Siberia larch (Larix sibirica) tree-ring widths: Reveals the recent dry trend of the eastern end of Tien Shan. Quaternary International, 358: 42-47.SCI-3

63.Chen, F., Yuan, Y.-J., Wei, W.-S., Yu, S.-L., Wang, H.-Q., 2015. Tree-ring response of subtropical tree species in southeast China on regional climate and sea-surface temperature variations. Trees-Structure and Function,29(1):17-24. SCI-2

64.Chen, F.,Yuan, Y.-J.,Wei, W.-S.,Zhang, T.-W.,Shang, H.-M.,Fan, Z.-A.,Yu, S.-L.,Zhang, R.-B.,Qin, L.,Wang, H.-Q., 2015.Precipitation-temperature Interactions in the west Altay Mountains inferred from tree rings of siberian larch. Iawa Journal,36(2):242-253. SCI-4

65.Chen, J.-S.,Kravchinsky, V.-A.,Liu, X.-M., 2015.The 13 million year Cenozoic pulse of the Earth.Earth and Planetary Science letters,431:256-263. SCI-1-三单位

66.Fan, Y.-X, Chen, X.-L., Liu, W.-H., Zhang, F., Zhang, F., 2015. Formation of present desert landscape surrounding Jilantai Salt Lake in northern China based on OSL dating. Frontiers of Earth Science,9(3):497-508.SCI-4-

67.Hou, Z.-F.,Li, J.-J.,Song, C.-H.,Meng, J.-J.,Zhang, J., 2015.Late-Miocene palaeoecological evolution of the Tianshui Basin, NE Tibetan Plateau: Evidence from stable organic carbon isotope record. Journal of Asian Earth Sciences, 98:296-303. SCI-2

68.Li, Z.-X., Feng, Q., Guo, X.-Y., Gao, Y., Pan, Y.-H., Wang, T.-T., Li, J.-G., Guo, R., Jia, B., Song, Y.-X., Han, C.-T., 2015. The evolution and environmental significance of glaciochemistry during the ablation period in the north of Tibetan Plateau, China. Quaternary International,374:93-109.SCI-3

69.Liu, B., Jin, H.-L., Sun, L.-Y., Sun, Z.,Zhao, S.,2015.Geochemical evidence for Holocene millennial-scale climatic and environmental changes in the south-eastern Mu Us Desert, northern China.International Journal of Earth Sciences,104(7):1889-1900.SCI-3

70.Lv, Y.-B.,An, C.-B.,Zhao, J.-J., 2015.An isotopic study on water system of Lake Barkol and its implication for Holocene climate dynamics in arid central Asia. Environmental Earth Sciences, 73(3): 1377-1383.SCI-4

71.Qin, S.-S.,Liu, F.,Wang, C.,Song, Y.-L.,Qu, J.-S., 2015.Spatial-temporal analysis and projection of extreme particulate matter (PM10 and PM2.5) levels using association rules: A case study of the Jing-Jin-Jiregion, China,Atmospheric Environment, 120:339-350.SCI-2

72.Wang, B., Xia, D.-S., Yu, Y., Jia, J., Nie, Y., Wang, X., 2015.Detecting the sensitivity of magnetic response on different pollution sources-A case study from typical mining cities in northwestern China. Environmental Pollution, 207: 288–298.

73.Zhang, B.-Q., Zhao, X.-N., Jin, J.-M., Wu, P.-T., 2015. Development and evaluation of a physically based multiscalar drought index: The Standardized Moisture Anomaly Index, Journal ofGeophysicalResearch:Atmosphere,11:575-588.SCI-2

74.Zhang, R.-B., Yuan, Y.-J., Wei, W.-S., Gou, X.-H., Yu, S.-L., Shang, H.-M., Chen, F., Zhang, T.-W., Qin, L., 2015. Dendroclimatic reconstruction of autumn-winter mean minimum temperature in the eastern Tibetan Plateau since 1600 AD. Dendrochronologia,33:1-7.SCI-3

非第一作者单位

75.An, X.-Q.,Tao, Y.,Mi, S.-Q.,Sun, Z.-B.,Hou, Q., 2015.Association between PK10 and Respiratory Hospital Admissions in Different Seasons in Heavily Polluted Lanzhou City. Journal of Environmental Health, 77(6 SI): 64-71.

76.Bidleman, T.-F., Jantunen, L.-M., Hung, H., Ma, J., Stern, G.-A., Rosenberg, B., Racine, J., 2015. Annual cycles of organochlorine pesticide enantiomers in Arctic air suggest changing sources and pathways. Atmospheric Chemistry and Physics, 15(3):1411-1420.

77.Bird, A., Stevens, T., Rittner, M., Vermeesch, P., Carter, A., Ando, S., Garzanti, E., Lu, H.-Y., Nie, J.-S., Zeng, L., Zhang, H.-Z., Xu, Z.-W., 2015. Quaternary dust source variation across the Chinese Loess Plateau. Palaeogeography Palaeoclimatology Palaeoecology,435:254-264.

78.Carrapa, B., DeCelles, P.-G., Wang, X., Clementz, M.-T., Mancin, N., Stoica, M., Kraatz, B., Meng, J., Abdulov, S., Chen, F., 2015. Tectono-climatic implications of Eocene Paratethys regression in the Tajik basin of central Asia. Earth and Planetary Science Letters,424:168-178.

79.Chen, X.-J., Jin, S.-Q., Qin, S.-S., Li, L.-P.,2015.Short-Term Wind Speed Forecasting Study and Its Application Using a Hybrid Model Optimized by Cuckoo Search.Mathematical Problems in Engineering,608597.

80.Chu,C.-J.,Bartlett, M.,Wang,Y.-S.,He,F.-L.,Weiner, J.,Chave, J.,Sack, L.,2016.Does climate directly influence NPP globally?Global Change Biology,22:12–24,

81.Dallmeyer, A., Claussen, M., Fischer, N., Haberkorn, K., Wagner, S., Pfeiffer, M., Jin, L., Khon, V., Wang, Y., Herzschuh, U., 2015. The evolution of sub-monsoon systems in the Afro-Asian monsoon region during the Holocene-comparison of different transient climate model simulations. Climate of the Past,11(2):305-326.

82.Deng, Q.-C.,Qin, F.-C.,Zhang, B.,Wang, H.-P.,Luo, M.-L.,Shu, C.-Q.,Liu, H.,Liu, G.-C., 2015.Characterizing the morphology of gully cross-sections based on PCA: A case of Yuanmou Dry-Hot Valley. Geomorphology, 228: 703-713.

83.Fang, K.-Y., Chen, D., Gou, X.-H., D'Arrigo, R., Davi, N., 2015. Influence of non-climatic factors on the relationships between tree growth and climate over the Chinese Loess Plateau. Global and Planetary Change, 132, 54-63.

84.Fang, X.-M., Zan, J.-B., Appel, E., Lu, Y., Song, C.-H., Dai, S., Tuo, S.-B., 2015. An Eocene-Miocene continuous rock magnetic record from the sediments in the Xining Basin, NW China: indication for Cenozoic persistent drying driven by global cooling and Tibetan Plateau uplift. Geophysical Journal International,201(1):78-89.

85.Fang, X.-Q., Chen, F.-H., 2015. Plant phenology and climate change (vol 58, pg 1043, 2015). Science China-Earth Sciences, 58, 1043-1044.

86.Gusmeroli, A., Liu, L., Schaefer, K., Zhang, T.-J., Schaefer, T., Grosse, G., 2015. Active layer stratigraphy and organic layer thickness at a thermokarst site in Arctic Alaska identified using ground penetrating radar. Arctic Antarctic and Alpine Research,47(2):195-202.

87.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. The distribution of fine root length density for six artificial afforestation tree species in Loess Plateau of Northwest China. Forest Systems,24(1):e003.

88.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. Effects of different vegetation restoration on soil water storage and water balance in the Chinese Loess Plateau. Agricultural and Forest Meteorology,206:85-96.

89.Jian, S.-Q., Zhao, C.-Y., Fang, S.-M., Yu, K., 2015. Evaluation of water use of Caragana korshinskii and Hippophae rhamnoides in the Chinese Loess Plateau. Canadian Journal of Forest Research,45(1):15-25.

90.Jiang, D.-B., Yu, G., Zhao, P., Chen, X., Liu, J., Liu, X.-D., Wang, S.-W., Zhang, Z.-S., Yu, Y.-Q., Li, Y.-F., Jin, L.-Y., Xu, Y., Ju, L.-X., Zhou, T.-J., Yan, X.-D., 2015. Paleoclimate Modeling in China: A Review. Advances in Atmospheric Sciences,32(2):250-275.

91.Jiang, P., Qin, S.-S., Wu, J.,Sun, B.-B.,2015.Time Series Analysis and Forecasting for Wind Speeds Using Support Vector Regression Coupled with Artificial Intelligent Algorithms.Mathematical Problems in Engineering,939305.

92.Jin, R., Zhang, T.-J., Li, X., Yang, X.-G., Ran, Y.-H., 2015. Mapping surface soil freeze-thaw cycles in China based on SMMR and SSM/I brightness temperatures from 1978 to 2008. Arctic Antarctic and Alpine Research,47, 213-229.

93.Li, C.,Cui, X.-Y.,Fan, Y.-Y.,Teng, Y.,Nan, Z.-R.,Ma, L.-Q., 2015.Tenax as sorption sink for in vitro bioaccessibility measurement of polycyclic aromatic hydrocarbons in soils. Environmental Pollution, 196: 47-52.

94.Li, J.-Y., Xu, Q.-H., Zheng, Z., Lu, H.-Y., Luo, Y.-L., Li, Y.-C., Li, C.-H., Seppa, H., 2015. Assessing the importance of climate variables for the spatial distribution of modern pollen data in China. Quaternary Research, 83(2):287-297.

95.Li, Q.-B., Li, Y., Wang, X.-Y., Zhang, R.-Q., Ma, J.-M., Sun, M.-X., Lv, X.-N., Bao, J.-L., 2015. Analysis for sources of atmospheric alpha- and gamma-HCH in gas and particle-associated phase in Dalian, China by multiple regression. Atmospheric Environment,114:32-38.

96.Li, Z.-X.,Gao, Y.,Wang, Y.-M.,Pan, Y.-H.,Li, J.-G.,Chen, A.-F.,Wang, T.-T.,Han, C.-T.,Song, Y.-X.,Theakstone, W.-H., 2015.Can monsoon moisture arrive in the Qilian Mountains in summer?Quaternary International, 358: 113-125.

97.Li, Z.-X., Feng, Q., Liu, W., Wang, T.-T., Guo, X.-Y., Li, Z.-J., Gao, Y., Pan, Y.-H., Guo, R., Jia, B., Song, Y., Han, C., 2015. The stable isotope evolution in Shiyi glacier system during the ablation period in the north of Tibetan Plateau, China. Quaternary International,380-381:262-271.

98.Li, Z.-X., Qi, F., Li, J.-G., Pan, Y.-H., Wang, T.-T., Li, L., Guo, X.-Y., Yan, G., Bing, J., Rui, G., 2015. Environmental significance and hydrochemical processes at a cold alpine basin in the Qilian Mountains. Environmental Earth Sciences,73(8):4043-4052.

99.Liu, B., Jin, H.-L., Sun, L.-Y., Sun, Z., Zhao, S., 2015. Geochemical evidence for Holocene millennial-scale climatic and environmental changes in the south-eastern Mu Us Desert, northern China. International Journal of Earth Sciences,104, 1889-1900.

100.Liu, C.-Y.,Dong, X.-F.,Liu, Y.-Y., 2015.Changes of NPP and their relationship to climate factors based on the transformation of different scales in Gansu, China. Catena, 125:190-199.

101.Liu, L.,Schaefer, K.-M.,Chen, A.-C.,Gusmeroli, A.,Zebker, H.-A.,Zhang, T.,2015.Remote sensing measurements of thermokarst subsidence using InSAR.Journal of Geophysical Research-earth Surface,120(9):1935-1948.

102.Liu, X.-J., Lai, Z.-P., Madsen, D., Zeng, F.-M., 2015. Last deglacial and Holocene lake level variations of Qinghai Lake, north-eastern Qinghai-Tibetan Plateau. Journal of Quaternary Science,30, 245-257.

103.Mischke, S., Madsen, D., Zhang, C.-J., Lai, Z.-P., 2015. Reply to comment by Zhang (2014): The Shell Bar in the Qaidam Basin: fluvial or lake deposit, and OSL versus C-14 age data. Journal of Paleolimnology,53(3):335-344.

104.Okin, G.-S., Gu, J., 2015. The impact of atmospheric conditions and instrument noise on atmospheric correction and spectral mixture analysis of multispectral imagery. Remote Sensing of Environment,164:130-141.

105.Qu, J.-S., Maraseni, T., Liu, L.-N., Zhang, Z.-Q., Yusaf, T.,2015.A Comparison of Household Carbon Emission Patterns of Urban and Rural China over the 17 Year Period (1995-2011).Energies,8(9):10537-10557.

106.Shi, F.-X., Song, C.-H., Zhang, X.-H., Mao, R., Guo, Y.-D., Gao, F.-Y., 2015. Plant zonation patterns reflected by the differences in plant growth, biomass partitioning and root traits along a water level gradient among four common vascular plants in freshwater marshes of the Sanjiang Plain, Northeast China. Ecological Engineering,81:158-164.

107.Song, M.,Zhou, A.-F.,Zhang, X.-N.,Zhao, C.,He, Y.-X.,Yang, W.-Q.,Liu, W.-G.,Li, S.-H.,Liu, Z.H.,2015.Solar imprints on Asian inland moisture fluctuations over the last millennium,Holocene,25(12):1935-1943.

108.Song, Y.-L., Qin, S.-S., Qu, J.-S., Liu, F., 2015. The forecasting research of early warning systems for atmospheric pollutants: A case in Yangtze River Delta region. Atmospheric Environment,118:58-69.

109.Wang, J.-Z., Qin, S.-S., Jin, S.-Q., Wu, J., 2015. Estimation methods review and analysis of offshore extreme wind speeds and wind energy resources. Renewable & Sustainable Energy Reviews,42:26-42.

110.Wang,J.-Z.,Qin, S.-S., Zhou, Q.-P.,Jiang, H.-Y.,2015. Medium-term wind speeds forecasting utilizing hybrid models for three different sites in Xinjiang, China. Renewable Energy, 76: 91–101.

111.Wang, Q.-F., Zhang, T.-J., Peng, X.-Q., Cao, B., Wu, Q.-B., 2015. Changes of soil thermal regimes in the Heihe River Basin over Western China. Arctic Antarctic and Alpine Research,47(2):231-241.

112.Wang, S.-Q., Shi, Q.-Q., Hui, Z.-C., Li, Y., Zhang, J., Peng, T.-J., 2015. Diversity of Moschidae (Ruminantia, Artiodactyla, Mammalia) in the middle Miocene of China. Paleontological Research,19(2):143-155.

113.Wang, X.-M, Lang, L.-L., Hua, T., Zhang, C.-X., Xia, D.-S., 2015. Geochemical and magnetic characteristics of aeolian transported materials under different near-surface wind fields: An experimental study. Geomorphology,239, 106-113.

114.Wu, Y., Ouyang, T.-P., Qiu, S.-F., Rao, Z.-G., Zhu, Z.-Y.,2015.A sedimentary paleomagnetic record of the upper Jaramillo transition from the Lantian Basin in China.Earth Planets and Space,67:1-12.

115.Yan, H.-R., Huang, J.-P., Minnis, P., Yi, Y.-H., Sun-Mack, S., Wang, T.-H., Nakajima, T.-Y., 2015. Comparison of CERES-MODIS cloud microphysical properties with surface observations over Loess Plateau. Journal of Quantitative Spectroscopy & Radiative Transfer,153:65-76.

116.Yang, X.-G., Zhang, T.-J., Qin, D.H., Qin, X., Yang, Y., 2015. Observational study of surface wind regime on the north slope of Mount Qomolangma (Mount Everest). Arctic Antarctic and Alpine Research, 47(4): 807-817.

117.Yang,Y.-B.,Fang, X.-M.,Li, M.-H.,Galy, A.,Koutsodendris, A.,Zhang, W.-L., 2015.Paleoenvironmental implications of uranium concentrations in lacustrine calcareous clastic-evaporite deposits in the western Qaidam Basin.Palaeogeography, Palaeoclimatology, Palaeoecology, 417:422-431.

118.Yang, Z.-Y.,Liu, X.-Q.,Zhou, M.-H.,Ai, D.,Wang, G.,Wang, Y.-S.,Chu, C.-J.,Lundholm, J.-T.,2015.The effect of environmental heterogeneity on species richness depends on community position along the environmental gradient.Scientific Reports, 5:15723.

119.Zan, J.-B., Fang, X.-M., Yang, S.-L., Yan, M.-D., 2015. Bulk particle size distribution and magnetic properties of particle-sized fractions from loess and paleosol samples in Central Asia. Geochemistry Geophysics Geosystems,16(1):101-111.

120.Zhang, G.-W., Zhang, H.-Y., Wang, J.-F., Zhou, L., Liu, P., Jiang, X., 2015. Laboratory investigation of self-healing properties on geosynthetic clay liners with flaw. Archives of Environmental Protection,41(1):57-62.

121.Zhang,M.-Z.,Ji,L.-M.,Du,B.-X.,Dai,S.,Hou, X.-W.,2015. Early Cretaceous Hanxia Section in the Jiuquan Basin, Northwest China: The discovery of diverse early angiosperm pollen and paleoclimatic significance. Palaeogeography, Palaeoclimatology, Palaeoecology, 440: 297–306.

122.Zhao, H.,Sheng, Y.-W.,Zhang, J.-W.,Zhao, Y.,Li, G.-Q., 2015.Oasis evolution processes and mechanisms in the lower reaches of Heihe River, Inner Mongolia, China since 1 ka ago. Holocene, 25(3): 445-453.

123.Zhao, J.-D.,Wang, J.,Harbor, J.-M.,Liu, S.-Y.,Yin, X.-F.,Wu, Y.-F., 2015.Quaternary glaciations and glacial landform evolution in the Tailan River valley, Tianshan Range, China. Quaternary International, 358: 2-11.

124.Zhao, Y.,Wu, F.-L.,Fang, X.-M.,Yang, Y.-B.,2015.Topsoil C/N ratios in the Qilian Mountains area: Implications for the use of subaqueous sediment C/N ratios in paleo-environmental reconstructions to indicate organic sources.Palaeogeography Palaeoclimatology Palaeoecology,426:1-9.

2014年度

(共发表SCI论文106篇。第一作者第一单位发表SCI论文69篇,其中，一区5篇，二区19篇)

第一作者第一单位

1.An, C.-B.,Li, H.,Dong, W.-M.,Chen, Y.-F.,Zhao, Y.-T.,Shi, C., 2014.How prehistoric humans use plant resources to adapt to environmental change: A case study in the western Chinese Loess Plateau during Qijia Period. Holocene，24(4)：512-517.（SCI-2,3.202）

2.Cao, B., Pan, B.-T.,Wang,J., Shangguan, D.-H., Wen, Z.-L., Qi, W.-T., 2014.Changes in the glacier extent and surface elevation along the Ningchanand Shuiguan river source, eastern Qilian Mountains, China.Quaternary Research,81(3): 531-537.（SCI-3,2.434）

3.Chen,F.-H.,Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Jia, X., An, C.-B., Ma, M.-M., Xie, Y.-W., Barton, L., Ren, X.-Y., Zhao, Z.-J., Wu, X.-H., Jones, M.-K., 2014.Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science,（SCI-1,31.235）

4.Chen,F.-H.,Li,G.-Q.,Zhao,H.,Jin,M.,Chen,X.-M.,Fan,Y.-X.,Liu,X.-K.,Wu,D.,Madsen,D.,2014. Landscape evolution of the Ulan Buh Desert in northern China during the late Quaternary.Quaternary Research,81(3): 476-487.（SCI-3,2.434）

5.Chen, F.-H.,Chen, X.-M.,Chen, J.-H.,Zhou, A.-F.,Wu, D.,Tang, L.-Y.,Zhang, X.-J., Huang, X.-Z.,Yu, J.-Q., 2014.Holocene vegetation history, precipitation changes and Indian Summer Monsoon evolution documented from sediments of Xingyun Lake, south-west China. Journal of Quaternary Science, 29(7):661-674.（SCI-2,2.636）

6.Chen,G.,Meng,X.-M.,Tan,L.,Zhang., F.-Y.,Qiao, L.,2014. Comparison and combination of different models foroptimal landslide susceptibility zonation. Quarterly Journal of Engineering Geology and Hydrogeology, 47:283-306.（SCI-4,0.707）

7.Chen, J.-H.,Zhang, E.-L.,Brooks, S.-J.,Huang, X.-Z.,Wang, H.-P.,Liu, J.-B.,Chen, F.-H., 2014.Relationshipsbetween chironomids and water depth in Bosten Lake, Xinjiang, northwest China.Journal of Paleolimnology, 51(2):313-323.（SCI-3,2.082）

8.Chen, J.-S.,Liu, X.-M.,Kravchinsky, V.-A., 2014.Response of the high-resolution Chinese loess grain size record to the 50 degrees N integrated winter insolation during the last 500,000 years. Geophysical Research Letters, 41(17):6244-6251.（SCI-2,4.077）

9.Chen, X.-M.,Chen, F.-H.,Zhou, A.-F.,Huang, X.-Z.,Tang, L.-Y.,Wu, D.,Zhang, X.-J.,Yu, J.-Q., 2014.Vegetation history, climatic changes and Indian summer monsoon evolution during the Last Glaciation (36,400-13,400 cal yr BP) documented by sediments from Xingyun Lake, Yunnan, China.PalaeogeographyPalaeoclimatologyPalaeoecology, 410:179-189.（SCI-2,2.630）

10.Dai, S.,Zhang, M.-Z.,Peng, D.-X.,Wang, H.-W.,Wu, M.-X.,Chen, R.-L.,Zhang, X., 2014.Tectonic and Environmental Evolutions of the Northern Tibetan Plateau Prior to the Collision of India with Asia. ActaGeologicaSinica-English Edition, 88(2):425-443.（SCI-4,1.408）

11.Deng,Y.,Gou, X.-H., Gao,L.-L.,Yang,T.,Yang, M.-X., 2014. Early-summer temperature variations over the past 563 years inferred from tree rings in the Shaluli Mountains, southeastern Tibet Plateau. Quaternary Research, 81(3): 513-519.（SCI-3,2.434）

12.Ding, W.-G.,Wang, L.-J.,Chen, B.-Y.,Xu, L.,Li, H.-X., 2014.Impacts of renewable energy on gender in rural communitiesofnorth-west China.Renewable Energy 69:180-189.（SCI-2,3.109）

13.Ding, W.-G.,Xu, L.,Ye, W.-F., 2014.A comparative study of bioenergy consumption and CO2 emissions in Tibetan region of China.Renewable Energy,71:344-350.（SCI-2,3.109）

14.Dong, G.-H.,Wang, Z.-L.,Ren, L.-L.,Matuzeviciute, G.-M.,Wang, H.,Ren, X.-Y.,Chen, F.-H., 2014.A Comparative Study of 14C Dating on Charcoal and Charred Seeds from Late Neolithic and Bronze Age Sites in Gansu and Qinghai Provinces, NW China.Radiocarbon, 56(1):157-163.（SCI-3,1.648）

15.Dong, G.-H.,Zhang, F.-Y., Ma, M.-M., Fan, Y.-X., Zhang, J.-W., Wang, Z.-L.,Chen,F.-H., 2014.Ancient landslide-dam events in the Jishi Gorge, upper Yellow River valley, China.Quaternary Research, 81(3): 445-451.（SCI-3,2.434）

16.Gou, X.-H., Deng,Y.,Chen,F.-H.,Yang,M.-X.,Gao,L.-L.,Nesje,A.,Fang, K.-Y.,2014.Precipitation variations and possible forcing factors on the Northeastern Tibetan Plateau during the last millennium.Quaternary Research.81(3): 508-512.（SCI-3,2.434）

17.Guan, Q.-Y.,Wang, L.-J.,Wang, L.,Pan,.-B.,TZhao, S.-L.,Zheng, Y., 2014.Analysis of trace elements (heavy metal based) in the surface soils of a desert-loess transitional zone in the south of the Tengger Desert. Environmental Earth Sciences, 72(8):3015-3023.（SCI-4,1.370）

18.Jia, H.,Manchester, S.-R., 2014.Fossil Leaves and Fruits of Cercis L.(Leguminosae) from the Eocene of Western North America. International Journal of Plant Sciences, 175(5):601-612.（SCI-4,1.624）通讯非,无原文

19.Jin, L.-Y.,Schneider, B.,Park, W.,Latif, M.,Khon, V.,Zhang, X.-J., 2014.The spatial-temporal patterns of Asian summer monsoon precipitation in response to Holocene insolation change: a model-data synthesis.Quaternary Science Reviews, 85:47-62.（SCI-1,4.207）

20.Hu, Y.-H.,Nan, Z.-R.,Jin, C.,Wang, N.,Luo, H.-Z., 2014.Phytoextraction potential of poplar(POPULUS ALBA L. VAR. PYRAMIDALIS BUNGE)fromcalcareousagricultural soils contaminated by cadmium.International Journal of Phytoremediation, 16(5):482-495.（SCI-4,1.314）

21.Huang, T.,Guo, Q.,Tian, H.,Mao, X.-X.,Ding, Z.-Y.,Zhang, G.,Li, J.,Ma, J.-M.,Gao, H.,2014.Assessing spatial distribution, sources, and human health risk of organochlorine pesticide residues in the soils of arid and semiarid areas of northwest China. Environmental Science and Pollution Research, 21(9):6124-6135.（SCI-3,2.675）

22.Li, C.-B., Qi, J.-G., Wang, S.-B., Yang, L.-S., Yang, W.-J., Zou, S.-B., Zhu, G.-F., Li, W.-Y., 2014.A Holistic System Approach to UnderstandingUnderground Water Dynamics in the Loess Tableland:A Case Study of the Dongzhi Loess Tablelandin Northwest China.Water ResourcesManagement,28:2937–2951.（SCI-3,2.259）

23.Li, C.-B., Qi, J.-G., Yang, L.-S.Yang, W.-J., Zhu, G.-F., Wang, S.-B.,2014. The Variability of the Snow and Ice Melt in Alpine Rivers in Northwestern China. Journal of Mountain Science. 11(4): 884-895.（SCI-4,0.809）

24.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang, W.-J., Zhu, G.-F., Zou, S.-B., Zhang, F., 2014.Regional vegetation dynamics and its response to climate change-a case study in the Tao River Basin in Northwestern China.Environmental Research Letters, 9(12):125003.

25.Li,G.-Q., Dong, G.-H., Wen, L.-J., Chen, F., 2014. Overbank flooding and human occupation of the Shalongka site in the Upper Yellow River Valley, northeast Tibet Plateau in relation to climate change since the last deglaciation. Quaternary Research，82，354-365.（SCI-3,2.434）

26.Li,G.-Q.,Jin,M.,Wen, L.-J.,Zhao,H., Madsen,D.,Liu,X.-K.,Wu,D.,Chen, F.-H.,2014. Quartz and K-feldspar optical dating chronology of eolian sand and lacustrine sequence from the southern Ulan Buh Desert, NW China: Implications for reconstructing late Pleistocene environmental evolution, Palaeogeography Palaeoclimatology Palaeoecology, 393: 111-121.（SCI-2,2.630）

27.Li, H.,Xu, D.-Y.,Zhao, Y., 2014.Peatlandarea change in the southern Altay Mountains over the last twenty years based on GIS and RS analysis. Frontiers of Earth Science, 8(4):558-563.（SCI-4,0.299）通讯非

28.Li, J.-J.,Fang, X.-M.,Pan, B.-T.,Ma, Y.-Z.,Yan, M.-D., 2014.Late Miocene–Quaternary rapid stepwise uplift of the NE Tibetan Plateauand its effects on climatic and environmental changes.Quaternary Research,81(3): 400-423.（SCI-3,2.434）

29.Li,Z.-J.,Sun D.-H., Chen, F.-H.,Wang,F., Zhang,Y.-B., Guo,F., Wang,X., Li,B.-F., 2014. Chronology and paleoenvironmental records of a drill core in the central Tengger Desert of China. Quaternary Science Reviews 85:85-98.（SCI-1,4.207）

30.Liu, J.,Zhang, T.-J., 2014.Fundamental solution method for reconstructing past climate change from borehole temperature gradients. Cold Regions Science and Technology, 102: 32-40.（SCI-3,1.389）(通讯非)

31.Liu, J.-B.,Chen, F.-H.,Chen, J.-H.,Zhang, X.-J.,Liu, J.,Bloemendal, J., 2014.Weakening of the East Asian summer monsoon at 1000-1100 A.D. within the Medieval Climate Anomaly: Possible linkage to changes in the Indian Ocean-western Pacific.Journal of Geophysical Research, 119(5):2209-2219.（SCI-2,3.212）

32.Liu, J.-B.,Chen, J.-H.,Selvaraj, K.,Xu, Q.-H.,Wang, Z.-L.,Chen, F.-H., 2014.Chemical weathering over the last 1200 years recorded in the sediments of Gonghai Lake, Lvliang Mountains, North China: a high-resolution proxy of past climate. Boeras, 43(4):914-923.（SCI-3,2.250）

33.Liu, L.-C.,Dong, X.-F.,Liu, X.-G., 2014.Quantitative Study of the Network Tendency of the Urban System in China. Journal of Urban Planning and Development. 140(2):15013003.（SCI-4,0.970）通讯非

34.Ma, M.-M., Dong, G.-H., Lightfoot, E., Wang, H., Liu, X.-Y., Jia, X., Zhang, K.-R., Chen, F.-H., 2014. Stable Isotope Analysis of Human and Faunal Remains in the Western Loess Plateau, Gansu, China, approximately 4000 Cal BP. Archaeometry, 56 Suppl, 237–255.（SCI和A&HCI共同收录）（SCI-4,1.266）

35.Ma, M.-M.,Dong, G.-H.,Chen, F.-H.,Meng, X.-M.,Wang, Z.-L.,Elston, R.,Li, G.-Q., 2014.Processofpaleofloods in Guanting basin, Qinghai Province, China and possible relation to monsoon strength during the mid-Holocene.Quaternary International, 321:88-96.（SCI-3,1.988）

36.Madsen,D.-B.,Lai, Z.-P.,Sun, Y.-J.,Rhode, D.,Liu, X.-J.,Brantingham, P.-J.., 2014.LateQuaternary Qaidam lake histories and implications for an MIS 3 "Greatest Lakes" period in northwest China.Journal of Paleolimnology, 51(2):161-177.（SCI-3,2.082）

37.Mao, X.-X.,Gao, H.,Huang, T.,Zhang, L.-S.,Ma, J.-M., 2014.Modeling global persistent organic chemicals in clouds. Atmospheric Environment, 96: 345-352.（SCI-2,3.212）

38.Nie, J.-S.,Zhang, R.,Necula, C.,Heslop, D.,Liu, Q.-S.,Gong, L.-S.,Banerjee, S., 2014.Late Miocene- early Pleistocene paleoclimate history of the Chinese Loess Plateau revealed by remanence unmixing. Geophysical Research Letters, 41(6):2163-2168.（SCI-2,4.077）

39.Nie, J.-S.,Peng, W.-B., 2014.Automated SEM-EDS heavy mineral analysis reveals no provenance shift between glacial loess and interglacial paleosol on the Chinese Loess Plateau. Aeolian Research, 13:71-75.（SCI-3,2.513）

40.Nie, J.-S.,Peng, W.-B.,Möller, A.,Song, Y.-G.,Stockli,D.-F.,Stevens, T.,Horton,B.-K.,Liu,S.-P.,Bird,A.,Oalmann,J.,Gong,H.-J.,Fang, X.-M.,2014.Provenance of the upper Miocene–Pliocene Red Clay deposits of the Chinese loess plateau.Earth and Planetary Science Letters, 407:35-47.（SCI-1,4.418）

41.Nie, J.-S.,Stevens, T.,Song, Y.-G.,King, J.-W.,Zhang, R.,Ji, S.-C.,Gong, L.-S.,Cares, D., 2014.Pacific freshening drives Pliocene cooling and Asian monsoon intensification. Scientific Reports, 4:5474.（SCI-2,4.003）

42.Pan, B.-T.,Guan, Q.-Y.,Gao, H.-S.,Guan, D.-S.,Liu, F.-L.,Li, Z.-M.,Su, H., 2014.The origin and sources of loess-like sediment in the Jinsha River Valley, SW China.Boreas, 43(1):121-131.（SCI-3,2.250）

43.Qiang, M.-R.,Liu, Y.-Y.,Jin, Y.-X.,Song, L.,Huang, X.-T.,Chen, F.-H., 2014.Holocene recordofeolian activity from Genggahai Lake, northeastern Qinghai- Tibetan Plateau, China.Geophysical Research Letters, 41(2):589-595.（SCI-2,4.077）

44.Qin, S.-S.,Liu, F.,Wang, J.-Z.,Sun, B.-B.,2014.Analysis and forecasting of the particulate matter (PM) concentration levels over four major cities of China using hybrid models. Atmospheric Environment, 98:665-675.(通讯非)（SCI-2,3.212）

45.Rao, Z.-G.,Jia, G.-D.,Qiang, M.-R.,Zhao, Y., 2014.Assessment of the difference between mid- and long chain compound specific delta Dn-alkanes values in lacustrine sediments as a paleoclimatic indicator. Organic Geochemistry, 76:104-117.（SCI-2,2.710）

46.Wang, B.,Xia, D.-S.,Yu, Y.,Jia, J.,Xu, S.-J., 2014.Magnetic properties of urban soils from typical oasis cities and their environmental implications. Chinese Journal of Geophysics-Chinese Edition, 57(3):891-905.（SCI-4,0.671）

47.Wang, B., Xia, D.-S.,Yu, Y., Jia, J., Xu, S.-J., 2014.Detection and differentiation of pollution in urban surface soils using magnetic properties in arid and semi-arid regions of northwestern China.Environmental Pollution, 184(SI):335-346.（SCI-2,3.793）

48.Wang, B.,Chu, K.-W.,Yu, A.-B.,Vince, A., 2014.Computationalinvestigation of the mechanisms of the "breakaway" effect in a dense medium cyclone. Minerals Engineering, 62(SI): 111-119.（SCI-3,1.424）通讯非

49.Wang, H.-P.,Chen, J.-H.,Zhang, X.-J.,Chen, F.-H., 2014.Palaeosol development in the Chinese Loess Plateau as an indicator of the strength of the East Asian summer monsoon: Evidence for a mid-Holocene maximum.Quaternary International, 334:155-164.（SCI-3,1.988）

50.Wang, X.,Sun, D.-H.,Chen, F.-H.,Wang, F.,Li, B.-F.,Popov, S.-V.,Wu, S.,Zhang, Y.-B.,Li, Z.-J., 2014,Cenozoic paleo-environmental evolution of the Pamir–Tien Shan convergence zone.Journal of Asian Earth Sciences, 80:84-100（SCI-3,2.454）

51.Wang, Y.-B., Niu, F.-J., Wu, Q.-B., Gao, Z.-Y., 2014.Assessing soil erosion and control factors by radiometric technique in thesource region of the Yellow River, Tibetan Plateau.Quaternary Research,81(3): 538-544.（SCI-3,2.434）

52.Wang, Z.-L.,Zhao, H.,Dong, G.-H.,Zhou, A.-F.,Liu, J.-B.,Zhang, D.-J., 2014.Reliability of radiocarbon dating on various fractions of loess-soil sequence for Dadiwan section in the western Chinese Loess Plateau. Frontiers of Earth Science, 8(4):540-546.（SCI-4,0.299）

53.Wei, G.-X.,Chen, F.-H.,Ma, J.-Z.,Dong, Y.,Zhu, G.-F.,Edmunds, W.-M., 2014.Groundwater recharge and evolution of water quality in China's Jilantai Basin based on hydrogeochemical and isotopic evidence. Environmental Earth Sciences, 72(9):3491-3506.（SCI-4,1.370）

54.Wei, G.-X.,Zhou, Z.-F.,Guo, Y.,Dong, Y.,Dang, H.-H.,Wang, Y.-B.,Ma, J.-Z.,2014.Long-Term Effects of Tillage on Soil Aggregates and the Distribution of Soil Organic Carbon, Total Nitrogen, and Other Nutrients in Aggregates on the Semi-Arid Loess Plateau, China.AridLand Research and Management, 28(3):291-310.（SCI-4,0.550）

55.Xia, D.-S.,Jia, J.,Zhao, S.,Wei, H.-T.,Chen,F.-H., 2014.Out-of-phase evolution between summer and winter East Asianmonsoons during the Holocene as recorded by Chinese loess deposits.Quaternary Research,81(3): 500-507.（SCI-3,2.434）

56.Xia, D.-S.,Wang, B.,Yu, Y.,Jia, J.,Nie, Y.,Wang, X.,Xu, S.-J., 2014.Combination of magnetic parameters and heavy metals to discriminate soil-contamination sources in Yinchuan - A typical oasis city of Northwestern China.Science of the Total Environment, 485:83-92.（SCI-2,3.236）

57.Xie, Y.-C.,Gong, J.,Sun, P.,Gou, X.-H., 2014.Oasis dynamics change and its influence on landscape pattern on Jinta oasis in arid China from 1963a to 2010a: Integration of multi-source satellite images.International Journal of Applied Earth Observation and Geoinformation, 33:181-191.（SCI-3,2.153）

58.Yan, X.-L.,Miao, Y.-F.,Zan, J.-B.,Zhang, W.-L.,Wu, S., 2014.Late Cenozoic fluvial-lacustrine susceptibility increases in the Linxia Basin and their implications for Tibetan Plateau uplift.Quaternary International,334：132-140.（SCI-3,1.988）通讯非

59.Zeng, R.-Q.,Meng, X.-M.,Wasowski, J.,Dijkstra, T.,Boveng, F.,Xue,Y.-T.,Wang, S.-Y.,2014. Ground instability detection using PS-InSAR in Lanzhou, China. Quarterly Journal of Engineering Geology and Hydrogeology, 47:307-321.（SCI-4,0.707）

60.Zhang, L.-H., Wang, S.-G., Zhang, Y., He, C.-S., Jin, X., 2014.Development of an Instant Correction and Display System of NumericalWeather Prediction Products in China.Chinese Geographical Science,24(6): 682-693.（SCI-4,0.576）

61.Zhang, M.-Z.,Dai, S.,Pan, B.-T.Wang, L.-B.,Peng, D.-X.,Wang, H.-W.,Zhang, X., 2014.The palynoflora of the Lower Cretaceous strata of the Yingen-Ejinaqi Basin in North China and their implications for the evolution of early angiosperms.Cretaceous Research, 48:23-38.（SCI-3,1.852）

62.Zhang, M.-Z.,Dai, S.,Ulrich H.,Wu, M.-X.,Wang, Z.-X.,Pan, B.-T.,2014.Palynological records from two cores in the Gongpoquan Basin, centralEast Asia: Evidence for floristic and climatic change during the LateJurassic to Early Cretaceous.Review of Palaeobotany and Palynology, 204: 1-17.（SCI-3,1.744）

63.Zhang, T.,Fang, X.-M.,Song, C.-H.,Appel, E.,Wang, Y.-D., 2014.Cenozoic tectonic deformation and uplift of the South Tian Shan: Implications from magnetostratigraphy and balanced cross-section restoration of the Kuqa depression. Tectonophysics, 628:172-187（SCI-2,2.661）

64.Zhang, X.-F., Zhang, L.-H., He, C.-S., Li, J.-L.,Jiang, Y.-W., Ma, L.-B., 2014.Quantifying the impacts of land use/land cover changeon groundwater depletion in Northwestern China – Acasestudy of the Dunhuang oasis.Agricultural Water Management, 146:270-279.（SCI-2,2.178）

65.Zhang, Y.-B.,Sun, D.-H.,Li, Z.-J.,Wang, F.,Wang, X.,Li, B.-F.,Guo, F.,Wu, S., 2014.Cenozoic recordofaeolian sediment accumulation and aridification from Lanzhou, China, driven by Tibetan Plateau uplift and global climate. Global and Planetary Change, 120:1-15.（SCI-3,3.264）

66.Zhao, J.-J.,An, C.-B.,Longo, W.-M.,Dillon, J.-T.,Zhao, Y.-T.,Shi, C.,Chen, Y.-F.,Huang, Y.-S., 2014.Occurrence of extended chain length C-41 and C-42 alkenones in hypersaline lakes. Organic Geochemistry, 75:48-53.（SCI-2,2.710）

67.Zhu, G.-F.,Lu, L.,Su, Y.-H.,Wang, X.-F.,Cui, X.,Ma, J.-Z.,He, J.-H.,Zhang, K.,Li, C.-B., 2014.Energy flux partitioning and evapotranspiration in a sub-alpine spruce forest ecosystem.Hydrological Processes, 28(19):5093-5104.（SCI-3,2.597）

68.Zhu, G.-F.,Li, X.,Su, Y.-H.,Zhang, K.,Bai, Y.,Ma, J.-Z.,Li, C.-B.,Hu, X.-L.,He, J.-H., 2014.Simultaneously assimilating multivariate data sets into the two-source evapotranspiration model by Bayesian approach: application to spring maize in an arid region of northwestern China. Geoscientific Model Development, 7(4):1467-1482.（SCI-1,4.784）

69.Zhu, G.-F.,Su, Y.-H.,Li, X.,Zhang, K., Li, C.-B.,Ning, N., 2014.Modelling evapo-transpiration in an alpine grassland ecosystem on Qinghai-Tibetan plateau.Hydrological Processes, 28(3):610-619.（SCI-3,2.597）

第一作者第二三单位

70.Chen, F.,Yuan, Y.-J.,Chen, F.-H.,Yu, S.-L.,Shang, H.-M.,Zhang, T.-W.,Zhang, R.-B.,Qin, L., 2014.Reconstruction of spring temperature on the southern edge of the Gobi Desert, Asia, reveals recent climatic warming.PalaeogeographyPalaeoclimatologyPalaeoecology, 409:145-152.（SCI-2,2.630）

71.Chen, F.,Yuan, Y.-J.,Wei, W.-S.,Zhang, T.-W.,Shang, H.-M.,Zhang, R.-B.,, 2014.Precipitation reconstruction for the southern Altay Mountains (China) from tree rings of Siberian spruce, reveals recent wetting trend. Dendrochronologia, 32(SI 3):266-272.（SCI-3,1.567）

72.Dong, Z.-W.,Qin, D.-H.,Kang, S.-C.,Ren, J.-W.,Chen, J.-Z.,Cui, X.-Q.,Du, Z.-H.,Qin, X., 2014.Physicochemical characteristics and sources of atmospheric dust deposition in snow packs on the glaciers of western Qilian Mountains, China.Tellus Series B-Chemical and Physical Meteorology, 66: 20956.（SCI-2,3.780）

73.Fang,K.-Y.,Wilmking, M.,Davi, N.,Zhou, F.-F.,Liu, C.-Z., 2014.An Ensemble Weighting Approach for Dendroclimatology: Drought Reconstructions for the Northeastern Tibetan Plateau.Plos One, 9(1): e86689.（SCI-3,3.785）

74.He, C.-S.,Zhang, L.-H., ,DeMarchi, C.,Croley, T.-E., 2014.Estimating point and non-point source nutrient loads in the Saginaw Bay watersheds,Journal of Great Lakes Research.40(SI):11-17.（SCI-4,1.867）

75.Hou, Z.-F.,Li, J.-J.,Song, C.-H.,Zhang, J.,Hui, Z.-C.,Chen, S.-Y.,Xian, F., 2014.Understanding MioceneClimate Evolution in Northeastern Tibet: Stable Carbon and Oxygen Isotope Records from the Western Tianshui Basin, China. Journal of Earth Science, 25(2): 357-365.（SCI-4,0.418）

76.Lei, Y.-B.,Tian, L.-D.,Bird, B.-W.,Hou, J.-Z.,Ding, L.,Oimahmadov, I.,Gadoev, M., 2014.A 2540-year record of moisture variations derived from lacustrine sediment (Sasikul Lake) on the Pamir Plateau.Holocene,24(7):761-770.（SCI-2,3.202）

77.Niu, H.-W.,He, Y.-Q.,Lu, X.-X.,Shen, J.,Du, J.-K.,Zhang, T.,Pu, T.,Xin, H.-J.,Chang, L., 2014.Chemical composition of rainwater in the Yulong Snow Mountain region, Southwestern China.Atmospheric Research,144(SI):195-206.（SCI-3,2.177）

78.Niu, H.-W.,He, Y.-Q.,Desideri, U.,Zhang, P.-D.,Qin, H.-Y.,Wang, S.-J., 2014.Rural household energy consumption and its implications for eco-environments in NW China: A case study.Renewable Energy, 65(SI):137-145.（SCI-2,3.109）

79.Niu, H.-W.,He, Y.-Q.,Lu, X.-X.,Dong, Z.-W.,Zhao, G.-Y.,Zhang, T.,Du, J.-K., 2014.Characteristics of modern atmospheric dust deposition in snow in the Mt. Yulong region, southeastern Tibetan Plateau. Journal of Asian Earth Sciences, 94(SI):45-54.（SCI-3,2.454）

80.Song, Y.-G., Fang, X.-M.,King, W.-J.,Li, J.-J.,Naoto, I., An, Z.-S., 2014.Magneticparameter variations in the Chaona loess/paleosol sequences inthe central Chinese Loess Plateau, and their significance for the middlePleistocene climate transition.Quaternary Research,81(3):433-444.（SCI-3,2.434）

81.Wang, Y.-B.,Gao, Z.-Y.,Wen, J.,Liu, G.-H.,Geng, D.,Li, X.-B., 2014.Effect of a thermokarst lake on soil physical properties and infiltration processes in the permafrost region of the Qinghai-Tibet Plateau, China. Science China-Earth Sciences, 57(10):2357-2365.（SCI-4,1.247）

非第一作者单位

82.Dijkstra, T.-A.,Wasowski, J.,Winter,M.-G.,Meng,X.-M.,2014.Introduction to Geohazards of Central China.Quarterly Journal of Engineering Geology and Hydrogeology,47:195-199.（SCI-4,0.707）

83.Du, B.-X.,Zhang, M.-Z.,Dai, S.,Sun, B.-N., 2014.Discovery of Pseudofrenelopsis from the Lower CretaceousofLiupanshan Basin and its paleoclimatic significance. Cretaceous Research, 48:193-204.（SCI-3,1.852）

84.Fang, K.-Y.,Chen, F.,Sen, A.-K.,Davi, N.Huang, W.,Li, J.-B.,Seppa, H., 2014.Hydroclimate Variations inCentral and Monsoonal Asia over the Past 700 Years. Plos One, 9(8):e102751.（SCI-3,3.785）

85.Feng,S.,Hu, Q.,Huang, W.,Ho, C.-H.,Li, R.-P.,Tang, Z.-H., 2014.Projectedclimate regime shift under future global warming from multi-model, multi-scenario CMIP5 simulations.Global and Planetary Change, 112:41-52.（SCI-3,3.264）

86.Fu, L.,Zhang, L.-H.,He, C.-S., 2014.Analysis of Agricultural Land Use Change in the MiddleReach of the Heihe River Basin, Northwest China.International Journal of Environmental Research and Public Health, 11(3):2698-2712.（SCI-3,1.996）

87.Jian, S.-Q.,Zhao, C.-Y.,Fang, S.-M.,Yu, K., 2014.Characteristics of Caragana korshinskii and Hippophae rhamnoides stemflow and their significance in soil moisture enhancement in Loess Plateau, China.Journal of Arid Land, 6(1):105-116.（SCI-4,0.596）

88.Jian, S.-Q.,Zhao, C.-Y.,Fang, S.-M.,Yu, K., 2014.Soil water content and water balance simulation of Caragana korshinskii Kom. in the semiarid Chinese Loess Plateau. Journal of Hydrology and Hydromechanics, 62(2):89-96.（SCI-4,0.741）

89.Li, H.-M.,Qian, X.,Wei, H.-T.,Zhang, R.-B.,Yang, Y.,Liu, Z.,Hu, W.,Gao, H.-L.,Wang, Y.-L., 2014.Magnetic properties as proxies for the evaluation of heavy metal contamination in urban street dusts of Nanjing, Southeast China, Geophysical Journal International, 199(3):1354-1366.（SCI-2,2.666）

90.Li, J.-Y.,Zhao, Y.,Xu, Q.-H.,Zheng, Z.,Lu, H.-Y.,Luo, Y.-L.,Li, Y.-C.,Li, C.-H.,Seppa, H. 2014.Humaninfluence as a potential source of bias in pollen-based quantitative climate reconstructions.Quaternary Science Reviews, 99:112-121.（SCI-1,4.207）

91.Li, Z.-X.,Feng, Q.,Liu, W.,Wang, T.-T.,Cheng, A.-F.,Gao, Y.,Guo, X.-Y.,Pan, Y.-H.,Li, J.-G.,Guo, R., 2014.Study on the contribution of cryosphere to runoff in the cold alpine basin: A case study of Hulugou River Basin in the Qilian Mountains.Globaland Planetary Change, 122:345-361.（SCI-3,3.264）

92.Liu,B.,Jin, H.-L.,Sun, L.-Y.,Sun, Z.,Niu, Q.-H.,Xie, S.-B.,Li, G.-H., 2014.Holocene moisture change revealed by the Rb/Sr ratio of aeolian deposits in the southeastern Mu Us Desert, China.Aeolian Research, 13: 109-119.（SCI-3,2.513）

93.Liu, B.,Jin, H.-L.,Sun, L.-Y.,Su, Z.-Z.,Sun, Z.,Zhao, S.,Miao, Y.-F., 2014.Spatial-temporal differences in climate change at different altitudes, northeastern Qinghai-Tibetan Plateau during the Holocene period. International Journal of Earth Sciences, 103(6):1699-1710.（SCI-3,2.229）

94.Liu,L.,Schaefer, K.,Gusmeroli, A.,Grosse, G.,Jones, B.-M.,Zhang, T.-J.,Parsekian, A.-D.,Zebker, H.-A., 2014.Seasonalthaw settlement at drained thermokarst lake basins, Arctic Alaska.Cryosphere, 8(3):815-826.（SCI-2,3.808）

95.Liu, Q.-P.,Yang, Y.-C.,Tian, H.-Z.,Zhang, B.,Gu, L., 2014.Assessment of human impacts on vegetation in built-up areas in China based on AVHRR, MODIS and DMSP_OLS nighttime light data, 1992-2010. Chinese Geographical Science, 24(2):231-244.（SCI-4,0.576）

96.Long, H.,Shen, J.,Tsukamoto, S.,Chen, J.-H.,Yang, L.-H.,Frechen, M., 2014.Dry early Holocene revealed by sand dune accumulation chronology in Bayanbulak Basin (Xinjiang, NW China). Holocene, 24(5):614-626.（SCI-2,3.202）

97.MaM.-M.,Liu, X.-M.,Pillans, B.-J.,Li, P.-Y.,Lu, B.,Hu, S.-Y., 2014.Magnetic properties and particle-size analysis of dust-storm samples collected in Lanzhou and Sydney, Australian Journal of Earth Sciences, 61(5):765-774.（SCI-4,1.425）

98.Mischke,S.,Chen, F.-H., 2014.Introductionto "Late Pleistocene and Holocene climate change in continental Asia".Journal of Paleolimnology, 51(2):157-159.（SCI-3,2.082）

99.Qin, D.-H.,Yao, T.-D.,Zhou, S.-Z.,Chen, F.-H.,Meng, X.-M.,Zhang, T.-J.,A visionary geomorphologist and glaciologist: Professor Jijun Li on his eightieth birthday.Quaternary Research, 81(3):393-396.（SCI-3,2.434）

100.Qin, D.-H.,Yao, T.-D.,Chen, F.-H.,Zhang, T.-J.,Meng, X.-M., 2014.Uplift of the Tibetan Plateau and its environmental impacts.Quaternary Research,81(3):397-399（SCI-3,2.434）

101.Tang, Q.,He, C.-S.,He, X.-B.,Bao, Y.-H.,Zhong, R.-H.,Wen, A.-B., 2014.Farmers' Sustainable Strategies for Soil Conservation on Sloping Arable Lands in the Upper Yangtze River Basin, China. Sustainability, 6(8):4795-4806.（SCI-4,1.077）

102.Wang, J.-L.,Yang, B.,Qin, C.,Kang, S.-Y.,He, M.-H.,Wang, Z.-Y., 2014.Tree-ring inferred annual mean temperature variations on the southeastern Tibetan Plateau during the last millennium and their relationships with the Atlantic Multidecadal Oscillation.Climate Dynamics, 43(3-4):627-640.（SCI-1,4.484）

103.Wang, J.-Z.,Jin, S.-Q.,Qin, S.-S.,Jiang, H.-Y., 2014.Swarm Intelligence-Based Hybrid Models for Short-Term Power Load Prediction. MathematicalProblems in Engineering. MathematicaProblems in Engineering, No.712417.（SCI-4,1.081）

104.Yang, Y.-B.,Fang, X.-M.,Galy, A.,Li, M.-H.,Appel, E.,Liu, X.-M., 2014.Paleoclimatic significance of rare earth element record of thecalcareous lacustrine sediments from a long core (SG-1) in the western Qaidam Basin, NE Tibetan Plateau. Journal of Geochemical Exploration, 145:223-232.（SCI-3,1.941）

105.Zhang, W.-L.,Appel, E.,Fang, X.-M.,Song, C.-H.,Setzer, F.,Herb, C.,Yan, M.-D., 2014.Magnetostratigraphy ofdrill-core SG-1b in the western Qaidam Basin (NE Tibetan Plateau) and tectonic implications. Geophysical Journal International, 197(1):90-118.（SCI-2,2.666）

106.Zhao, Y.,Yu, Z.-C.,Tang, Y.,Li, H.,Yang, B.,Li, F.-R.,Zhao, W.-W.,Sun, J.-H.,Chen, J.-H.,Li, Q., 2014.Peatlandinitiation and carbon accumulation in China over the last 50,000 years.Earth-Science Reviews, 128: 139-146.（SCI-1,7.023）

2013年度

(共发表SCI论文100篇。第一作者第一单位发表SCI论文63篇,其中，一区2篇，二区22篇)

第一作者第一单位标注实验室

1.An, C.-B.,Tao, S.-C.,Zhao, J.-J.,Chen, F.-H.,Lv, Y.-B.,Dong, W.-M.,Li, H., Zhao, Y.-T., Jin, M.,Wang, Z.-L.,2013.Late Quaternary (30.7-9.0 cal ka BP) vegetation history in Central Asia inferred from pollen records of Lake Balikun, northwest China.Journal of Paleolimnology, 49(2): 145-154.（SCI-3,2.261）

2.Chang, G.-Y., 2013.Factors influencing water conservation behavior among urbanresidents in China’s arid areas. WaterPolicy,15(5):691-704.（SCI-4,1.051）

3.Chen, F.-H.,Liu, J.-B.,Xu, Q.-H.,Li, Y.-C.,Chen, J.-H.,Wei, H.-T.,Liu, Q.-S.,Wang, Z.-L.,Cao, X.-Y.,Zhang, S.-R., 2013.Environmental magnetic studies of sediment cores from Gonghai Lake: implications for monsoon evolution in North China during the late glacial and Holocene.Journal of Paleolimnology,49(3):447-464.（SCI-3,2.261）

4.Chen, F.-H.,Qiang, M.-R.,Zhou, A.-F.,Xiao, S.,Chen, J.-H., Sun, D.-H.,2013.A 2000-year dust storm record from Lake Sugan in the dust source area of arid China.Journal ofGeophysical Research: Atmospheres, 118(5):2149-2160.（SCI-2,3.166）

5.Dai, J.,Sun, B.-N.Xie, S.-P.,Lin, Z.-C.,Wu, J.-Y.,Dao, K.-Q.,2013.A new species of Carpinus (Betulaceae) from the Pliocene of Yunnan Province, China.Plant Systematics and Evolution,299(3):643-658（SCI-4,1.339）

6.Deng, S.-F.,Yang, T.-B.,Zeng, B.,Zhu, X.-F.,Xu, H.-J., 2013.Vegetation cover variation in the Qilian Mountains and its response to climate change in 2000-2011.Journal ofMountain Science, 10(6):1050-1062.（SCI-4,0.765）

7.Deng, Y.,Gou, X.-H.,Gao, L.-L.,Zhao,Z.-Q.,Cao, Z.-Y.,Yang, M.-X.,2013.Aridity changes in the eastern Qilian Mountains since AD 1856 reconstructed from tree-rings.Quaternary International, 283: 78-84.（SCI-3,1.868）

8.Ding, W.-G.,Wu, Y.,Li, Q., 2013.Cost Effectiveness Analysis of Household Biogas Plants in China.EnergySourcesPartB-EconomicsPlanning and Policy, 8(4):431-438.（SCI-4,0.749）

9.Dong,G.-H., Jia,X., Elston R., Chen F.-H., Li S.-C., Wang L., Cai L.-H, An C.-B.2013.Spatial and temporal variety of prehistoric human settlement and its influencing factors in the upper Yellow River valley, Qinghai Province, China.Journal of Archaeological Science, 40(5): 2538-2546.（SCI-3, 1.838）SSCI和A&HCI共同收录

10.Dong,G.-H., Wang,L., Cui,Y.-F., Robert,E., Chen,F.-H.,2013. The spatiotemporal pattern of the Majiayao cultural evolution and its relation to climate change and variety of subsistence strategy during late Neolithic period in Gansu and Qinghai Provinces, northwest China. Quaternary International. 316, 155-161. （SCI-3,1.868）

11.Du, B.-X.,Sun, B.-N.,Ferguson, D.-K.,Yan, D.-F.,Dong, C.,Jin, P.-H., 2013.Two Brachyphyllum species from the Lower Cretaceous of Jiuquan Basin, Gansu Province, NW China and their affinities and palaeoenvironmental implications.Cretaceous Research,41: 242-255.（SCI-3,1.624）

12.Fan, T.-L., Fan, Y.-X., Zhao, H., Chen, F.-H., Lai, Z.-P., 2013, Investigations on the degree of bleaching of quartz OSL signals using modern aeolian dust from western Loess Plateau, China. Geochronometria, 40(3): 165-176.（SCI-4,0.979）

13.Fan, Y.-X.,Chen, X.-L.,Fan, T.-L.,Jin, M.,Liu, J.-B.,Chen, F.-H., 2013.Sedimentary and OSL dating evidence for the development of the present Hobq desert landscape, northern China.ScienceChina-EarthSciences, 56(12):2037-2044.（SCI-4,1.224）

14.Fang, K.-Y.,Gou, X.-H.,Chen, F.-H.,Davi, N.,Liu, C.-Z.,2013.Spatiotemporal drought variability for central and eastern Asia over the past seven centuries derived from tree-ring based reconstructions.Quaternary International, 283: 107-116.（SCI-3,1.868）

15.Fang, K.-Y.,Frank, D.,Gou, X.-H.,Liu, C.-Z.,Zhou, F.-F.,Li, J.-B.,Li, Y.-J., 2013.Precipitation over the past four centuries in the Dieshan Mountains as inferred from tree rings: An introduction to an HHT-based method.Global and Planetary Change, 107: 109-118.（SCI-3,3.145）

16.Feng, S.,Fu, Q., 2013.Expansion of global drylands under a warming climate.Atmospheric Chemistry and Physics, 13(19):10081-10094.（SCI-1,5.446）

17.Gao, L.-L.,Gou, X.-H.Deng, Y.,Liu, W.-H.Yang, M.-X.,Zhao, Z.-Q., 2013.Climate-growth analysis of Qilian juniper across an altitudinal gradient in the central Qilian Mountains, northwest China.Trees-Structure and Function, 27(2): 379-388.（SCI-2,1.685）

18.Gao, L.-L.,Gou, X.-H.Deng, Y., Zhao, Z.-Q.,CaoZ.-y., 2013.Dendroclimatic response of Picea crassifolia along an altitudinal gradient in the eastern Qilian Mountains, northwest China. Arctic, Antarctic, and Alpine Research,45(4): 491-499.（SCI-3,1.448）

19.Gou, X.-H., Yang, T., Gao, L.-L., Deng, Y., Yang, M.-X., Chen, F.-H., 2013, A 457-year reconstruction of precipitation in the southeastern Qinghai-Tibet Plateau, China using tree-ring records. Chinese Science Bulletin, 58(10): 1107-1114.（SCI-3,1.242）

20.Guan, Q.-Y., Zhang, J.-D., Wang, L.-J., Pan, B.-T., Gui, H.-J., Zhang, C., 2013. Discussion of the relationship between dustfall grain size and the desert border, taking the southern border of the Tengger Desert and the southern dust deposit area as an example. Palaeogeography Palaeoclimatology Palaeoecology, 386, 1-7.（SCI-2,2.509）

21.Guan, Q.-Y., Wang, L.-J., Gui, H.-J., Pan, B.-T., Zhang, J.-D., 2013. The relationship between modern meteorological elements and the southern border of the Tengger Desert. Theoretical and Applied Climatology, 112, 461-467.（SCI-3,1.795）

22.Guan, Q.-Y., Pan, B.-T., Yang, J., Wang, L.-J, Zhao, S.-L., Gui, H.-J., 2013. The processes and mechanisms of severe sandstorm development in the eastern Hexi Corridor China, during the Last Glacial period. Journal of Asian Earth Sciences, 62, 769-775.（SCI-3,2.249）

23.Huang, T.,Li, X.-Y.,Tian, C.-G.,Yang, X.-M.,Wang, L.,Zhao, Y.,Ma, J.-M.,Gao,H., 2013.Gridded inventories of historical usage for selected organochlorine pesticides in Gansu Province, China.Environmental Science and Pollution Research, 20(10):7167-7174.（SCI-3,2.713）

24.Huang, W.,Chen, F.-H.,Feng, S.,Chen, J.-H.,Zhang, X.-J., 2013.Interannual precipitation variations in the mid-latitude Asia and their association with large-scale atmospheric circulation. Chinese Science Bulletin,58(32):3962-3968.（SCI-3,1.242）

25.Jia, J., Xia, D.-S., Wang, B., Zhao, S., Li, G.-H., Wei, H.-T., 2013, The investigation of magnetic susceptibility variation mechanism of Tien Mountains modern loess: Pedogenic or wind intensity model?Quaternary International, 296: 141-148.（SCI-3,1.868）

26.Jia, X.,Dong, G.-H.,Li, H., Brunson, K.,Chen, F.-H.,Ma, M.-M.,Wang, H.,An,C.-B.,Zhang,K.-R.,2013.The development of agriculture and its impact on cultural expansion during the late Neolithic in the Western Loess Plateau.China.Holocene，23(1): 85-92.（SCI-2,2.862）

27.Li, Q.-Y.,Pan, B.-T.,Hu, X.-F.,Hu, Z.-B.,Li, F.-Q.,Yang, S.-Z.,2013.Apatite Fission Track Constraints on the Pattern of Faulting in the North Qilian Mountain.Journal of Earth Science, 24(4):569-578（SCI-4,0.396）

28.Ma,J.-M.,Sverko,E., Su,Y.-S.,Zhang,J.-H.,Gao,H., 2013.Uptakeandmobilizationoforganicchemicalswithclouds:evidencefromahailsample.Environmentalscience&technology, 47(17): 9715-9721（SCI-1,5.104）

29.Ma, J.-Z.,Chen, L.-H.,He, J.-H.,Zhang, Y.-R.,Li, X.-H.,Edmunds, W.-M., 2013.Trends and periodicities in observed temperature, precipitation and runoff in a desert catchment: case study for the Shiyang River Basin in Northwestern China.Water and Environment Journal. 27(1): 86-98（SCI-4,0.818）

30.Ma,J.-Z., He,J.-H.,Qi,S., Zhu G.-F.,Zhao,W., Edmunds,W.-M., Zhao,Y.-P.,2013. Groundwater recharge and evolution in the Dunhuang Basin, Northwestern China. Applied Geochemistry,28:19-31.（SCI-3,1.967）

31.Ma, M.-M., Liu, X.-M., Hesse, P.-P., Lu, B., Guo, X.-L., Chen, J.-S., 2013, Magnetic properties of loess deposits in Australia and their environmental significance.Quaternary International, 296: 198-205.（SCI-3,1.868）

32.Nie, J.-S., Song, Y.-G., King, J.-W.,Zhang, R., Fang, X.-M., 2013, Six million years of magnetic grain-size records reveal that temperature and precipitation were decoupled on the Chinese Loess Plateau during similar to 4.5-2.6 Ma. Quaternary Research, 79(3): 465-470.（SCI-2,2.432）

33.Nie, J.-S., Peng, W.-B., Pfaff, K., Moller, A., Garzanti, E., Andò, S.,Stevens,T., Bird, A.,Chang, H.,Song, Y.-G.,Liu, S.-P.,Ji, S.-C.,2013, Controlling factors on heavy mineral assemblages in Chinese loess and Red Clay. Palaeogeography Palaeoclimatology Palaeoecology, 381: 110-118.（SCI-2,2.509）

34.Nie,J.-S., Jackson,M., King,J., and Fang X.-M., Characterizing the superparamagnetic grain distribution of Chinese red-clay sequences by thermal fluctuation tomography. Global and Planetary Change, 110:364-367.（SCI-3,3.145）

35.Niu, H.-W.,He, Y.-Q.,Zhu, G.-F.,Xin, H.-J.,Du, J.-K.,Pu, T.,Lu, X.-X.Zhao, G.-Y., 2013.Environmental implications of the snow chemistry from Mt. Yulong, southeastern Tibetan Plateau.Quaternary International,313:168-178.（SCI-3,1.868）

36.Pan, B.-T., Hu, X.-F., Gao, H.-S., Hu, Z.-B., Cao, B, Geng, H.-P., Li, Q.-Y., 2013.Late Quaternary river incision rates and rock uplift pattern of the eastern Qilian Shan Mountain, China.Geomorphology,184:84-97.（SCI-2,2.475）

37.Pan, B.-T., Li, Q.-Y., Hu, X.-F., Geng, H.-P., Liu, Z.-B., Jiang, S.-F., Yuan, W.-M., 2013.Cretaceous and Cenozoic cooling history of the eastern Qilian Shan, north-eastern margin of the Tibetan Plateau: evidence from apatite fission-track analysis.TERRA NOVA, 25(6):431-438.（SCI-2,2.444）

38.Qiang, M.-R., Chen, F.-H., Song, L., Liu, X.-X., Li, M.-Z., Wang, Q., 2013, Late Quaternary aeolian activity in Gonghe Basin, northeastern Qinghai-Tibetan Plateau, China. Quaternary Research, 79(3): 403-412.（SCI-2,2.432）

39.Qiang, M.-R., Song, L., Chen, F.-H., Li, M.-Z., Liu, X.-X., Wang, Q., 2013, A 16-ka lake-level record inferred from macrofossils in a sediment core from Genggahai Lake, northeastern Qinghai-Tibetan Plateau (China). Journal of Paleolimnology, 49(4): 575-590.（SCI-3,2.261）

40.Rao, Z.-G.,Chen, F.-H., Cheng, H., Liu, W.-G., Wang, G.-A., Lai, Z.-P.,Bloemendal, J., 2013.High-resolution summer precipitation variations in the western Chinese Loess Plateau during the last glacial.Scientific Reports, 3:2785.（SCI-2,2.927）

41.Rao, Z.-G., Xu, Y.-B., Xia, D.-S., Xie, L.-H., Chen, F.-H., 2013.Variation and paleoclimatic significance of organic carbon isotopes of Ili loess in arid Central Asia.ORGANIC Geochemistry, 63:56-63.（SCI-2,2.559）

42.Shi, P.-H., Yang, T.-B., Tian, Q.-C., Jiang, S., Fan, Z., Wang, J.-Y., 2013, Loess record of climatic changes during MIS 12-10 in the Jingyuan SCItion, northwestern Chinese Loess Plateau.Quaternary International, 296: 149-159.（SCI-3,1.868）

43.Tang, Q.-Y.,Zhang, M.-J.,Li, C.-S.,Yu, M.,Li, L.-W., 2013.The chemical compositions and abundances of volatiles in the Siberian large igneous province: Constraints on magmatic CO2 and SO2 emissions into the atmosphere.Chemical Geology, 339( SI): 84-91.（SCI-2,3.465）

44.Wang, B.,Xia, D.-S.,Yu, Y.,Jia, J.,Xu, S. J., 2013.Magnetic properties of river sediments and their relationship with heavy metals and organic matter in the urban area in Lanzhou, China.Environmental Earth Sciences, 70(2): 605-614.（SCI-4,1.190）

45.Wang, B.,Xia, D.-S.,Yu, Y.,Jia, J.,Xu, S.-J.,2013.Magnetic records of heavy metal pollution in urban topsoil in Lanzhou, China.Chinese Science Bulletin, 58(3):384-395.（SCI-3,1.242）

46.Wang, J.,Pan, B.-T.,Zhang, G.-L.,Cui, H.,Cao, B.,Geng, H.-P., 2013.Late Quaternary glacial chronology on the eastern slope of Gongga Mountain, eastern Tibetan Plateau, China.Science China-Earth Sciences, 56(3): 354-365.（SCI-4,1.224）

47.Wang, J., Kassab, C., Harbor, J.-M., Caffee, M.-W., Cui, H., Zhang, G.-L., 2013, Cosmogenic nuclide constraints on late Quaternary glacial chronology on the Dalijia Shan, northeastern Tibetan Plateau. Quaternary Research, 79(3): 439-451.（SCI-2,2.432）

48.Wang,X., Sun,D.-H., Wang,F., Li,B.-F., Wu,S., Guo,F., Li,Z.-J., Zhang,Y.-B.,Chen,F.-H., 2013. A high-resolution multi-proxy record of late Cenozoic environment change from central Taklimakan Desert, China. Climate of the Past 9, 2731-2739.（SCI-2,3.295）

49.Wang, X.-X.,Zattin, M.,Li, J.-J.,Song, C.-H.,Chen, S.,Yang, C.,Zhang, S.-D.,Yang, J.-W., 2013.Cenozoic Tectonic Uplift History of Western Qinling: Evidence from Sedimentary and Fission-Track Data.Journal of Earth Science, 24(4): 491-505.（SCI-4,0.396）

50.Wang,Y.-S.,Yang, Z.-Y.,Zhou,S.-R.,Soininen,J.,Ai,D., Li,Y.-L.,Chu,C.-J.,2013.The Effect of Positive Interactions on Temporal TurnoverofCommunity Composition along an EnvironmentalGradient.Plos One,8(11):e78698.（SCI-2,4.078）

51.Wang,Y.-Q., Ma,J.-Z.,Zhang Y.-L., Zhao,M.-Z., Edmunds,W.-M.,2013. A new theoretical model accounting for film flow in unsaturated porous media.Water Resources Research 49 (8), 5021-5028.（SCI-2,2.948）

52.Wei, H.-T.,Banerjee, S.-K.,Xia, D.-S.,Jackson, M.-J.,Jia, J.,Chen, F.-H., 2013.Magnetic characteristics of loess-paleosol sequences on the north slope of the Tianshan Mountains, northwestern China and their paleoclimatic implications.Chinese Journal of Geophysics-Chinese Edition, 56(1):150-158.（SCI-4,0.740）

53.Xie, H.,Zhu, X., 2013.Reference evapotranspiration trends and their sensitivity to climatic change on the Tibetan Plateau (1970-2009).Hydrological Processes, 27(25):3685-3693.（SCI-3,2.497）

54.Yue, D.-X.,Guo, J.-J.,Hui, C., 2013.Scale dependency of biocapacity and the fallacy of unsustainable development.Journal of Environmental Management, 126: 13-19.（SCI-2,2.966）

55.Zhang, F.,Gou, X.-H..,Liu, W.-H.,Levia, D.-F.,Li, Y.-J., 2013.Individual and time-varying tree-ring growth to climate sensitivity of Pinus tabuliformis Carr. and Sabina przewalskii Kom. in the eastern Qilian Mountains, China.Trees-Structure and Function. 27(2): 359-370.（SCI-2,1.685）

56.Zhang, J.,Li, J.-J.,Song, C.-H.,Zhao, Z.-J.,Xie, G.-P.,Wang, X.-X.,Hui, Z.-C.,Peng, T.-J.,2013.PaleomagneticagesofMiocenefluvio-lacustrinesedimentsintheTianshuiBasin,westernChina.Journal of Asian Earth Sciences,62(SI):341-348.（SCI-3,2.249）

57.Zhang, J-H,Xia, D-S,Zhang, Y,Liu, Y-H, 2013.Magnetic investigation of peat sediments from the mountain in Arid Regions.Chinese Journal of Geophysics-Chinese Edition, 56(6):1974-1984.（SCI-4,0.740）

58.Zhang, M.-J.,Tang, Q.-Y.,Hu, P.-Q.,Ye, X.-R.,Cong, Y.-A., 2013.Noble gas isotopic constraints on the origin and evolution of the Jinchuan Ni-Cu-(PGE) sulfide ore-bearing ultramafic intrusion, Western China.Chemical Geology, 339(SI):301-312.（SCI-2,3.465）

59.Zhang, Z.-G., Han, W.-X., Fang, X.-M., Song, C.-H., Li, X.-Y., 2013, Late Miocene-Pleistocene aridification of Asian inland revealed by geochemical records of lacustrine-fan delta sediments from the western Tarim Basin, NW China. Palaeogeography Palaeoclimatology Palaeoecology, 377: 52-61.（SCI-2,2.509）

60.Zhao, G.-Y., Liu, X.-M., Chen, Q., Lv, B., Niu, H.-W., Liu, Z.,Li, P.-Y., 2013.Paleoclimatic evolution of Holocene loess and discussion of the sensitivity of magnetic susceptibility and median diameter.Quaternary International, 296: 160-167.（SCI-3,1.868）

61.Zhao, G.-Y., Liu, X.-M., Chen, Q., Lv, B., Chang, L., Niu, H.-W., Li, P.-Y., Guo, H., Liu, Z., 2013.A long-term increasing aridification and cooling trend at the Chinese Loess Plateau during the Pliocene.Quaternary International, 306: 121-128.（SCI-3,1.868）

62.Zhou, F.-F.,Gou, X.-H.,Zhang, J.-Z.,Zhao, Z.-Q.,Chen, Q.-Y.,Cao, Z.-Y.,2013.Application of Picea wilsonii roots to determine erosion rates in eastern Qilian Mountains, Northwest China.Trees-Structure and Function. 27(2): 371-378.（SCI-2,1.685）

63.Zhu,G.-F.,Su,Y.-H.,Li,X., Zhang,K., Li,C.-B., 2013.Estimating actual evapotranspiration from an alpine grassland on Qinghai-Tibetan plateau using a two-source model and parameter uncertainty analysis by Bayesian approach. Journal of Hydrology, 476:42-51.（SCI-2,2.711）

第一作者第二三单位只标注实验室

64.Chen, F.,Yuan, Y.-J.,Chen, F.-H., Wei, W.-S.,Yu, S.-L.,Chen, X.-J.,Fan, Z.-A.,Zhang, R.-B.,Zhang, T.-W.,Shang, H.-M.,Qin, L., 2013.A 426-year drought history for Western Tian Shan, Central Asia, inferred from tree rings and linkages to the North Atlantic and Indo-West Pacific Oceans.Holocene, 23(8): 1095-1104.（SCI-2,2.862）

65.Chen, F.,Yuan, Y.-J.Wei, W.-S., Fan, Z.-A., Yu, S.-L., Zhang, T.-W., Zhang, R.-B., Shang, H.-M., Qin, L.,2013,Reconstructed precipitation for the north-central China over the past 380 years and its linkages to East Asian summer monsoon variability.Quaternary International, 283,36-45.（SCI-3,1.868）第一作者第三单位

66.Chen, F.,Yuan, Y.-J.,Wei, W.-S.,Zhang, R.-B.,Yu, S.-L.,Shang, H.-M.,Zhang, T.-W.,Qin, L.,Wang, H.-Q.,Chen, F.-H.,2013.Tree-ring-based annual precipitation reconstruction for the Hexi Corridor, NW China: consequences for climate history on and beyond the mid-latitude Asian continent..Boreas, 42(4): 1008-1021.（SCI-2,2.473）第一作者第三单位

67.Chi, Y.-P.,Fang, X.-M., Song, C.-H.,Miao, Y.-F.,Teng, X.-H.,Han, W.-X.,Wu, F.-L.,Yang, J.-W., 2013.Cenozoic organic carbon isotope and pollen records from the Xining Basin, NE Tibetan Plateau, and their palaeoenvironmental significance.Palaeogeography Palaeoclimatology Palaeoecology, 386:436-444.（SCI-2,2.509）第一作者第二单位

68.Ding, Z.-Y.,Ma, J.-Z.,Zhao, W.,Jiang, Y.,Love, A., 2013.Profiles of geochemical and isotopic signatures from the Helan Mountains to the eastern Tengger Desert, northwestern China.JOURNAL of ARID ENVIRONMENTS, 90:77-87.（SCI-4,1.677）第一作者第二单位

69.Dong, Z.-W.,Qin, X.,Ren, J.-W.,Qin, D.-H.,Cui, X.-Q.,Chen, J.-Z., 2013.A 47-year high resolution chemistry record of atmospheric environment change from the Laohugou Glacier No. 12, north slope of Qilian Mountains, China.Quaternary International, 313:137-146.（SCI-3,1.868）

70.Lv, Y.-B., An, C.-B., Wang, Z.-L., Zhao, J.-J., Wei, H.-T.,Tao,S.-C.,Huang,W.,Ma,M.-M.,2013, Mid-Holocene climate change in the eastern Xinjiang region indicated by the grain size and stable isotope record from Lake Barkol, northwest China. Environmental Earth Sciences,68(8): 2163-2169.（SCI-4,1.190）

71.Pan, F.,Ma, J.-Z.,Zhou, X.-Y.,Edmunds,W.-M.,Gates, G.-B., 2013.Geostatistical characterization of soil moisture and chloride distribution in deep vadose profiles of the Badain Jaran Desert, Northwestern China.Environmental Earth Sciences, 70(3): 977-991.（SCI-4,1.190）

72.Qu, J.-S., Zeng, J.-J., Li, Y., Wang, Q., Maraseni, T., Zhang, L.-H., Zhang, Z.-Q., Clarke-Sather, A., 2013, Household carbon dioxide emissions from peasants and herdsmen in northwestern arid-alpine regions, China.Energy Policy, 57: 133-140.（SCI-1,2.698）

73.Wang, X.-M.,Hua, T.,Zhang, C.-X.,Qian, G.-Q.,Luo, W.-Y., 2013.Salts in the clay playas of China's arid regions: gone with the wind.Environmental Earth Sciences, 68(3): 623-631.（SCI-4,1.190）

非第一作者单位只标注实验室

74.Cheng, B,Chen, FH,Zhang, JW. 2013，Palaeovegetational and palaeoenvironmental changes since the last deglacial in Gonghe Basin, northeast Tibetan Plateau.Journalof Geographical Sciences, 23(1):136-146.（SCI-4,0.804）

75.Du, J.-K.,He, Y.-Q.,Li, S.,2013.Mass balance and near-surface ice temperature structure of Baishui Glacier No.1 in Mt. Yulong.Journal ofGeographical Sciences, 23(4):668-678.（SCI-4,0.804）

76.Guo, X.-L.,Liu, X.-M.,Li, P.-Y.,Lu, B.,Guo, H.,Chen, Q.,Liu, Z.,Ma, M.-M., 2013.The magnetic mechanism of paleosol S5 in the Baoji SCItion of the southern Chinese Loess Plateau.Quaternary International, 306:129-136.（SCI-3,1.868）

77.Li, J.-B.,Xie, S.-P.,Cook, E.-R.,Morales, M.-S.,Christie, D.-A.,Johnson, N.-C.,Chen, F.-H.,D'Arrigo, R.,Fowler, A.-M.,Gou, X.-H.,Fang, K.-Y., 2013.El Nino modulations over the past seven centuries.Nature Climate Change, 3(9):822-826（SCI-1,14.472）

78.Li, J.-M.,Yi, Y.-H.,Stamnes, K.,Ding, X.-D.,Wang, T.-H.,Jin, H.-C.,Wang, S.-S., 2013.A new approach to retrieve cloud base height of marine boundary layer clouds.Geophysical Research Letters, 40(16):4448-4453. （SCI-1,3.760）

79.Li, J.-Y.,Xu, Q.-H.,Gaillard-Lemdahl, M.-J.,Seppa, H.,Li, Y.-C.,Hun, L.-Y.,Li, M.-Y., 2013.Modern pollen and land-use relationships in the Taihang mountains, Hebei province, northern China-a first step towards quantitative reconstruction of human-induced land cover changes.Vegetation History and Archaeobotany, 22(6):463-477.（SCI-4,1.867）

80.Liu, S.-B.,Li, Y.,He, C.-S., 2013.Spectral Analysis and Estimations of Soil Salt and Organic Matter Contents.Soil Science, 178(3):138-146.（SCI-3,1.039）

81.Liu, X.-J.,Lai, Z.-P.,Zeng, F.-M.,Madsen, D.-B.,E, C.-Y.,2013.Holocene lake level variations on the Qinghai-Tibetan Plateau.International Journal of Earth Sciences, 102(7):2007-2016.（SCI-3,2.194）

82.Liu, X.-M., Lu, B., Li, P.-Y., Russell, F., Mao, X.-G.,G,H.,Ma,M.-M.,Zhao,G.-Y.. 2013, Effects of heating environments on thermomagnetic behaviors of synthetic maghemite. Chinese Journal of Geophysics-Chinese Edition, 56(5): 1560-1567.（SCI-4,0.740）

83.Lu, H.-Y.,Yi, S.-W.,Liu, Z.-Y.,Mason, J.-A.,Jiang, D.-B.,Cheng, J.,Stevens, T.,Xu, Z.-W.,Zhang, E.-L.,Jin, L.-Y.,Zhang, Z.-H.,Guo, Z.-T.,Wang, Y.,Otto-Bliesner, B.,2013.Variation of East Asian monsoon precipitation during the past 21 k.y. and potential CO2 forcing.Geology, 41(9):1023-1026.（SCI-1,3.908）

84.Lu, R.-J.,Gao, S.-Y.,Wang, Y.-J.,Ma, Y.-Z.,Qiang, M.-R.,Zhang, D.-S.,2013.Tree-ring based drought reconstruction at the northwestern margin of monsoon region of China since 1862.Quaternary International,283 93-97.（SCI-3,1.868）

85.Ma, M.-M.,Liu, X.-M.,Pillans, B.-J.,Hu, S.-Y.,Lv, B.,Liu, H.-F., 2013.Magnetic properties of Dashing Rocks loess at Timaru, South Island, New Zealand.Geophysical Journal International. 195(1): 75-85.（SCI-2,2.561）

86.Miao, Y.-F.,Wu, F.-L.,Herrmann, M.,Yan, X.-L.,Meng, Q.-Q., 2013.Late early Oligocene East Asian summer monsoon in the NE Tibetan Plateau: Evidence from a palynological record from the Lanzhou Basin, China.Journal of Asian Earth Sciences, 75: 46-57.（SCI-3,2.249）

87.Kassab, C.,Wang, J.,Harbor, J., 2013.Glacial geomorphology of the Dalijia Shan region, northeastern Tibetan Plateau.Journal of Maps, 9(1):98-105.（SCI-4,0.563）

88.Pan,F.,Ma, J.-Z.,Wang, Y.-Q.,Zhang, Y.-L.,Chen, L.-H.,Edmunds, W.-M., 2013.Simulation of the migration and transformation of petroleum pollutants in the soils of the Loess plateau: a case study in the Maling oil field of northwestern China. Environmental monitoring and assessment, 185(10):8023-8034.（SCI-4,1.476）

89.Tian, F.,Herzschuh, U.,Dallmeyer, A.,Xu, QH.,Mischke, S.,Biskaborn, BK., 2013.Environmental variability in the monsoon-westerlies transition zone during the last 1200 years: lake sediment analyses from central Mongolia and supra-regional synthesis.Quaternary Science Reviews, 73:31-47.（SCI-1,4.235）

90.Wang, J.-Y.,Fang, X.-M., Appel, E., Zhang, W.-L., 2013.Magnetostratigraphic and radiometric constraints on salt formation in the Qaidam Basin, NE Tibetan Plateau.Quaternary Science Reviews, 78:53-64.（SCI-1,4.235）

91.Wang, X.,Ding, W.-G.,Nan, Z.-R.,Liao, Q.,Wu, W.-F., 2013.Fraction of Cd in oasis soil and its bioavailability to commonly grown crops in Northwest China.Environmental Earth Sciences, 70(1):471-479（SCI-4,1.190）

92.Wu, Y., Zhu, Z.-Y., Qiu, S.-F., Rao, Z.-G., 2013.A rock magnetic record of Asian cooling and aridification processesduring 1.95–0.40 Ma in the southeastern Chinese Loess Plateau. Chinese Science Bulletin, 58(30):3636-3644.（SCI-3,1.242）

93.Xiao, L.,Yang, H.,Sun, B.-N.,Li, X.-C.,Guo, J.-F., 2013.Stable isotope compositions of recent and fossil sun/shade leaves and implications for palaeoenvironmental reconstruction.Review of Palaeobotany and Palynology, 190:75-84.（SCI-3,1.854）

94.Xu, Y.-D.,Fu, B.-J., He, C.-S., 2013.Assessing the hydrological effect of the check dams in the Loess Plateau, China, by model simulations.Hydrology and Earth System Sciences, 17(6):2185-2193.（SCI-2,3.066）

95.Yang, Y.-B.,Fang, X.-M.,Appel, E.,Galy, A.,Li, M.-H.,Zhang, W.-L., 2013.Late Pliocene-Quaternary evolution of redox conditions in the western Qaidam paleolake (NE Tibetan Plateau) deduced from Mn geochemistry in the drilling core SG-1.Quaternary Research, 80(3):586-595.（SCI-2,2.432）

96.Yang, Y.-B.,Fang, X.-M.,Galy, A.,Appel, E.,Li, M.-H., 2013.Quaternary paleolake nutrient evolution and climatic change in the western Qaidam Basin deduced from phosphorus geochemistry record of deep drilling core SG-1.Quaternary International, 313:156-167.（SCI-3,1.868）

97.Zhang, W.-L.,Fang, X.-M.,Song, C.-H.,Appel, E.,Yan, M.-D.,Wang, Y.-D., 2013.Late Neogene magnetostratigraphy in the western Qaidam Basin (NE Tibetan Plateau) and its constraints on active tectonic uplift and progressive evolution of growth strata,Tectonophysics. 599:107-116.（SCI-2,2.542）

98.Zhao, C.,Liu, Z.-H.,Rohling, E.-J.,Yu, Z.-C.,Liu, W.-G.,He, Y.-X.,Zhao, Y.,Chen, F.-H., 2013.Holocene temperature fluctuations in the northern Tibetan Plateau.Quaternary Research, 80(1): 55-65.（SCI-2,2.432）

99.Zheng, W.-J.,Zhang, H.-P.,Zhang, P.-Z.,Molnar, P.,Liu, X.-W.,Yuan, D.-Y., 2013.Late Quaternary slip rates of the thrust faults in western Hexi Corridor (Northern Qilian Shan, China) and their implications for northeastward growth of the Tibetan Plateau.Geosphere, 9(2):342-354.SCI-3,2.048）

100.Zheng, W.-J.,Zhang, Z.-Q.,Zhang, P.-Z.,Liu, X.-W.,Guo, X.,Pang, J.-Z.,Ge, W.-P.,Yu, J.-X., 2013.Seismogenic structure and mechanism of the 1954 M7(1/4) Shandan Earthquake, Gansu Province, Western China.Chinese Journal of Geophysics-Chinese Edition, 56(3): 916-928.（SCI-4,0.740）

An, C.-B.,Dong, W.-M., Li, H., Chen, Y.-F., 2013.Correspondenceregarding “Origin and spread of wheat in China” byDodson, J.R., Li, X., Zhou, X., Zhao, K., Sun, N., Atahan, P. (2013),Quaternary Science Reviews 72, 108-111.Quaternary Science Reviews, 81: 148-149.（SCI-1,4.235）第一作者第一单位

2012年度

(共发表SCI论文63篇。第一作者第一单位发表SCI论文40篇，其中，一区5篇，二区9篇，以合作单位发表Nature1篇)

第一作者第一单位只标注实验室

1.An, C.-B., Lv, Y.-B., Zhao, J.-J., Tao, S.-C., Dong, W.-M., Li, H., Jin, M., Wang, Z.-L., 2012. A high-resolution record of Holocene environmental and climatic changes from Lake Balikun (Xinjiang, China): Implications for central Asia. Holocene, 22(1): 43-52.（SCI-2, 2.595）

2.Chen, Q., Liu, X.-M., Heller, F., Hirt, A.-M., Lv, B., Guo, X.-L., Mao, X.-G., Chen, J.-S., Zhao, G.-Y., Feng, H., Guo, H., 2012. Susceptibility variations of multiple origins of loess from the Ily Basin (NW China). Chinese Science Bulletin, 57(15): 1844-1855.（SCI-3, 1.321）

3.Ding, W.-G., Niu, H.-W., Chen, J.-S., Du, J., Wu, Y., 2012. Influence of household biogas digester use on household energy consumption in a semi-arid rural region of northwest China. Applied Energy, 97: 16-23.（SCI-1, 5.106）

4.Ding, W.-G., Mi, X., Niu, H.-W., Chen, J.-S., 2012. A Comparative Study between the Newly Improved and Chinese National Standard Biogas Digesters in a Semi-arid Region of Northwest China. Energy Sources, Part A, Recovery, Utilization, and Environmental Effects. 34:1737–1744.（SCI-4，0.715）

5.Dong, G.-H., Jia, X., An, C. B., Chen, F.-H., Zhao, Y., Tao, S.-C., Ma, M.-M., 2012. Mid-Holocene climate change and its effect on prehistoric cultural evolution in eastern Qinghai Province, China. Quaternary Research, 77(1): 23-30.（SCI-2, 2.515）

6.Dong, G.-H., Yang, Y., Zhao, Y., Zhou, A.-F., Zhang, X.-J., Li, X.-B., Chen, F.-H.,2012.Human settlement and human-environment interactions during the historical period in Zhuanglang County, western Loess Plateau, China. Quaternary International. 281:78-83（SCI-3, 1.874）

7.Du, B.-X., Yan, D.-F., Sun, B.-N., Li, X.-C., Dao, K.-Q., Li, X.-Q., 2012.Cunninghamia praelanceolata sp nov with associated epiphyllous fungi from the upper Miocene of eastern Zhejiang, S.E China and their palaeoecological implications.Reviem of Palaeobotany and Palynology, 182:32-43.

8.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Cook, E., Li, J.-B., Li, Y.-J., 2012. Spatiotemporal variability of tree growth and its association with climate over Northwest China. Trees-Structure and Function, 26(5): 1471-1481.（SCI-2, 1.685）

9.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Frank, D., Liu, C.-Z., Li, J.-B., Kazmer, M., 2012. Precipitation variability during the past 400 years in the Xiaolong Mountain (central China) inferred from tree rings. Climate Dynamics, 39(7-8): 1697-1707.（SCI-1, 4.602）

10.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Li, Y.-J., Zhang, F., Kazmer, M., 2012. Tree growth and its association with climate between individual tree-ring series at three mountain ranges in north central China. Dendrochronologia, 30(2): 113-119.（SCI-3, 1.525）

11.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Liu, C.-Z., Davi, N., Li, J.-B., Zhao, Z. Q., Li, Y. J., 2012. Tree-ring based reconstruction of drought variability (1615-2009) in the Kongtong Mountain area, northern China. Global and Planetary Change, 80-81: 190-197.（SCI-3, 2.930）

12.Fu, P.-E., Tang, Q.-Y., Zhang, M.-J., Zhang, Z.-W., Li, L.-W., Li, W.-Y., 2012.Ore Genesis of the Kalatongke Cu-Ni Sulfide Deposits, Western China: Constraints from Volatile Chemical and Carbon Isotopic Compositions.Acta Geologica Sinica-english Edition, 86(3):568-578.

13.Gou, X.-H., Zhang, F., Deng, Y., Ettl, G.-J., Yang, M.-X., Gao, L.-L., Fang, K.-Y., 2012. Patterns and dynamics of tree-line response to climate change in the eastern Qilian Mountains, northwestern China. Dendrochronologia, 30(2): 121-126.（SCI-3, 1.525）

14.He, J.-H., Ma, J.-Z., Zhang, P., Tian, L.-M., Zhu, G.-F., Edmunds, W.-M., Zhang, Q.-H., 2012. Groundwater recharge environments and hydrogeochemical evolution in the Jiuquan Basin, Northwest China. Applied Geochemistry, 27(4): 866-878.（SCI-3, 2.176）

15.He, W.-L.,Sun, B.-N.,Liu,Y.-S., 2012.Fokienia shengxianensis sp. nov. (Cupressaceae) from the late Miocene of eastern China and its paleoecological implications.Review of Palaeobotany and Palynology, 176-177:24-34.

16.Hu, Z.-B., Pan, B.-T., Wang, J.-P., Cao, B., Gao, H.-S., 2012. Fluvial terrace formation in the eastern Fenwei Basin, China, during the past 1.2 Ma as a combined archive of tectonics and climate change. Journal of Asian Earth Science, 60, 235-245.（SCI-3, 2.152）

17.Jia, J., Xia, D.-S., Wang, B., Wei, H.-T. and Liu, X.-B., Magnetic investigation of Late Quaternary loess deposition, Ili area, China. Quaternary International, 250: 84-92.（SCI-3, 1.874）

18.Jin, L.-Y., Chen, F.-H., Morrill, C., Otto-Bliesner, B.-L., Rosenbloom, N., 2012. Causes of early Holocene desertification in arid central Asia. Climate Dynamics, 38(7-8): 1577-1591.（SCI-1, 4.602）

19.Lv, B., Liu, X.-M., Chen, Q., Zhao, G.-Y., Chen, J.-S., Mao, X.-G., Guo, X. L., 2012. Effects of CBD treatment on magnetic minerals of natural samples. Chinese Journal of Geophysics-Chinese Edition, 55(9): 3077-3087.（SCI-4,0.836）

20.Lv, Y.-B., An, C.-B., Zhang, J.-W., Wang, Z.-L., Tao, S.-C., Zhao, J.-J., 2012. A Holocene dust record in arid central Asia inferred from Lake Barkol, northwest China. Environmental Earth Sciences, 65(1): 213-220.（SCI-4, 1.092）

21.Ma, J.-Z., Pan, F., He, J.-H., Chen, L.-H., Fu, S.-J., Jia, B., 2012. Petroleum pollution and evolution of water quality in the Malian River Basin of the Longdong Loess Plateau, Northwestern China. Environmental Earth Sciences, 66(7): 1769-1782.（SCI-4, 1.092）

22.Ma, J.-Z., Wang, Y.-Q., Zhao, Y.-P., Jin, X., Ning, N., Edmunds, W. M., Zhou, X. Y., 2012. Spatial distribution of chloride and nitrate within an unsaturated dune sand of a cold-arid desert: Implications for paleoenvironmental records. Catena, 96: 68-75.（SCI-3, 1.889）

23.Ma, J.-Z., Zhang, P., Zhu, G.-F., Wang, Y.-Q., Edmunds, W.-M., Ding, Z.-Y., He, J.-H., 2012. The composition and distribution of chemicals and isotopes in precipitation in the Shiyang River system, northwestern China. Journal of Hydrology, 436: 92-101.（SCI-2, 2.656）

24.Pan, B.-T., Zhang, G.-L., Wang, J., Cao, B., Geng, H.-P., Wang, J., Zhang, C.,Li, Y.-P., 2012, Glacier changes from 1966–2009 in the Gongga Mountains, on the south-eastern margin of the Qinghai-Tibetan Plateau and their climatic forcing. The Cryosphere, 6:1087-1101.（SCI-1, 3.729）

25.Pan, B.-T., Cao, B., Wang, J., Zhang, G.-L., Zhang, C., Hu, Z.-B., Huang, B., 2012. Glacier variations in response to climate change from 1972 to 2007 in the western Lenglongling mountains, northeastern Tibetan Plateau. Journal of Glaciology, 58(211): 879-888.（SCI-3, 2.301）

26.Pan, B.-T., Hu, Z.-B., Wang, J.-P., Vandenberghe, J., Hu, X.-F., Wen, Y.-H., Li, Q., Cao, B., 2012. The approximate age of the planation surface and the incision of the Yellow River. Palaeogeography Palaeoclimatology Palaeoecology, 356: 54-61.（SCI-2, 2.392）

27.Peng, T.-J., Li, J.-J., Song, C.-H., Zhao, Z.-J., Zhang, J., Hui, Z.-C., King, J.-W., 2012. Biomarkers challenge early Miocene loess and inferred Asian desertification. Geophysical Research Letters, 39:L06702.（SCI-2, 2.792）

28.Rao, Z.-G., Chen, F.-H., Zhang, X., Xu, Y.-B., Xue, Q., Zhang, P.-Y., 2012. Spatial and temporal variations of C3/C4 relative abundance in global terrestrial ecosystem since the Last Glacial and its possible driving mechanisms. Chinese Science Bulletin, 57(31): 4024-4035.（SCI-3, 1.321）

29.Song, L., Qiang, M.-R., Lang, L.-L., Liu, X.-X., Wang, Q., Li, M.-Z., 2012. Changes in palaeoproductivity of Genggahai Lake over the past 16 ka in the Gonghe Basin, northeastern Qinghai-Tibetan Plateau. Chinese Science Bulletin, 57(20): 2595-2605.（SCI-3, 1.321）

30.Sun, B.-N., Ding, S.-T., Wu, J.-Y., Dong, C., Xie, S.-P., Lin, Z.-C., 2012.Carbon Isotope and Stomatal Data of Late Pliocene Betulaceae Leaves from SW China: Implications for Palaeoatmospheric CO2-levels.Turkish Journal of Earth Sciences, 21: 237-250.

31.Tang, Q.-Y., Zhang, M.-J., Li, X.-Y., Li, L.-W., He, P.-P., Lin, Y., 2012.The chemical and carbon isotopic compositions of volatiles in Cenozoic high-potassic basalts in western Qinling, China and their mantle geodynamic implications.Acta Petrologica Sinica, 27(4):1251-1260.

32.Wang, G., Oldfield, F., Xia, D.-S., Chen, F.-H., Liu, X.-M., Zhang, W.-G., 2012.Magnetic properties and correlation with heavy metals in urban street dust: A case study from the city of Lanzhou, China. Atmospheric Environment, 46: 289-298.（SCI-2, 3.465）

33.Wang, Y.-B., Wu, Q.-B., Tian, L.-M., Niu, F.-J., Tan, L., 2012.Correlation of alpine vegetation degradation and soil nutrient status of permafrost in the source regions of the Yangtze River, China.Environmental Earth Sciences, 67(4):1215-1223.

34.Wang, Y.-S., Ellwood, M.-D.-F., Maestre, F.-T., Yang, Z.-Y., Wang, G., Chu, C.-J., 2012. Positive interactions can produce species-rich communities and increase species turnover through time. Journal of Plant Ecology, 5665, 5(4): 417-421.（SCI-4, 1.907）

35.Wu, J.-Y.,Sun, B.-N.,Xie, S.-P.,Ding, S.-T.,Wen, W.-W., 2012.Dimorphic fronds and in situ spores of Drynaria (Polypodiaceae) from the upper Pliocene of Southwest China.Review of Palaeobotany and Palynology, 172:1-9.

36.Xia D.-S., Jia J., Wei H.-T., Liu, X.-B., Ma J.-Y., Wang X.-M., Chen F.-H., 2012. Magnetic properties of surface soils in the Chinese Loess Plateau and the adjacent Gobi areas, and their implication for climatic studies, Journal of Arid Environments 78: 73-79.（SCI-4, 1.732）

37.Xie, S.-P.,Sun, B.-N.,Wu, J.-Y.,Ding, S.-T., Lin, Z.-C., Yan, D.-F., Xiao, L., 2012.Palaeoclimatic Estimates for the Late Pliocene Based on Leaf Physiognomy from Western Yunnan, China.Turkish Journal of Earth Sciences, 21: 251-261.

38.Xu, Z.-L., Zhao, C.-Y., Feng, Z.-D., 2012. Species Distribution Models to Estimate the Deforested area of Picea Crassifolia in arid Region Recently Protected:Qilian Mts National Natural Reserve(China). Polish Journal of Ecology, 60(3):515-524.

39.Zhao, H., Li, G.-Q., Sheng, Y.-W., Jin, M., Chen, F.-H., 2012. Early-middle Holocene lake-desert evolution in northern Ulan Buh Desert, China. Palaeogeography Palaeoclimatology Palaeoecology, 331: 31-38.（SCI-2, 2.392）

40.Zhao, Y., Yu, Z.-C., 2012. Vegetation response to Holocene climate change in East Asian monsoon-margin region. Earth-Science Reviews, 113(1-2): 1-10.（SCI-1, 6.594）

第一作者第二三单位只标注实验室

41.Nie, J.-S., Horton, B. K., Saylor, J. E., Mora, A., Mange, M., Garzione, C. N., Basu, A., Moreno, C. J., Caballero, V., Parra, M., 2012. Integrated provenance analysis of a convergent retroarc foreland system: U-Pb ages, heavy minerals, Nd isotopes, and sandstone compositions of the Middle Magdalena Valley basin, northern Andes, Colombia. Earth-Science Reviews, 110(1-4): 111-126.（SCI-1, 6.594）

42.Niu,S.-W., Zhang,X., Zhao, C.-S.,Niu, Y.-Z.,2012.Variations in energy consumption and survival status between ruraland urban households: A case study of the Western Loess Plateau, China. Energy Policy, 49:515-527.

43.Tang, Z.-H., Huang, B.-C., Dong, X.-X.,Ji, J.-L., Ding, Z.-L.,2012, Anisotropy of magnetic susceptibility of the Jingou River SCItion: Implications for late Cenozoic uplift of the Tian Shan. Geochemistry Geophysics Geosystems, 13.（SCI-2, 3.021）第一作者第二三单位

44.Tian, Q.-H., ,Zhou, X.-J., Gou, X.-H., Zhao, P., Fan, Z.-X., Helama, S., 2012. Analysis of reconstructed annual precipitation from tree-rings for the past 500 years in the middle Qilian Mountain. Science China-Earth Sciences, 55(5): 770-778.（SCI-4, 1.147）第一作者第二三单位

45.Wang, X.-X., Li, J.-J., Song, C.-H., Zattin, M., Zhao, Z.-J., Zhang, J., Zhang, Y., He, K., 2012. Late Cenozoic orogenic history of Western Qinling inferred from sedimentation of Tianshui basin, northeastern margin of Tibetan Plateau. International Journal of Earth Sciences, 101(5): 1345-1356.（SCI-2, 2.342）

46.Yue, D.-X., Zhang,S., Zhao, X.-Z., Mo,F., Zhang,J., Wang, R., Wang, G.-R., Hickey, G.M., Wang, H.L., Wang, Y.Q., and Xiong,Y.C.，2012. Policy Strategy for Ecosystem Conservation of Minqin Oasis of Northwest China. Pakistan Journal of Botany, 44: 51-57.（SCI-4, 0.907）

非第一作者单位只标注实验室

47.Chen, Z.-J.,Li, J.-B.,Fang, K.-Y.,Davi, N.-K.,He,X.-Y., Cui,M.-X., Zhang,X.-L., Peng,J.-J.,2012,Seasonal dynamics of vegetation over the past 100 years inferred from tree rings and climate in Hulunbei'er steppe, northern China.Journal of Arid Environments, 83:86-93.（SCI-4,1.732）

48.Chu, K.-W., Wang, B., Yu, A.-B.,2012 .Computational study of the multiphase flow in a dense medium cyclone: Effect of particle density. Chemical Engineering Science, 73, 123 – 139.

49.DeConto, R.-M., Galeotti, S., Pagani, M., Tracy, D., Schaefer, K., Zhang, T.-J., Pollard, D., Beerling, D.-J., 2012. Past extreme warming events linked to massive carbon release from thawing permafrost.Nature, 484(7392): 87-91.（SCI-1, 36.28）

50.Gao, L., Nie, J.-S., Clemens, S., Liu, W.-G., Sun, J.-M., Zech, R., Huang, Y.-S., 2012,The importance of solar insolation on the temperature variations for the past 110kyr on the Chinese Loess Plateau. Palaeogeography Palaeoclimatology Palaeoecology,(317-318), 128-133.（SCI-2, 2.392）

51.Li, X., Jin, R., Pan, X.-D.,Zhang, T.-J., Guo, J.-W., 2012. Changes in the near-surface soil freeze-thaw cycle on the Qinghai-Tibetan Plateau. International Journal of Applied Earth Observation and Geoinformation, 17: 33-42.（SCI-3, 1.744）

52.Li, Yi, Liu, S.-B.,Liao, Z.-H.,He,C.-S.,2012. Comparison of two methods for estimation of soil water content from measured reflectance. Canadian Journal of Soil Science.92: 1-13.（SCI-3, 0.821）.

53.Liu, L., Schaefer, K., Zhang, T.-J., Wahr, J., 2012. Estimating 1992-2000 average active layer thickness on the Alaskan North Slope from remotely sensed surface subsidence. Journal of Geophysical Research-Earth Surface, 117: 14.（SCI-2, 3.021）

54.Ran, Y.-H., Li, X.,Cheng,G.-D.,Zhang, T.-J., Wu, Q.-B.,Jin,H.-J.,Jin,R.,2012. Distribution of permafrost in China: An overview of existing permafrost maps[J]. Permafrost and Periglacial Processes, 23(4): 322-333.（SCI-2, 2.492）

55.Velicogna, I., Tong,J., Zhang, T.-J.,Kimball,J.-S.,2012.Increasing subsurface water storage in discontinuous permafrost areas of the Lena River basin, Eurasia, detected from GRACE.Geophys. Res. Lett.,39, Art. No. L09403, issn: 0094-8276, ids: 941YM,doi: 10.1029/2012GL051623.（SCI-2, 3.792）

56.Wang, X., Nan, Z.-R., Ding, W.-G., Wang, S.-L., Wang, Z.-W., Yang, Y.-M., Wang, B., 2012. Chemical Fraction of Heavy Metals in an Oasis Soil and Their Bioavailability to Cole Crops. Arid Land Research and Management, 26(2): 166-180.（SCI-4, 0.673）

57.Wu, Q., Zhang, T.-J.,LiuY.,2012.Thermal state of the active layer and permafrost along the Qinghai-Xizang (Tibet) Railway from 2006 to 2010.Cryosphere,6(3) 607-612.（SCI-2, 3.279）

58.Wang, X.-M., Xia, D.-S., Zhang, C.-X., Lang, L.-L., Hua, T., Zhao, S., 2012. Geochemical and magnetic characteristics of fine-grained surface sediments in potential dust source areas: Implications for tracing the provenance of aeolian deposits and associated palaeoclimatic change in East Asia. Palaeogeography Palaeoclimatology Palaeoecology, 323: 123-132.（SCI-2, 2.392）

59.Yuan, B.-C., Yue, D.-X., 2012. Soil Microbial and Enzymatic Activities Across a hronosequence of Pinus Tubulaeformis Plantation Development on the Loess Plateau of China. Pedosphere 22(1): 1–12.（SCI-4, 1.161）

60.Zhang, W.-L., Appel, E, Fang, X.-M., Song, C.-H., Cirpka, O.,2012,Magnetostratigraphy of deep drilling core SG-1 in the western Qaidam Basin (NE Tibetan Plateau) and its tectonic implications.Quaternary Research, 78(1):139-148.（SCI-2,2.515）

61.Zhang,W.-L., Appel, E, Fang, X.-M.,Yan,M.-D.,Song,C.-H.,Cao,L.-W.,2012, Paleoclimatic implications of magnetic susceptibility in Late Pliocene-Quaternary sediments from deep drilling core SG-1 in the western Qaidam Basin (NE Tibetan Plateau). Journal of Geophysical Research-Solid Earth,117.（SCI-2,3.021）

62.Zhao, Y, Zhao, C.-Y., Xu,Z.-L.,Liu, Y.-Y., Wang, Y., Wang, C., Peng, H.-H., Zheng, X.-L.,2012, Physiological responses of Populus euphratica Oliv. to groundwater table variations in the lower reaches of Heihe River, Northwest China.Journal of Arid Land, 4(3):281-291.（SCI-4,0.542）

63.Zhu, W.-J., Wang, J.-Z., Zhang, W.-Y., Sun, D.-H., 2012. Short-term effects of air pollution on lower respiratory diseases and forecasting by the group method of data handling. Atmospheric Environment, 51: 29-38.（SCI-2, 3.465）

2011年度

（实验室共发表SCI论文65篇，第一作者第一单位论文43篇，其中，一区4篇，二区8篇）

第一作者第一单位只标注实验室

1.An, C.-B., Zhao, J.-J., Tao, S.-C., Lv, Y.-B., Dong, W.-M., Li, H., Jin, M., 2011. Dust variation recorded by lacustrine sediments from arid Central Asia since similar to 15 cal ka BP and its implication for atmospheric circulation. Quaternary Research, 75(3): 566-573.（SCI-2,2.576）

2.Chen, F.-H., Huang, W., Jin, L.-Y., Chen, J.-H., Wang, J.-S, 2011.Spatiotemporal precipitation variations in the arid Central Asia in the context of global warming. Sci China-EarthScience,54(12):1812-1821.（SCI-4,1.147）

3.Ding, S.-T., Sun, B.-N., Wu, J.-Y.,L,X.-C.,2011. Miocene Smilax leaves and associated epiphyllous fungi from Zhejiang, East China and their paleoecological implications. Review of Palaeobotany And Palynology, 165(3-4): 209-223.（SCI-3, 1.985）

4.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Li, J.-B., Zhou, A.-F., Li, Y.-J.,2011Covariability between tree-ring-based precipitation reconstructions in Northwest China and the sea-surface temperature of the Indian and Pacific Oceans. Climate Research, 49(1): 17-27.（SCI-3,2.110）

5.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Cook, E., Li, J.-B., Buckley, B., D Arrigo, R., 2011. Large-Scale Precipitation Variability over Northwest China Inferred from Tree Rings. Journal of Climate, 24(13): 3457-3468.（SCI-1,3.513）

6.Feng, Z.-D., Ran, M., Yang, Q.-L., Zhai, X.-W., Wang, W., Zhang, X.-S., Huang, C.-Q.,2011. Stratigraphies and chronologies of late Quaternary loess-paleosol sequences in the core area of the central Asian arid zone. Quaternary International, 240(1-S1): 156-166.（SCI-3,1.768）一作一单

7.Guan, Q.-Y., Pan, B.-T., Li, N., Zhang, J.-D., Xue, L.-J., 2011. Timing and significance of the initiation of present day deserts in the northeastern Hexi Corridor, China, Palaeogeography Palaeoclimatology Palaeoecology, 306(1-2): 70-74.（SCI-2,2.390）

8.Guo, X,-L., Liu, X.-M., Lv,B.,Tang, D.-P., Man, X.-G., Chen, J.-S., Chen, X.-Y., 2011. Comparison of topsoil magnetic properties between the loess region in Tianshan Mountains and Loess Plateau, China, and its environmental significance. Chinese Journal of Geophysics-Chinese Edition, 54(7), 1854-1862.（SCI-4,0.832）

9.Hu, X.-F., Kirby, E., Pan, B.-T., Granger, D.-E., Su, H,2011. Cosmogenic burial ages reveal sediment reservoir dynamics along the Yellow River, China. Geology, 39(9): 839-842.（SCI-1,4.026）

10.Hui, Z.-C., Li, J.-J., Xu, Q.-H., Song, C.-H., Zhang, J., Wu, F.-L., Zhao, Z.-J.,2011. Miocene vegetation and climatic changes reconstructed from a sporopollen record of the Tianshui Basin, NE Tibetan Plateau. Palaeogeography Palaeoclimatology Palaeoecology, 308(3-4): 373-382.（SCI-2,2.390）

11.Jia, J., Liu, X.-B., Xia, D.-S., Wei, H.-T., Wang, B.,2011. Magnetic property of loess strata recorded by Kansu profile in Tianshan Mountains, Journal of Arid Land, 3(3): 191-198.（SCI-4,0.542，2011）

12.Li, G.-Q., Zhao, H., Chen, F.-H., 2011. Comparison of three k-feldspar luminescence dating methods for holocene samples. Geochronometria, 38(1): 14-22.（SCI-4,0.860）

13.Liu, J.-B., Chen, F.-H., Chen, J.-H., Xia, D.-S., Xu, Q.-H., Wang, Z.-L., Li, Y.-C., 2011. Humid medieval warm period recorded by magnetic characteristics of sediments from Gonghai Lake, Shanxi, North China. Chinese Science Bulletin, 56(23): 2464-2474.（SCI-3,1.087）

14.Nie, J.-S., 2011. Coupled 100-kyr cycles between 3 and 1 Ma in terrestrial and marine paleoclimatic records. Geochemistry Geophysics Geosystems, 12: Q10Z32.（SCI-2,3.368）

15.Pan, B.-T., Hu, Z.-B., Wang, J.-P.,Vandenberghe,J., Hu, X.-F., 2011. A magnetostratigraphic record of landscape development in the eastern Ordos Plateau, China: Transition from Late Miocene and Early Pliocene stacked sedimentation to Late Pliocene and Quaternary uplift and incision by the Yellow River. Geomorphology, 125(1): 225-238.（SCI-2,2.352）

16.Rao,Z.-G., Zhu,Z.-Y., Jia,G.-D., Zhang,X., Wang,S.-P.,2011. Compound-specific hydrogen isotopes of long-chain n-alkanes extracted from topsoil under a grassland ecosystem in northern China. Science China-Earth Sciences, 54(12): 1902-1911.（SCI-4, 1.271）

17.Sun, B.-N., Wu, J.-Y., Liu, Y.-C., Ding, S.-T., Li, X.-C., Xie, S.-P., Yan, D.-F., Lin, Z.-C.,2011. Reconstructing Neogene vegetation and climates to infer tectonic uplift in western Yunnan, China. Palaeogeography Palaeoclimatology Palaeoecology, 304(3-4 SI): 328-336.（SCI-2,2.390）

18.Sun, B.-N., Dai, J., Wang, Y.-D., Jia, H., Yan, D.-F., Jiang, Z.-K., 2011.Pseudofrenelopsis fossils from Cretaceous gypsum beds in Guixi, Jiangxi Province, China and their geological significance.Island Arc, 20(1):43-56.

19.Sun, D.-H., Bloemendal, J., Yi, Z.-Y., Zhu, Y.-H., Wang, X., Zhang, Y.-B., Li, Z.-J., Wang, F., Han, F., Zhang, Y.2011. Palaeomagnetic and palaeoenvironmental study of two parallel SCItions of late Cenozoic strata in the central Taklimakan Desert: Implications for the desertification of the Tarim Basin. Palaeogeography Palaeoclimatology Palaeoecology, 300(1-4): 1-10.（SCI-2,2.390）

20.Sun, D.-H., Su, R.-X., Li, Z.-J., Lu, H.-Y., 2011. The ultrafine component in Chinese loess and its variation over the past 7.6 Ma: implications for the history of pedogenesis, Sedimentology, 58(4): 916-935.（SCI-3,2.229）

21.Sun, D.-H., Zhang, Y.-B., Han, F., Zhang, Y., Yi, Z.-Y., Li, Z.-J., Wang, F., Wu, S., Li, B.-F., 2011. Magnetostratigraphy and palaeoenvironmental records for a Late Cenozoic sedimentary sequence from Lanzhou, Northeastern margin of the Tibetan Plateau. Global and Planetary Change, 76（3-4): 106-116.（SCI-3,3.351）

22.Sun, H.-L., Zhou, A.-F., Zhang, X.-W., Chen, F.-H, 2011. Fir trees disappeared 500 years ago in the Liupan Mountains on the southwestern Loess Plateau, China. Review of Palaeobotany And Palynology, 166(1-2): 69-75.（SCI-3,1.985）

23.Sun, J.-H., Li, F.-R., Zhao, W.-W., Tang, Y., 2011.A review of the studies on modern process for climatic proxies in north-western China.Frontiers of Earth Science, 5(3):262-270.

24.Tian, F.-X., Zhao, C.-Y., Feng, Z.-D.,2011.Simulating evapotranspiration of Qinghai spruce (Picea crassifolia) forest in the Qilian Mountains, northwestern China. Journal of Arid Environments, 75(7): 648-655.（SCI-4,1.535）

25.Wang B.,Chu K.-W.., Yu A-.B.,Vince A.,Barnett G.-D.,Barnett,P.-J.,2011.Computational study of the multiphase flow and performance of dense medium cyclones: Effect of body dimensions. Minerals Engineering , 24 (1), 19-34.

26.Wang, J., Zhou, S.-Z., Zhao, J.-D., Zheng, J.-X., Guo, X.-Z., 2011.Quaternary glacial geomorphology and glaciations of Kongur Mountain, eastern Pamir, China, Science China-Earth Sciences, 54(4): 591-602.（SCI-4,1.271）

27.Wang, S.-L., Nan, Z.-R., Cao, X.-D., Liao, Q., Liu, J., Wu, W.-F., Zhou, T., Zhao, C.-C., Jin, W.-Q.,2011.Sorption and desorption behavior of lead on a Chinese kaolin. Environmental Earth Sciences, 63(1): 145-149.（SCI-4,1.035）

28.Wang, X.-X., Zattin, M., Li, J.-J., Song, C.-H., Peng, T.-J., Liu, S.-P., Liu, B., 2011.Eocene to Pliocene exhumation history of the Tianshui-Huicheng region determined by Apatite fission track thermochronology: Implications for evolution of the northeastern Tibetan Plateau margin. Journal of Asian Earth Sciences, 42(1-2): 97-110.（SCI-3,2.215）

29.Wang, Y.-S., Chu, C.-J., Zhu, K., Shen, Z.-H.,2011. Effects of inter-specific variability on biomass allocation: A hierarchicalBayesian approach. Ecological Informatics, 6: 341-344.（SCI-4,1.351）

30.Wang, Z.-W., Nan, Z.-R., Wang, S.-L.,Zhao, Z.-J.,2011.Accumulation and distribution of cadmium and lead in wheat (Triticum aestivum L.) grown in contaminated soils from the oasis, north-west China, Journal of The Science of Food And Agriculture, 91(2): 377-384.（SCI-3,1.360）

31.Xia, D.-S., Yu, Y., Tian, S.-L., Wang, B., Wang, L.,2011. Use of environmental magnetic techniques to monitor urban pollution origins in Lanzhou, Northwest China. Environmental Earth Sciences, 64(7): 1943-1949.（SCI-4,1.035）

32.Xiao, L., Sun, B.-N., Li, X.-C., Ren, W.-X., Jia, H.,2011. Anatomical variations of living and fossil Liquidambar leaves: A proxy for paleoenvironmental reconstruction. Science China-Earth Sciences, 54(4): 493-508.（SCI-4,1.271）

33.Xue, Q., Rao, Z.-G., Wang, S.-P., Zhang, P.-Y., Chen, F.-H.,2011. Stable carbon and oxygen isotopic study of carbonate along a loess/paleosol SCItion in Lantian County, Shaanxi Province, on the southeastern edge of the Chinese Loess Plateau. Environmental Earth Sciences, 64(1): 237-246.（SCI-4,1.035）

34.Yang, Y.-M., Nan, Z.-R., Zhao, Z.-J., Wang, Z.-W., Wang, S.-L., Wang, X., Jin, W.-Q., Zhao, C.-C.,2011. Bioaccumulation and translocation of cadmium in cole (Brassica campestris L.) and celery (Apium graveolens) grown in the polluted oasis soil, Northwest of China. Journal of Environmental Sciences-China, 23(8): 1368-1374.（SCI-4,1.513）

35.Yang, Y.-M., Nan, Z.-R., Zhao, Z.-J., Wang, S.-L., Wang, Z.-W., Wang, X.,2011.Chemical fractionations and bioavailability of cadmium and zinc to cole (Brassica campestris L.) grown in the multi-metals contaminated oasis soil, northwest of China. Journal of Environmental Sciences-China, 23(2): 275-281.（SCI-4,1.513）

36.Yue, D.-X., Xu, X.-F., Hui, C., Xiong, Y.-C., Han, X.-M., Ma, J.-H., 2011. Biocapacity supply and demand in Northwestern China: A spatial appraisal of sustainability. Ecological Economics, 70(5): 988-994.（SCI-3,2.754）

37.Zhang, J.-W., Chen, F.-H., Holmes, J.-A., Li, H., Guo, X.-Y., Wang, J.-L., Li, S., Lv, Y.-B., Zhao, Y., Qiang, M.-R.,2011. Holocene monsoon climate documented by oxygen and carbon isotopes from lake sediments and peat bogs in China: a review and synthesis. Quaternary Science Reviews, 30(15-16): 1973-1987.（SCI-1,4.657）

38.Zhang, K., Zhao, Y., Guo, X.-L., 2011. Conifer stomata analysis in paleoecological studies on the Loess Plateau: An example from Tianchi Lake, Liupan Mountains. Journal of Arid Environments, 75(11): 1209-1213.（SCI-4,1.535）

39.Zhang, M.-J., Li, C.-S., Fu, P., Hu, P.-Q., Ripley, E.-M.,2011. The Permian Huangshanxi Cu-Ni deposit in western China: intrusive-extrusive association, ore genesis, and exploration implications. Mineralium Deposita, 46(2): 153-170.（SCI-3,2.061）

40.Zhang, X.-J., Jin, L.-Y., Chen, C.-Z., Guan, D.-S., Li, M.-Z., 2011. Interannual and interdecadal variations in the North Atlantic Oscillation spatial shift. Chinese Science Bulletin, 56(24): 2621-2627.（SCI-3,1.087）

41.Zhang, Y., Tian, Q.-H., Gou, X.-H., Chen, F.-H., Leavitt, S.-W., Wang, Y.-S.,2011. Annual precipitation reconstruction since AD 775 based on tree rings from the Qilian Mountains, northwestern China. International Journal of Climatology, 31(3): 371-381.（SCI-2,2.479）

42.Zhao, Y., Yu, Z.-C., Zhao, W.-W., 2011. Holocene vegetation and climate histories in the eastern Tibetan Plateau: controls by insolation-driven temperature or monsoon-derived precipitation changes? Quaternary Science Reviews, 30(9-10): 1173-1184.（SCI-1,4.657）

43.Zhu, G.-F., Li, X., Su, Y.-H., Lu, L., Huang, C.-L.,2011. Seasonal fluctuations and temperature dependence in photosynthetic parameters and stomatal conductance at the leaf scale of Populus euphratica Oliv., Tree Physiology, 31(2): 178-195.（SCI-1,2.403）

第一作者第二三单位只标注实验室

44.Niu, S.-W., Ding, Y.-X., Niu, Y.-Z., Li, Y.-X., Luo, G.-H.,2011. Economic growth, energy conservation and emissions reduction: A comparative analysis based on panel data for 8 Asian-Pacific countries. Energy Policy, 39(4): 2121-2131.（SCI-1,2.629）

45.Rao, Z.-G., Wu, Y., Zhu, Z.-Y., Jia, G.-D., Henderson, A.,2011. Is the maximum carbon number of long-chain n-alkanes an indicator of grassland or forest? Evidence from surface soils and modern plants. Chinese Science Bulletin, 56(16): 1714-1720.（SCI-3,1.087）

46.Wang, W., Ma, Y.-Z., Feng, Z.-D., Narantsetseg, T., Liu, K.-B., Zhai, X.-W.,2011. A prolonged dry mid-Holocene climate revealed by pollen and diatom records from Lake Ugii Nuur in central Mongolia. Quaternary International, 229:74-83.（SCI-3,1.768）

47.Yang, B., Qin, C., Bräuning, A., Burchardt, I., Liu, J.-J.,2011. Rainfall history for the Hexi Corridor in the arid northwest China during the past 620 years derived from tree rings. International Journal of Climatology, 31(8): 1166-1176.（SCI-2,2.479）

48.Yang, L.-P., Meng, X.-M., Zhang, X.-Q., 2011. SRTM DEM and its application advances, International Journal of Remote Sensing, 32(14): 3875-3896.（SCI-3,1.188）

非第一作者单位只标注实验室

49.Bai, Y., Fang, X.-M., Gleixner, G., Mügler, I.,2011. Effect of precipitation regime on delta D values of soil n-alkanes from elevation gradients - Implications for the study of paleo-elevation. Organic Geochemistry, 42(7): 838-845.（SCI-2,2.375）

50.Chu, K.-W.,Wang, B.,Xu, D.-L.,Chen, Y.-X.,Yu, A.-B., 2011.CFD–DEM simulation of the gas–solid flow in a cyclone separator. Chemical Engineering Science , 55(5), 834-847.

51.Elston R.-G., Dong, G.-H., Zhang, D.-J., 2011. Late Pleistocene intensification technologies in Northern China. Quaternary International, 242(2): 401-415.（SCI-3,1.768）

52.Huang, H., Niu, Y.-L., Zhao, Z.-D., Hei, H.-X., Zhu, D.-C.,2011. On the enigma of Nb-Ta and Zr-Hf fractionation-A critical review. Journal of Earth Science, 22(1): 52-66.（SCI-4,0.481）

53.Li, X.-R., Fang, X.-M., Wu, F.-L., Miao, Y.-F.,2011. Pollen evidence from Baode of the northern Loess Plateau of China and strong East Asian summer monsoons during the Early Pliocene. Chinese Science Bulletin, 56(1): 64-69.（SCI-3,1.087）

54.Liu, D.-L., Yan, M.-D., Fang, X.-M., Li, H.-B., Song, C.-H., Dai, S.,2011. Magnetostratigraphy of sediments from the Yumu Shan, Hexi Corridor and its implications regarding the Late Cenozoic uplift of the NE Tibetan Plateau. Quaternary International, 236: 13-20.（SCI-3,1.768）

55.Liu, J.-J., Yang, B., Qin, C., 2011. Tree-ring based annual precipitation reconstruction since AD 1480 in south central Tibet. Quaternary International, 236: 75-81.（SCI-3,1.768）

56.Liu, Y.-S., Utescher, T., Zhou, Z., Sun, B.,2011. The evolution of Miocene climates in North China: Preliminary results of quantitative reconstructions from plant fossil records. Palaeogeography Palaeoclimatology Palaeoecology, 304(3-4 SI): 308-317.（SCI-2,2.390）

57.Long, L.-Q., Fang, X.-M., Miao, Y.-F., Bai, Y., Wang, Y.-L2011. Northern Tibetan Plateau cooling and aridification linked to Cenozoic global cooling: Evidence from n-alkane distributions of Paleogene sedimentary sequences in the Xining Basin. Chinese Science Bulletin, 56(15): 1569-1578.（SCI-3,1.087）

58.Miao, Y.-F., Meng, Q.-Q., Fang, X.-M.,Yan, X.-L., Wu, F.-L., Song, C.-H., 2011. Origin and development of Artemisia (Asteraceae) in Asia and its implications for the uplift history of the Tibetan Plateau: A review. Quaternary International, 236: 3-12.（SCI-3,1.768）

59.Morgan, C., Barton, L., Bettinger, R., Chen, F.-H., Zhang, D.-J.,2011. Glacial cycles and Palaeolithic adaptive variability on China's Western Loess Plateau. ANTIQUITY, 85(328): 365-379.

60.Sheng, H.-M., Gao, H.-S., Xue, L.-G., Ding, S., Song, C.-L., Feng, H.-Y., An, L.-Z.,2011. Analysis of the Composition and Characteristics of Culturable Endophytic Bacteria Within Subnival Plants of the Tianshan Mountains, Northwestern China, Curr Microbiol, 62:923–932.

61.Tripaldi, A., Zárate, M.-A., Brook, G.-A., Li, G.-Q.,2011. Late Quaternary paleoenvironments and paleoclimatic conditions in the distal Andean piedmont, southern Mendoza, Argentina. Quaternary Research, 76(2): 253-263.（SCI-2,2.576）

62.Wu, F.-L., Fang, X.-M., Herrmann, M., Mosbrugger, V., Miao, Y.-F.,2011. Extended drought in the interior of Central Asia since the Pliocene reconstructed from sporopollen records. Global And Planetary Change, 76(1-2): 16-21.（SCI-3,3.351）

63.Xu, G.-B., Chen, T., Liu, X.-H., Jin, L.-Y., An, W.-L., Wang, W.-Z., 2011. Summer temperature variations recorded in tree-ring delta(13)C values on the northeastern Tibetan Plateau4), Theoretical And Applied Climatology,105(1-2): 51-63.（SCI-3,1.684）

64.Xue, J.-B., Zhong, W., 2011. Holocene climate variation denoted by Barkol Lake sediments in northeastern Xinjiang and its possible linkage to the high and low latitude climates. Science China-Earth Sciences, 54(4): 603-614.（SCI-4,1.271）

65.Yuan, F.-S., Sheng, Y.-W., Yao, T.-D., Fan, C.-J., Li, J.-L., Zhao, H., Lei, Y.-B.,2011. Evaporative enrichment of oxygen-18 and deuterium in lake waters on the Tibetan Plateau. Journal of Paleolimnology, 46(2): 291-307.(SCI-2,2.676）

2010年度

（实验室共发表SCI论文93篇，第一作者第一单位论文54篇，一区1篇）

第一作者第一单位只标注实验室

1.An, C.-B., Ji, D.-X., Chen, F.-H., Dong, G.-H., Wang, H., Dong, W.-M., Zhao, X.-Y.,2010, Evolution of prehistoric agriculture in central Gansu Province, China: A case study in Qin'an and Li County.Chinese Science Bulletin, 55(18): 1925-1930.（SCI-3,0.790）

2.Chen, F.-H., Chen, J.-H., Holmes, J., Boomer, I., Austin, P., Gates, J.-B., Wang, N.-L., Brooks, S.-J., Zhang, J.-W.,2010, Moisture changes over the last millennium in arid central Asia: a review, synthesis and comparison with monsoon region. Quaternary Science Reviews, 29(7-8), 1055-1068.(SCI-1,4.016）

3.Fan, Y.-.X., Zhao, H., Chen F.-H., 2010.The equivalent dose of different grain size quartz fractions from lakeshore sediments in the arid region of north China. Quaternary Geochronology , 5(2-3): 205-211.

4.Fan, Y.-X., Chen, F.-H., Wei, G.-X., Madsen, D.-B., Oviatt, C.-G., Zhao, H., Chun, X., Yang, L.-P., Fan, T.-L., Li, G.-Q.,2010, Potential water sources for Late Quaternary Megalake Jilantai-Hetao, China, inferred from mollusk shell Sr-87/Sr-86 ratios. Journal of Paleolimnology, 43(3): 577-587.

5.Fan, Y.-X., Chen, F.-H., Fan, T.-L., Zhao, H., Yang, L.-P., 2010.Sedimentary documents and Optically Stimulated Luminescence(OSL) dating for formation of the present landform of thenorthern Ulan Buh Desert, northern China. Science China-Earth Sciences, 53(11):1675–1682.

6.Fang, K.-Y., Davi, N., Gou, X.-H., Chen, F.-H., Cook, E., Li, J.-B., D Arrigo, R.,2010, Spatial drought reconstructions for central High Asia based on tree rings. Climate Dynamics, 35(6): 941-951.

7.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Li, J.-B., D Arrigo, R., Cook, E., Yang, T., Liu, W.-H., Zhang, F.,2010, Tree growth and time-varying climate response along altitudinal transects in central China. European Journal of Forest Research, 129(6): 1181-1189.

8.Fang, K.-Y., Gou, X.-H., Chen, F.-H., D'Arrigo, R., Li, J.-B.,2010, Tree-ring based drought reconstruction for the Guiqing Mountain (China): linkages to the Indian and Pacific Oceans. International Journal of Climatology, 30(8): 1137-1145.

9.Fang, K.-Y., Gou, X.-H., Peters K, Li, J.-B., Zhang, F. 2010, Removing biological trends from tree-ring series: testing modified hugershoff curves. Tree-Ring Research, 66(1): 51-59.

10.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Li, J.-B., D Arrigo, R., Cook, E., Yang, T., Davi, N.,2010, Reconstructed droughts for the southeastern Tibetan Plateau over the past 568 years and its linkages to the Pacific and Atlantic Ocean climate variability. Climate Dynamics, 35(4): 577-585.

11.Fang, K.-Y., Gou, X.-H., Chen, F.-H., Zhang, F., Li, Y.-J., Peng, J.-F., 2010.Comparisons of drought variability between central High Asia and monsoonal Asia: Inferred from tree rings.Frontiers of Earth Science, 4(3):277-288.

12.Gou, X.-H., Deng, Y., Chen, F.-H., Yang, M.-X., Fang, K.-Y., Gao, L.-L., Yang, T., Zhang, F., 2010.Tree ring based streamflow reconstruction for the Upper Yellow River over the past 1234 years. Chinese Science Bulletin, 2010,55(36):4179-4186.

13.Guan, Q.-Y., Pan, B.-T., Li, N., Li, Q., Zhang, J.-D., Gao, H.-S., Liu, J.,2010, A warming interval during the MIS 5a/4 transition in two high-resolution loess SCItions from China. Journal of Asian Earth Sciences, 38(6): 255-261.

14.Guan, Q.-Y., Pan, B.-T., Li, N., Li, Q., Zhang, J.-D., Xu, S.-J., Gao, H.-S., Liu, J.,2010, Loess record of the evolution history of severe sandstorms in the Tengger Desert during the Last Interglacial Period (MIS5). Geosciences Journal, 14(2): 155-162.

15.Guan, Q.Y., Pan, B.T., Li, N., Li, Q., Hu, Z.B., Gao, H.S., Xu, S.J.,Wang, Y., 2010. An indicator of sand storms in the south of the Tengger Desert. Theoretical and Applied Climatology, 102, 197-203.

16.Guan, Q.Y., Pan, B.T., Li, N., Li, Q., Zhang, J.D., Gao, H.S., Liu, J., 2010. Pattern of abrupt climatic fluctuation in the East Asian Monsoon during the last glacial: evidence from Chinese loess records. Comptes Rendus Geoscience, 342(3), 189-196.

17.Han, F., Sun, D.-H., Zhang, Y.,Chen,F.-H.,Wang,F.,Zhu,Y.-H.,Zhang,Y.-B.,Yi,Z.-Y.,Li,Z.-J.,Hu,W.-W.,2010, Magnetostratigraphy and palaeoclimatic significance of Late Neogene aeolian sequence of Lanzhou area. Chinese Journal of Geophysics-Chinese Edition, 53(5): 1179-1186.

18.Hu, X.-F., Pan, B.-T., Kirby, E., Li, Q.-Y., Geng, H.-P., Chen, J.-F.,2010, Spatial differences in rock uplift rates inferred from channel steepness indices along the northern flank of the Qilian Mountain, northeast Tibetan Plateau. Chinese Science Bulletin, 55(27-28): 3205-3214.

19.Huang, X.-Z., Zhou, G., Ma, Y.-L., Xu, Q.-H., Chen, F.-H.,2010.Pollen distribution in large freshwater lake of arid region: a case study on the surface sediments from Bosten Lake, Xinjiang, China.Frontiers of Earth Science in China, 4(2): 174-180.

20.Hu, P.-Q.,Zhang, M.-J.,Tang, Q.-Y.,Ye, X.-R.,Tang, Z.-L.,Li, W.-Y., 2010.Noble gas isotopic constrains on mineralization of the Jinchuan Cu-Ni-PGE sulfide deposit, West China.ActaPetrologica Sinica, 26(11):3375-3386.

21.Jia, J., Xia, D.-S., Wei, H.-T., Wang, B., Liu, X.-B., 2010.A magnetic investigation of a loess/paleosol sequences record in Ili area.Frontiers of Earth Science, 4(3):259-268.

22.Lei, G.-L., Zhang, H.-C., Chang, F.-Q., Pu, Y., Zhu, Y., Yang, M.-S., Zhang, W.-X.,2010, Biomarkers of modern plants and soils from Xinglong Mountain in the transitional area between the Tibetan and Loess Plateaus. Quaternary International, 218(1-2): 143-150.

23.Li, C.-B., Qi, J.-G., Feng, Z.-D., Yin, R.-S., Guo, B.-Y., Zhang, F., Zou, S.-B.,2010, Quantifying the Effect of Ecological Restoration on Soil Erosion in China's Loess Plateau Region: An Application of the MMF Approach. Environmental Management, 45(3): 476-487

24.Li, C.-B., Qi, J.-G., Feng, Z.-D., Yin, R.-S., Zou, S.-B., Zhang, F., 2010.Parameters optimization based on the combination of localization and auto-calibration of SWAT model in a small watershed in Chinese Loess Plateau.Frontiers of Earth Science, 4(3):296-310.

25.Li, F.-R., Sun, J.-H., Zhao, Y., Guo, X.-L., Zhao, W.-W., Zhang, K., 2010.Ecological significance of common pollen ratios: A review.Frontiers of Earth Science, 4(3):253-258.

26.Li, X.-C., Sun, B.-N., Xiao, L., Wu, J.-Y., Lin, Z.-C.,2010, Leaf macrofossils of Ilex protocornuta sp nov (Aquifoliaceae) from the Late Miocene of East China: Implications for palaeoecology. Review of Palaeobotany And Palynology, 161(1-2): 87-103.

27.Lin, Z.-C., Sun, B.-N., Lomax, B.-H., Wu, J.-Y., Xie, S.-P., Lv, X.-D., Li, X.-C., Dai, J., 2010.Leaf megafossils of Betula yunnanensis sp nov (Betulaceae) from the Mangbang Formation, SW China and its taphonomic implications.Review ofPalaeobotany andPalynology, 163(1-2):84-103.

28.Liu, L.-C.,Dong, X.-F.,Chi, S.-Q., 2010.Quantitative Delimitation of Metropolitan Areas Basedon a Synthetic Method: Case Study in the LanzhouMetropolitan Area,Journal ofUrban Planning andDevelopment., 2010, 136(4): 357-364.

29.Ma, J.-Z., Pan, F., Chen, L.-H., Edmunds, W.-M., Ding, Z.-Y., He, J.-H., Zhou, K.-P., Huang, T.-M.,2010, Isotopic and geochemical evidence of recharge sources and water quality in the Quaternary aquifer beneath Jinchang city, NW China. Applied Geochemistry, 25(7): 996-1007.

30.Nie, J.-S., Song, Y.-G., King, J.-W., Fang, X.-M., Heil, C.,2010, HIRM variations in the Chinese red-clay sequence: Insights into pedogenesis in the dust source area. Journal of Asian Earth Sciences, 38(3-4): 96-104.

31.Nie, J.-S., Song, Y.-G., King, J.-W., Egli, R., 2009, Consistent grain size distribution of pedogenic maghemite of surface soils and Miocene loessic soils on the Chinese Loess Plateau. Journal of Quaternary Science, 25(3): 261–266.

32.Pan, B.-T., Geng, H.-P., Hu, X.-F., Sun, R.-H., Wang, C.2010, The topographic controls on the decadal-scale erosion rates in Qilian Shan Mountains, NW China. Earth and Planetary Science Letters, 292(1-2): 148-157

33.Peng, Y.-B., Shen, C.-M., Wang, W.-C., Xu, Y.,2010, Response of Summer Precipitation over Eastern China to Large Volcanic Eruptions. Journal of Climate, 23(3): 818-824.一作一单

34.Qi, P.-C., Zhao, C.-Y., Feng, Z.-D., 2010, GIS- and Machine Learning-Based Modeling of the Potential Distribution of Broadleaved Deciduous Forest in the Chinese Loess Plateau. Giscience & Remote Sensing, 47(1): 99-114.

35.Qiang, M., Lang, L., Wang, Z., 2010, Do fine-grained components of loess indicate westerlies: Insights from observations of dust storm deposits at Lenghu (Qaidam Basin, China). Journal of Arid Environments, 74(10): 1232-1239.

36.Qiang, M.-R., Chen, F.-H., Wang, Z.-T., Niu, G.-M., Song, L.,2010, Aeolian deposits at the southeastern margin of the Tengger Desert (China): Implications for surface wind strength in the Asian dust source area over the past 20,000 years. Palaeogeography Palaeoclimatology Palaeoecology, 286(1-2): 66-80.

37.Tao, S.-C., An, C.-B., Chen, F.-H., Tang, L.-Y., Wang, Z.-L., Lü, Y.-B., Li, Z.-F., Zheng, T.-M., Zhao, J.-J.,2010, Pollen-inferred vegetation and environmental changes since 16.7 ka BP at Balikun Lake, Xinjiang. Chinese Science Bulletin, 55(22): 2449-2457

38.Wang, S.-L., Nan, Z.-R., Liu, X.-W., Zhang, G.-Z., Zhao, Z.-J., 2010.Availability and Speciation of Cu, Zn, and Pb Added to Irrigated Desert Soil.PolishJournal ofEnvironmental Studies, 19(4):865-869.

39.Xie,H.,Ye,J-S., Liu, X.-M., E, C.-Y.,2010, Warming and drying trends on the Tibetan Plateau (1971-2005). Theoretical and Applied Climatology, 101(3-4): 241-253.

40.Xie,S.-P.,Sun,B.-N., Dilcher,D.-L., Yan, D.-F., Wu, J.-Y., Lin, Z.-C.,2010, Numerical taxonomy of Palaeocarya (Juglandaceae) from the Mangbang Formation of West Yunnan, China. Review of Palaeobotany And Palynology, 162(2): 193-202.

41.Yang, T., Gou, X.-H., Li, Y.-J., Fang, K.-Y., Liu, P.-X., 2010.Tree-ring researches over the northwest China: a review.Frontiers of Earth Science, 4(2):181-194.

42.Zan, J.-B., Fang,X.-M., Yang, S.-L., Nie, J.-S., Li, X.-Y.,2010, A rock magnetic study of loess from the West Kunlun Mountains. Journal of Geophysical Research-Solid Earth, 115, B10101.

43.Zhang,D.-J., Chen, F.-H., Bettinger, R.-L., Barton, L., Ji, D.-X., Morgan, C., Wang, H., Cheng, X.-Z., Dong, G.-H., Guilderson, T.-P., Zhao, H.,2010, Archaeological records of Dadiwan in the past 60 ka and the origin of millet agriculture. Chinese Science Bulletin, 55(16): 1636-1642.

44.Zhang, D.-Z., Zhang, P.-Z., Sang, W.-C., Cheng, H., Wu, X.-P., Yuan, Y., Bai, Y.-J., Wang, J.-L., Jia, J.-H., 2010.Implications of stalagmite density for past climate change: An example from stalagmite growth during the last deglaciation from Wanxiang Cave, western Loess Plateau. Chinese Science Bulltin, 55(34):3936-3943.

45.Zhang, K., Zhao, Y., Zhou, A.-F., Sun, H.-L., 2010.Holocene vegetation dynamic and human activities reconstructed from lake records in western Loess Plateau, China.Quaternary International, 227(1):38-45.

46.Zhang, K., Zhao, Y., Yu, Z.-C., Zhou, A.-F., 2010.A 2700-year high resolution pollen record of climate change from varved Sugan Lake in the Qaidam Basin, northeastern Tibetan Plateau.Palaeogeography Palaleoclimatology Palaeoecology, 297(2):290-298.

47.Zhang, M.-J.,Kamo,S.-L.,& Li,C.-S.,& Hu, P.-Q.,& Ripley,E.-M., 2010.Precise U–Pb zircon–baddeleyite age of the Jinchuan sulfideore-bearing ultramafic intrusion, western China.MineraliumDeposita (2010) 45:3–9

48.Zhang, Y.-X., Fan, J.-N., Li, Q.-A., An, Y.-T., Liang, C.-H., An, X.-Q., 2010.A Low-Temperature Method to Synthesize Co-Substituted Mn-Zn Ferrite Nanoparticles with Distinct Magnetic Properties.Synthesis and Reactivity in Inorganic Metal-organic and Nano-metal Chemistry, 40(8):556-562

49..Zhang, Y.-X., Huang, Y.-L., Fan, J.-N., Fan, X.-L., An, X.-Q., 2010.Preparation and Magnetic Properties of Cobalt Doping Mn-Zn Ferrite Nanoparticles.Journal of Composite Materials, 44(14):1769-1777.

50.Zhou, A.-F., Sun, H.-L., Chen, F.-H., Zhao, Y., An, C.-B., Dong, G.-H., Wang, Z.-L., Chen, J.-H., 2010.High-resolution climate change in mid-late Holocene on Tianchi Lake, Liupan Mountain in the Loess Plateau in central China and its significance.Chinese Science Bulletin, 55(20):2118-2121.

51.Zhao, Y., Chen, F.-H., Zhou, A.-F., Yu, Z.-C., Zhang, K.,2010, Vegetation history, climate change and human activities over the last 6200 years on the Liupan Mountains in the southwestern Loess Plateau in central China. Palaeogeography Palaeoclimatology Palaeoecology, 293(1-2): 197-205.

52.Zhao, Y., Sun, Q.-F., 2010, Reliability of pollen concentration as the indicator of effective moisture in arid and semi-arid regions of China. Journal of Arid Environments, 74(3): 423-427.

53.Zhao, Y., Yu, Z.-C., Liu, X.-J., Zhao, C., Chen, F.-H., Zhang, K.,2010, Late Holocene vegetation and climate oscillations in the Qaidam Basin of the northeastern Tibetan Plateau. Quaternary Research, 73(1): 59-69.

54.Zhao, Y., Yu, Z.-C., Zhao, C., 2010, Hemlock (Tsuga canadensis) declines at 9800 and 5300 cal. yr BP caused by Holocene climatic shifts in northeastern North America. Holocene, 20(6): 877-886.

第一作者第二三单位只标注实验室

55.Dong, J.-Y., Wang, S.-G., Shang, K.-Z., 2010.Simulation of the long-term transfer and fate of DDT in Lanzhou, China.Chemosphere, 81(4):529-535.

56.Gao, H., Ma, J.-M., Cao, Z.-H., Dove, A., Zhang, L.-S.,2010, Trend and climate signals in seasonal air concentration of organochlorine pesticides over the Great Lakes. Journal of Geophysical Research-Atmospheres, 115: D15307

57.Han, W.-X., Fang, X.-M., Yang, S.-L,King, J.,2010, Differences between East Asian and Indian monsoon climate records during MIS3 attributed to differences in their driving mechanisms: Evidence from the loess record in the Sichuan basin, southwestern China and other continental and marine climate records. Quaternary International, 218(1-2): 94-103.（第三单位）

58.Nie, J.-S., Horton, B.-K., Mora, A.,Saylor,J.-E.,Housh,T.-B.,Rubiano,J.,Naranjo, J.,2010, Tracking exhumation of Andean ranges bounding the Middle Magdalena Valley Basin, Colombia. Geology, 38(5): 451-454.

59.Rao, Z.-G., Zhu, Z.-Y., Jia, G.-D., Chen, F.-H., Barton, L., Zhang, J.-W., Qiang, M.-R.,2010, Relationship between climatic conditions and the relative abundance of modern C-3 and C-4 plants in three regions around the North Pacific. Chinese Science Bulletin, 55(18): 1931-1936.

60.Wang, B.,Yu, A.-B., 2010.Computational investigation of the mechanisms of particle separation and "Fish-hook" phenomenon in hydrocyclones. AIChE Journal, 56(7), 1703-1715.

61.Xu, Q.-H., Li, Y.-C., Bunting, M.-J., Tian, F., Liu, J.-S.,2010, The effects of training set selection on the relationship between pollen assemblages and climate parameters: Implications for reconstructing past climate, 289(1-4): 123-133.（第三单位）

62.Xu, Q.-H., Xiao, J.-L., Li, Y.-C., Tian, F., Nakagawa, T.,2010, Pollen-Based Quantitative Reconstruction of Holocene Climate Changes in the Daihai Lake Area, Inner Mongolia, China. Journal of Climate, 23(11): 2856-2868.（第三单位）

63.Yang, B., Kang, X.-C., Brauning,A., Liu, J., Qin, C., Liu, J.-J.,2010, A 622-year regional temperature history of southeast Tibet derived from tree rings. Holocene, 20(2): 181-190.

64.Yang, B., Kang, X.-C., Liu, J.-J., Bräuning, A., Qin, C.,2010, Annual temperature history in Southwest Tibet during the last 400 years recorded by tree rings. International Journal of Climatolog, 30(7): 962-971.

65.Yang, B., Tang, L.-Y., Li, C.-H., Shao, Y.-J., Tao, S.-C., Yang, L.-Q.,2010, An ice-core record of vegetation and climate changes in the central Tibetan Plateau during the last 550 years. Chinese Science Bulletin, 55(12): 1169-1177.

66.Yang, S.-L., Fang, X.-M., Shi, Z.-T., Lehmkuhl, F., Song, C.-H., Han, Y.-X., Han, W.-X.,2010, Timing and provenance of loess in the Sichuan Basin, southwestern China. Palaeogeography Palaeoclimatology Palaeoecology, 292(1-2): 144-154.(第三单位)

67.Zan,J.-B., Fang,X.-M., Nie,J.-S., Yang,S.-L., Song,C.-H.,Dai,S., 2010.Magnetic properties of surface soils across the southern Tarim Basin and their relationship with climate and source materials. Chinese ScienceBulletin, 2010, 55: 1−7.

68.Zhou, S.-Z., Wang, J., Xu, L.-B., Wang, X.-L., Colgan, P.-M., Mickelson, D.-M.,2010, Glacial advances in southeastern Tibet during late Quaternary and their implications for climatic changes. Quaternary International, 218(1-2): 58-66.

非第一作者单位只标注实验室

69.Bai, Y., Fang, X.-M., Nie, J.-S., Meng, Q.-X., Chi, Y.-P.,2010, Methoxy n-fatty acids in surface soils from the Gongga and Kunlun Mountains: Ecological implications. Chinese Science Bulletin, 55(21): 2258-2267.

70.Chu, C.-J., Weiner, J., Maestre, F.-T., Wang, Y.-S., Morris, C., Xiao, S., Yuan, J.-L., Du, G.-Z., Wang, G., 2010.Effects of positive interactions, size symmetry of competition and abiotic stress on self-thinning in simulated plant populations.Annals of Botany, 106(4):647-652.

71.Herzschuh,U., Birks, H.-J.-B., Ni, J., Zhao, Y.,Liu,H.-Y.,Liu,X.-Q.,Grosse, G.2010, Holocene land-cover changes on the Tibetan Plateau. Holocene, 20(1): 91-104.

72.Li, J.-B., Cook, E.-R., Chen, F.-H., Gou, X.-H., D Arrigo, R., Yuan, Y.,2010, An extreme drought event in the central Tien Shan area in the year 1945. Journal of Arid Environments, 74(10): 1225-1231.

73.Li, M.-Q., Yang, X.-Y., Wang, H., Wang, Q., Jia, X., Ge, Q.-S.,2010, Starch grains from dental calculus reveal ancient plant foodstuffs at Chenqimogou site, Gansu Province. Science China-Earth Sciences, 53(5): 694-699.

74.Liu, D.-L., Fang, X.-M., Song, C.-H., Dai, S., Zhang, T., Zhang, W.-L., Miao, Y.-F., Liu, Y.-Q., Wang, J.-Y.,2010,Stratigraphic and paleomagnetic evidence of mid-Pleistocene rapid deformation and uplift of the NE Tibetan Plateau. Tectonophysics,486:108-119.

75.Liu, F.-G., Zhang, Y.-L., Feng, Z.-D., Hou, G.-L., Zhou, Q., Zhang, H.-F.,2010.The impacts of climate change on the Neolithic cultures of Gansu-Qinghai region during the late Holocene Megathermal. Journal of Geographical Sciences, 20(3): 417-430

76.Peng, J.-F., Gou, X.-H., Chen, F.-H.,Fang, K.-Y.,2010, Climate-growth relationships of Qilian juniper Sabina przewalskii in the Anyemaqen Mountains, Tibet. Climate Research, 41(1): 31-40.

77.Qin, C., Yang, B., Burchardt, I., Hu, X.-L., Kang, X.-C.,2010, Intensified pluvial conditions during the twentieth century in the inland Heihe River Basin in arid northwestern China over the past millennium. Global And Planetary Change, 72(3): 192-200.

78.Su, R.-X., Sun, D.-H., Chen, H., Chen, X.-M., Li, Z.-J.,2010. Evolution of Asian monsoon variability revealed by oxygen isotopic record of middle Holocene massive coral in the northern South China Sea. Quaternary International, 213(1-2): 56-68.

79.Sun, A.-Z., Feng, Z.-D., Ma, Y.-Z., 2010, Vegetation and environmental changes in western Chinese Loess Plateau since 13.0 ka BP. Journal of Geographical Sciences, 20(2): 177-192.

80.Wang, J.-S., Chen, F.-H., Jin, L.-Y,Bai, H.-Z.,2010, Characteristics of the dry/wet trend over arid central Asia over the past 100 years. Climate Research, 41(1): 51-59.

81.Wang, X.-M., Chen, F.-H., Zhang, J.-W., Yang, Y., Li, J.-J., Hasi, E., Zhang, C.-X., Xia, D.-S.,2010, Climate, Desertification, and the Rise and Collapse of China's Historical Dynasties. Human Ecology, 38(1): 157-172.

82.Wang, X.-M., Huang, N., Dong, Z.-B., Zhang, C.-X.,2010, Mineral and trace element analysis in dustfall collected in the Hexi Corridor and its significance as an indicator of environmental changes. Environmental Earth Sciences, 60(1): 1-10

83.Wang, Y., Miao, Q.-L., E, C.-Y., Han, J.-K., Ding, Y.-Y,2010, Relation between temperature changes of the mid-upper troposphere over Eurasian mid-high latitudes and solar irradiance in the twentieth century. Environmental Earth Sciences, 60(6): 1257-1266.

84.Wang, Y.-D.,Nie, J.-S.,Zhang, T.,Sun, G.-Q.,Yang, X.,Liu, Y.-H.,Liu, X.-W., 2010.Cenozoic tectonic evolution in the western Qaidam Basin inferred fromsubsurface data.Geosciences Journal, 14(4):335-344.

85.Wu, F.-L., Fang, X.-M., Miao, Y.-F., Dong, M,2010, Environmental indicators from comparison of sporopollen in early Pleistocene lacustrine sediments from different climatic zones. Chinese Science Bulletin, 55(26): 2981-2988.

86.Wu, Y., Zhu, Z.-Y., Rao, Z.-G., Qiu, S.-F., Yang, T.,2010, Mid-Late Quaternary loess-paleosol sequence in Lantian's Yushan, China: An environmental magnetism approach and its paleoclimatic significance. Chinese Science Bulletin, 55(26): 2989-3000.

87.Yang, F.-M, E, C.-Y., 2010, Correlation analysis between sand-dust events and meteorological factors in Shapotou, Northern China. Environmental Earth Sciences, 59(6): 1359-1365.

88.Yang, S.-L., Fang, X.-M., Yan, M.-D., Shi, Z.-T., Song, C.-H., Han, Y.-X.,2010, Grain size profiles in the Chengdu Clay, eastern margin of the Tibetan Plateau: Implications for significant drying of Asia since similar to 500 ka BP. Journal of Asian Earth Sciences, 38(1-2): 57-64.

89.Yang, T., Zhu, Z.-Y., Gao, Q.-Z.,Han, J.W., Wu, Y.,2010, Trace element geochemistry in topsoil from East China. Environmental Earth Sciences, 60(3): 623-631

90.Zhao, C., Yu, Z.-C., Ito, E., Zhao, Y., 2010, Holocene climate trend, variability, and shift documented by lacustrine stable-isotope record in the northeastern United States. Quaternary Science Reviews. 29(15-16): 1831-1843.

91.Zhao, J.-D., Liu, S.-Y., Wang, J., Song, Y.-G., Du, J.-K.,2010, Glacial advances and ESR chronology of the Pochengzi Glaciation, Tianshan Mountains, China. Science China-Earth Sciences, 53(3): 403-410.

92.Zhao, J.-D., Song, Y.-G., King, J.-W., Liu, S.-Y., Wang, J., Wu, M.,2010, Glacial geomorphology and glacial history of the Muzart River valley, Tianshan Range, China. Quaternary Science Reviews, 29(11-12): 1453-1463.

93.Zhu,G.-F.,Su,Y.-H.,Huang,C.-L.,Feng,Q., Liu,Z.-G.,2010, Hydrogeochemical processes in the groundwater environment of Heihe River Basin, northwest China. Environmental Earth Sciences, 60(1): 139-153.

2009年度

（实验室共发表SCI论文63篇，第一作者第一单位论文39篇，一区3篇）

第一作者第一单位标注实验室

1.Chen, F.-H, Holmes, J., Wunnemann, B., et al. 2009, Holocene climate variability in arid Asia: Nature and mechanisms. Quaternary International, 194: 1-5. SCI-3

2.Chen, J.-H., Chen, F.-H., Zhang, E.-L, et al. 2009, A 1000-year chironomid-based salinity reconstruction from varved sediments of Sugan Lake, Qaidam Basin, arid Northwest China, and its palaeoclimatic significance. Chinese Science Bulletin, 54(20): 3749-3759. SCI-4

3.Dong, J.-Y., Gao, H., Wang, S.-G., et al. 2009, Simulation of the transfer and fate of HCHs since the 1950s in Lanzhou, China. Ecotoxicology and Environmental Safety, 72(7): 1950-1956.SCI-3

4.E, C.-Y., Wang, Y., Yang, T.-B., et al. 2009, Different responses of different altitudes surrounding Taklimankan Desert to global climate change. Environment Geology, 56:1281–1293. SCI-4

5.Fang, K.-Y., Gou, X.-H, Chen, F.-H, et al. 2009, Response of regional tree-line forests to climate change: evidence from the northeastern Tibetan Plateau. Trees-Structure and Function, 23(6): 1321-1329. SCI-4

6.Fang, K.-Y., Gou, X.-H., Chen, F.-H., et al. 2009, Drought variations in the eastern part of northwest China over the past two centuries: evidence from tree rings. Climate Research, 38(2): 129-135.SCI-3

7.Fang, K.-Y., Gou, X.-H., Levia, F, Delphis, et al. 2009, Variation of radial growth patterns in trees along three altitudinal tranSCIts in North Central China. IAWA Journal, 30(4): 443-457. SCI-4

8.Guan, Q.-Y, Pan, B.-T, Li, N,Gao, H.S., Li, Q., Yang, X.Y.. 2009, Differences among sub-orbital time scale events recorded in two high-resolution loess SCItions, China, during the last deglaciation. Quaternary International, 198: 246-254. SCI-3

9.Huang, T., Cheng, X.-G., Gao, H., Liang, R.-X., 2009, Composition of Floccules Formed in Hydrotreated Base Oil. Petroleum Science and Technology. 27(5): 464 – 473. SCI-4

10.Huang, X.-Z., Chen, F.-H., Fan, Y.-X., et al. 2009, Dry late-glacial and early Holocene climate in arid central Asia indicated by lithological and palynological evidence from Bosten Lake, China. Quaternary International, 194: 19-27. SCI-3

11.Jin, L., Peng, Y., Chen F, et al. 2009, Modeling sensitivity study of the possible impact of snow and glaciers developing over Tibetan Plateau on Holocene African-Asian summer monsoon climate. Climate of the Past, 5(3): 457-469. SCI-2

12.Li, Y., Wang, N., Cheng, H.-Y., et al. 2009, Holocene environmental change in the marginal area of the Asian monsoon: a record from Zhuye Lake, NW China. Boreas, 38(2): 349-361. SCI-2

13.Liu, W.-H., Gou, X.-H., Yang, M.-X, et al. 2009, Drought Reconstruction in the Qilian Mountains over the Last Two Centuries and Its Implications for Large-Scale Moisture Patterns. Advances in Atmospheric Sciences, 26(4): 621-629. SCI-4

14.Ma, J.-Z., Ding, Z.-Y., Edmunds, W. M., Gates, J. B., Hunag, T.-W., 2008, Limits to recharge of groundwater from Tibetan plateau to the Gobi desert, implications for water management in the mountain front. Journal of Hydrology, 364:128-141. SCI-2

15.Ma, J.-Z., Ding, Z.-Y., Wei, G.-X., Zhao, H., Huang, T.-M., 2008, Sources of water pollution and evolution of water quality in the Wuwei basin of Shiyang river, Northwest China. Journal of Environmental Management, 90:1168-1177. SCI-4

16.Ma, J.-Z., W. Mike Edmunds, He, J.-H., and Jia, B., 2009, A 2000 year geochemical record of palaeoclimate and hydrology derived from dune sand moisture. Palaeogeography Palaeoclimatology Palaeoecology, 276: 38–46. SCI-2

17.Pan, B.-T., Su, H., Hu, Z.-B., Hu, X.-F., Gao, H.-S., Li, J.-J., Eric, K., 2009, Evaluating the role of climate and tectonics during non-steady incision of the Yellow River: evidence from a 1.24 Ma terrace record near Lanzhou, China. Quaternary Science Reviews, 28: 3281-3290. SCI-1

18.Peng, Y.-B., Xu, Y., Jin, L.-Y., 2009, Climate change over eastern China during the last millennium in simulations and reconstructions. Quaternary International, 208: 11-18. SCI-3

19.Rao, Z.-G., Zhu, Z.-Y., Jia, G.-D., et al. 2009, Compound specific delta D values of long chain n-alkanes derived from terrestrial higher plants are indicative of the delta D of meteoric waters: Evidence from surface soils in eastern China. Organic Geochemistry, 40(8): 922-930.SCI-2

20.Wang, S.-L., Nan, Z.-R., 2009, Copper Sorption Behavior of Selected Soils of the Oasis in the Middle Reaches of Heihe River Basin, China. Soil & Sediment Contamination, 18(1): 74-86. SCI-4

21.Wang, S.-L., Nan, Z.-R., Liu, X.-W., et al. 2009, Accumulation and bioavailability of copper and nickel in wheat plants grown in contaminated soils from the oasis, northwest China. Geoderma, 152(3-4): 290-295. SCI-2

22.Wang, S.-L., Nan, Z.-R., Li Y., et al. 2009, The chemical bonding of copper ions on kaolin from Suzhou, China. Desalination, 249(3): 991-995. SCI-3

23.Wang, W., Ma, Y.-Z., Feng, Z.-D., et al. 2009, Vegetation and climate changes during the last 8660 cal. a BP in central Mongolia, based on a high-resolution pollen record from Lake Ugii Nuur. Chinese Science Bulletin, 54(9): 1579-1589. SCI-4

24.Wu, H.-N., Ma, Y.-Z., Feng, Z.-D., et al. 2009, A high resolution record of vegetation and environmental variation through the last similar to 25,000 years in the western part of the Chinese Loess Plateau. Palaeogeography Palaeoclimatology Palaeoecology, 273(1-2): 191-199. SCI-2

25.Wu, J.-Y., Sun, B.-N., Liu,Y.-S., et al. 2009, A new species of Exbucklandia (Hamamelidaceae) from the Pliocene of China and its paleoclimatic significance. Review of Palaeobotany and Palynology, 155(1-2): 32-41. SCI-4

26.Xie, S.-P., Sun, B.-N., Yan, D.-F., et al. 2009, Altitudinal variation in Ginkgo leaf characters: Clues to paleoelevation reconstruction. Science In China Series D-Earth Sciences, 52(12): 2040-2046. SCI-4

27.Xie, Y.-W., Chen, F.-H, Qi, J.-G., 2009, Past desertification processes of Minqin Oasis in arid China. International Journal of Sustainable Development and World Ecology, 16(4): 260-269.SCI-4

28.Yan, D.-F., Sun, B.-N., Xie, S.-P., et al. 2009, Response to paleoatmospheric CO2 concentration of Solenites vimineus (Phillips) Harris (Ginkgophyta) from the Middle Jurassic of the Yaojie Basin, Gansu Province, China. Science In China Series D-Earth Sciences, 52(12): 2029-2039. SCI-4

29.Zeng, B., Yang, T.-B., 2009, Natural vegetation responses to warming climates in Qaidam Basin 1982-2003. International Journal of Remote Sensing, 30(21): 5685-5701. SCI-4

30.Zhang, C.-J, Mischke S, 2009, A Lateglacial and Holocene lake record from the Nianbaoyeze Mountains and inferences of lake, glacier and climate evolution on the eastern Tibetan Plateau. Quaternary Science Reviews, 28(19-20): 1970-1983. SCI-1

31.Zhang, H.-C., Zhang, W.-X., Chang, F.-Q., et al. 2009, Geochemical fractionation of rare earth elements in lacustrine deposits from Qaidam Basin. Science In China Series D-Earth Sciences, 52(11): 1703-1713. SCI-4

32.Zhang, J.-W., Holmes, J.-A., Chen, F.-H., et al. 2009, An 850-year ostracod-shell trace-element record from Sugan Lake, northern Tibetan Plateau, China: Implications for interpreting the shell chemistry in high-Mg/Ca waters. Quaternary International, 194: 119-133. SCI-3

33.Zhang, Y., Gou, X.-H., Chen, F.-H., et al. 2009, A 1232-year tree-ring record of climate variability in the Qilian Mountains, northwestern China. IAWA Journal, 30(4): 407-420. SCI-4

34.Zhang, Y.-X., Wilmking, M., Gou, X.-H. 2009, Changing relationships between tree growth and climate in Northwest China. Plant Ecology, 201:39-50. SCI-4

35.Zhao, Y., Xu, Q.-H., Huang, X.-Z., et al. 2009, Differences of modern pollen assemblages from lake sediments and surface soils in arid and semi-arid China and their significance for pollen-based quantitative climate reconstruction. Review of Palaeobotany and Palynology, 156(3-4): 519-524. SCI-4

36.Zhao, Y., Yu, Z.-C., Chen, F.-H., 2009, Spatial and temporal patterns of Holocene vegetation and climate changes in arid and semi-arid China. Quaternary International, 194: 6-18. SCI-3

37.Zhao, Y., Z.-C., Chen, F.-H., Zhang, J.-W., Yang, B., 2009, Vegetation response to Holocene climate change in monsoon-influenced region of China. Earth-Science Reviews, 97: 242-256. SCI-1

38.Zhao, Y., Herzschuh, U., 2009. Modern pollen representation of source vegetation in the Qaidam Basin and surrounding mountains, northeastern Tibetan Plateau. Vegetation History and Archaeobotany 18, 245-260. SCI-4

39.Zhou, A.-F., Chen, F.-H., Wang, Z.-L, et al. 2009, Temporal change of radiocarbon reservoir effect in sugan lake, northwest china during the late Holocene. Radiocarbon, 51(2): 529-535. SCI-3

第一作者第二三单位标注实验室

40.Bai, Y., Fang, X.-M., Nie, J.-S., et al. 2009, A preliminary reconstruction of the paleoecological and paleoclimatic history of the Chinese Loess Plateau from the application of biomarkers. Palaeogeography Palaeoclimatology Palaeoecology, 271(1-2): 161-169.LAWES-2SCI-2

41.Barton, Loukas, Newsomed, S.-D., Chen, F.-H., et al. 2009, Agricultural origins and the isotopic identity of domestication in northern China. PANS: doi_10.1073_pnas.0809960106.106(14)：5523-5528LAWES-3SCI-1

42.Li, J.-B., Edward R. Cook, Rosanne D’arrigo, Chen, F.-H., and Gou, X.-H., 2009, Moisture variability across China and Mongolia: 1951–2005. Climatic Dynamics, 32(7-8): 1173-1186.LAWES-2 SCI-1

43.Li, J.-B., Cook, E.-R., Chen, F.-H, et al. 2009, Summer monsoon moisture variability over China and Mongolia during the past four centuries. Geophysical Research Letters, 36: L22705.LAWES-2SCI-2

44.Wang, X.-M, Yang, Y., Dong, Z.-B, et al. 2009, Responses of dune activity and desertification in China to global warming in the twenty-first century. Global and Planetary Change, 67(3-4): 167-185.LAWES-2SCI-3

45.Wang, X.-M., Dong, Z.-B., Zhang, C.-X., et al. 2009, Characterization of the composition of dust fallout and identification of dust sources in arid and semiarid North China. Geomorphology, 112(1-2): 144-157.LAWES-2SCI-3

46.Xu, Q.-H., Li, Y.-C., Tian, F., et al. 2009, Pollen assemblages of tauber traps and surface soil samples in steppe areas of China and their relationships with vegetation and climate. Review of Palaeobotany and Palynology, 153:86–101.LAWES-2SCI-4

47.Tian, Q.-H., Gou, X.-H., Zhang, Y., et al. 2009, May-June mean temperature reconstruction over the past 300 years based on tree rings in the Qilian Mountains if the northeastern Tibetan Plateau. IAWA Journal 30(4): 421-434.LAWES-2SCI-4

48.Yang, B., Brauning, A., Liu, J.-J, et al. 2009, Temperature changes on the Tibetan Plateau during the past 600 years inferred from ice cores and tree rings. Global and Planetary Change, 69(1-2): 71-78.LAWES-2SCI-3

49.Yang, B., Wang, J.-S., Brauning, A., et al. 2009, Late Holocene climatic and environmental changes in and central Asia. Quaternary International, 194: 68-78.LAWES-2SCI-3

50.Zou, S.-B., Cheng, G.-D., Xiao, H.-L., et al. 2009. Holocene natural rhythms of vegetation and present potential ecology in the Western Chinese Loess Plateau. Quaternary International, 194: 55-67.LAWES-2SCI-3

非第一作者单位标注实验室

51.A.M. Alonso-Zarza, Zhao, Z.-J., Song C.-H., et al. 2009, Mudflat/distal fan and shallow lake sedimentation (upper Vallesian–Turolian) in the Tianshui Basin, Central China: Evidence against the late Miocene eolian loess. Sedimentary Geology,, 222, 42-51

52.Chu, C.-J., Weiner, J., Maestre FT, et al. 2009, Positive interactions can increase size inequality in plant populations, Journal of Ecology, 97(6): 1401-1407.

53.Chu, C.-J., Wang, Y.-S., Li, Q., et al. 2009, Effects of traits, species identity and local environmental conditions on the assessment of interactions: insights from an alpine meadow community. Journal of Plant Ecology, 2(3): 135-141.

54.Herzschuh, U., Kramer, A., Mischke S, et al. 2009, Quantitative climate and vegetation trends since the late glacial on the northeastern Tibetan Plateau deduced from Koucha Lake pollen spectra. Quaternary Research, 71(2): 162-171

55.Schettler G, Romer RL, Qiang MR, et al. 2009, Size-dependent geochemical signatures of Holocene loess deposits from the Hexi Corridor (China). Journalof Asian Earth Sciences, 35(2): 103-136.

56.Li, Y.-C., Xu, Q.-H., Zhang, L.-Y., et al. 2009, Modern pollen assemblages of the forest communities and their relationships with vegetation and climate in northern China. Journal Of Geographical Sciences. 19(6): 643-659.

57.Liu, D.-L., Fang, X.-M, Gao, J.-P, et al. 2009, Cenozoic Stratigraphy Deformation History in the Central and Eastern of Qaidam Basin by the Balance SCItion Restoration and its Implication. Acta Geologica Sinica-English Edition, 83(2): 359-371.

58.Ma, L., ZhangT.J., FrauenfeldO. W., YeB., YangD., Qin D.,2009, Evaluation of precipitation from the ERA-40,NCEP-1,and NCEP-2 Reanalyses and CMAP-1, CMAP-2, and GPCP-2 with ground-based measurements in China, J. Geophys. Res.,114, D09105, doi:10.1029/2008JD011178.(SCI-2,3.021)

59.Schaefer, K, ZhangT.J., SlaterA.G., LuL.X., EtringerA.,Baker I.,2009, Improving simulated soil temperatures and soil freeze/thaw at high-latitude regions in the Simple Biosphere/Carnegie-Ames-Stanford Approach model.J. Geophys. Res.-Earth Surf.,114, Art. No. F02021, issn: 0148-0227, ids: 460KY,doi: 10.1029/2008JF001125. (SCI-2,3.021)

60.Shen, C., Wang, W.-C., Peng, Y., et al. 2009, Variability of summer precipitation over Eastern China during the last millennium. Climate of the Past, 5(2): 129-141.

61.Wang, J.-Z., Zhu, W.-J., Zhang, W.-Y., Sun, D.-H., 2009, A trend fixed on firstly and seasonal adjustment model combined with the epsilon-SVR for short-term forecasting of electricity demand. Energy Policy, 37(11): 4901-4909.

62.Zhang, X.-Y., Wang, X.-M., Yan, P., 2009, Re-evaluating the impacts of human activity and environmental change on desertification in the Minqin Oasis, China. Environ Geol, 55:705–715

63.Zhao, C., Yu, Z.-C., Zhao, Y., et al. 2009, Possible orographic and solar controls of Late Holocene centennial-scale moisture oscillations in the northeastern Tibetan Plateau. Geophysical Research Letters, 36: L21705

2008年度

（实验室共发表SCI论文70篇，第一作者第一单位论文33篇，一区2篇，以第一作者第一单位发表Science一篇）

第一作者第一单位标注实验室

1.An, C.-B., Chen, F.-H., Loukas B., 2008, Holocene environmental changes in Mongolia: A review. Global and Planetary Change, 63:283-289.（SCI-3）

2.Chang, F.-Q., Zhang H.-C., Chen Y., Yang, M.-S., et al. 2008, Sedimentation Geochemistry and Environmental Changes during the Late Pleistocene of Paleolake Qarhan in the Qaidam Basin. Journal of China University of Geosciences 19(1): 1–8.（SCI-4）

3.Chang Genying. Restructuring of large industrial SOEs in transitional china: A case study in Lanzhou. Tijdschrift voor Economische en Sociale Geografie, 2008, 99(1): 84–93.（SSCI）

4.Chen, F.-H., Yu, Z.-C., Yang, M.-L, et al. 2008, Holocene moisture evolution in arid central Asia and its out-of-phase relationship with Asian monsoon history. Quaternary Science Reviews 27(3-4): 351-364.（SCI-1）

5.Chen, F.-H., Fan, Y.-X., Chun, X., et al. 2008, Preliminary research on Megalake Jilantai-Fletao in the arid areas of China during the Late Quaternary. Chinese Science Bulletin 53(11): 1725-1739.(SCI-4)

6.Chang, G.-Y., 2008, Restructuring of Large Industrial SOEs in Transitional China: A Case Study in Lanzhou. Tijdschrift Voor Economische En Sociale Geografie 124(1-2): 33-39.（SCI-4）

7.Cheng, H.-Y., Wang, G.-X., Hu, H.-C., et al. 2008, The variation of soil temperature and water content of seasonal frozen soil with different vegetation coverage in the headwater region of the Yellow River, China. Environmental Geology 54(8): 1755-1762.（SCI-4）

8.Gao, H.-S., Liu, X.-F., Pan, B.-T., et al. 2008, Stream response to Quaternary tectonic and climatic change: Evidence from the upper Weihe River, central China. Quaternary International, 186: 123-131.（SCI-3）

9.Gou, X.-H, Chen, F.-H., Yang, M.-X., et al. 2008, Asymmetric variability between maximum andminimum temperatures in Northeastern Tibetan Plateau: Evidence from tree rings. Science in China Series D-Earth Sciences 51(1): 41-55. （SCI-4）

10.Gou, X.-H., Feng, J., Chen, F.-H., Yang, M., D. F. Levia, 2008, A dendrochronological analysis of maximum summer half-year temperature variations over the past 700 years on the northeastern Tibetan Plateau. Theor. Appl. Climatol, 93: 195–206.DOI 10.1007/s00704-007-0336y.（SCI-3）

11.Guan, Q.-Y., Pan, B.-T., Gao, H.-S., Li, N., Zhang, H., Wang, J.-P., 2008, Geochemical evidence of the Chinese loess provenance during the Late Pleistocene.Palaeogeography Palaeoclimatology Palaeoecology,270: 53-58.（SCI-2）

12.Guo, W.-Q., Yang, T.-B., Dai, J.Gl, et al. 2008, Vegetation cover changes and their relationship to climate variation in the source region of the Yellow River, China, 1990-2000. International Journal of Remote Sensing, 29(7): 2085-2103.（SCI-3）

13.Liu, J.-H., Zhang, P.-Z., Cheng, H., et al. 2008, Asian summer monsoon precipitation recorded by stalagmite oxygen isotopic composition in the western Loess Plateau during AD1875-2003 and its linkage with ocean-atmosphere system. Chinese Science Bulletin, 53(13): 2041-2049.（SCI-4）

14.Liu X.-M., Liu, T.-S., Paul Hesse, Xia, D.-S., Chlachu Jiri, Wang, Guan., 2008, Two pedogenic models for paleoclimatic records of magnetic susceptibility from Chinese and Siberian loess, Science in China Series D:Earth Sciences 51(2): 284-293.（SCI-4）

15.Ma, J.-Z., Ding, Z., Gates, J.B., et al. 2008, Chloride and the environmental isotopes as the indicators of the groundwater recharge in the Gobi Desert, northwest China. Environmental Geology, (55)7: 1407-1419.（SCI-4）

16.Pan B T, Zhang G L, Wang J, Cao B, Wang J, Geng H P, Ji Y P, 2012. Glacier changes from 1966–2009 in the Gongga Mountains, on the south-eastern margin of the Qinghai-Tibetan Plateau and their climatic forcing. The Cryosphere, 6:1087-1101.（SCI-?, 3.279）

17.Peng, J.-F., Gou, X.-H., Chen F.-H., Li, J.-B., Liu, P.-X., Zhang, Y., Fang, K.-Y., 2008, Difference in Tree Growth Responses to Climate at theUpper Treeline: Qilian Juniper in the Anyemaqen Mountains. Journal of Integrative Plant Biology, 50 (8): 982–990.（SCI-4）

18.Peng, J.-F., Gou, X.-H., Chen, F.-H., Li, J.-B., Liu, P.-X., Zhang,-Y., 2008, Altitudinal variability of climate–tree growth relationships along a consistent slope of Anyemaqen Mountains, northeastern Tibetan Plateau. Dendrochronologia.26:87-96.（SCI-4）

19.Sun, D.-H., Su, R.-X., Ted A. McConnaughey, Jan Bloemendal, 2008, Variability of skeletal growth and δ13C in massive corals from the South China Sea:Effects of photosynthesis, respiration and human activities. Chemical Geology 255: 414–425.（SCI-2）

20.Sun, D.-H., Su, R.-X., Jan, Bloemendal, Lu, H.-Y., 2008, Grain-size and accumulation rate records from Late Cenozoic aeolian sequences in northern China: Implications for variations in the East Asian winter monsoon and westerly atmospheric circulation.Palaeogeography Palaeoclimatology Palaeoecology,264:39–53.（SCI-2）

21.Tao, Y., Liu, H., Wang, S.-G., et al. 2008, Expression of a fused fpg gene in E-coli and engineering a strain Comamonas testosteroni ZD4-1-fpg for environmental application. Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering, 43(12): 1410-1416.（SCI-4）

22. Wang, G., Xia, D.-S., Liu, X.-M., Chen, F.-H., Yu, Y., Yang, L.-P., Chen, J.-H., Zhou, A.-F., 2008., Spatial and temporal variation in magnetic properties of street dust in Lanzhou City, China. Chinese Science Bulletin 53(12): 1913-1923.（SCI-4）

23.Wang, H.-B., Liu, L.-Y., Feng, Z.-D., 2008, Spatiotemporal variations of Zr/Rb ratio in three last interglacial paleosol profiles across the Chinese Loess Plateau and its implications for climatic interpretation. Chinese Science Bulletin 53(9): 1413-1422.（SCI-4）

24.Wang, Y.-B., Wang, G.-X., Hu, H.-C., et al. 2008, Erosion rates evaluated by the Cs-137 technique in the high altitude area of the Qinghai-Tibet plateau of China. Environmental Geology 53(8): 1743-1749.（SCI-4）

25.Wang, Z.-T., Zhang, J.-W., Zhang, Q.-H., 2008, Barchans of Minqin: Sediment transport.

Geomorphology 96(1-2): 233-238.（SCI-3）

26.Wei, G.-X., Wang, Y.-B., Wang, Y.-L., 2008, Using 137Cs to quantify the redistribution of soil organic carbon and total N affected by intensive soil erosion in the head waters of the Yangtze River,China. Applied Radiation and Isotopes, 66: 2007-2012.（SCI-3）

27.Yang, L.-P., Chen, F.-H., Chun X., 2008, The Jilantai Salt Lake shorelines in northwestern arid China revealed by remote sensing images. Journal of Arid Environments 72(5): 861-866.（SCI-4）

28.Zhang, H.-C., Yang, M.-S., Zhang, W.-X., Lei, G.-L., 2008, Molecular fossil and paleovegetation records of paleosol S4 and adjacent loess layers in the Luochuan loess SCItion, NW China. Science in China Series D: Earth Sciences 51(3): 321-330.（SCI-4）

29.Zhang, P.-Z., Cheng, H., Edwards, R.-L., Chen, F.-H., Wang, Y.-J., Yang, X.-L., Liu, J., Tan, M., Wang, X.-F., Liu, J.-H., An, C.-L., Dai, Z.-B., Zhou, J., Zhang, D.-Z., Jia, J.-H., Jin, L.-Y., and Johnson, K.-R., 2008, A Test of Climate, Sun, and Culture Relationships from an 1810-Year Chinese Cave Record. Science 322(5903): 940-942.（SCI-1）

30.Zhao, Y., Yu, Z.-C., Chen, F.-H., et al. 2008, Sensitive response of desert vegetation to moisture change based on a near-annual resolution pollen record from Gahai Lake in the Qaidam Basin, northwest China. Global and Planetary Change 62(1-2): 107-114.（SCI-3）

31.Zhao, Y., Yu, Z.-C., Chen, F.-H., Li, J.-J., 2008, Holocene vegetation and climate change from a lake sediment record in the Tengger Sandy Desert, northwest China. Journal of Arid Environments, 72: 2054–2064.（SCI-4）

第一作者第二三单位标注实验室

32.Feng, Z.-D., Wang, L.X., Ji, Y.-H., Guo, L.-L., et al. 2008, Climatic dependency of soil organic carbon isotopic composition along the S–N TranSCIt from 34°N to 52°N in central-east Asia. Palaeogeography, Palaeoclimatology, Palaeoecology 257:335–343.LAWES-2（SCI-2）

33.Li, J.-B., Edward, R.-C., Rosanne, D., et al. 2008, Common tree growth anomalies over the northeastern Tibetan Plateau during the last six centuries: implications for regional moisture change. Global Change Biology, 14(9): 2096-2107.LAWES-2（SCI-1）

34.Miao, Y.-F, Fang, X.-M., Song, Z.-C., et al. 2008, Late Eocene pollen records and palaeoenvironmental changes in northern Tibetan Plateau. Science in China Series D-Earth Sciences, 51(8): 1089-1098.LAWES-2（SCI-4）

35.Nie, J.-S., King, J.-W., Liu, Z.-Y., Clemens, S., Prell, W., Fang, X.-M., 2008, Surface-water freshening: A cause for the onset of North Pacific stratification from 2.75 Ma onward? Global and Planetary Change, 64:49-52.LAWES-2（SCI-4）

36.Nie, J.-S., John, K., Mike, J., Fang, X.-M., Song, Y.-G., 2008, AC magnetic susceptibility studies of Chinese red clay sediments between 4.8 and 4.1 Ma: Paleoceanographic and paleoclimatic implications. Journal of Geophysical Research, 113: B10106.LAWES-2（SCI-2）

37.Nie, J.-S., King, J.-W., Fang, X.-M., 2008, Tibetan uplift intensified the 400 k.y. signal in paleoclimate records at 4 Ma. Geological Society of America Bulletin, 120(9-10): 1338-1344.LAWES-3

38.Nie, J.-S., King, J.-W., Fang, X.-M., 2008, Late Pliocene-early Pleistocene 100-ka problem. Geophysical Research Letters, 35, L21606.LAWES-3

39.Nie, J.-S., King, J.-W., Fang, X.-M., 2008, Link between benthic oxygen isotopes and magnetic susceptibility in the red-clay sequence on the Chinese Loess Plateau. Geophysical Research Letters, 35, L03703.LAWES-3

40.Nie, J.-S., King, J.-W., Fang, X.-M., 2008, Correlation between the magnetic susceptibility record of the Chinese aeolian sequences and the marine benthic oxygen isotope record. Geochemistry Geophysics Geosystems, 9(1). doi:10.1029/2008GC002243.LAWES-3

41.Rao Zhiguo, Jia Guodong, Zhu Zhaoyu, Wu Yi, Zhang Jiawu. Comparison of the carbon isotope composition of total organic carbon and long-chain n-alkanes from surface soils in eastern China and their significance. Chinese Science Bulletin, 2008, 53(24), 3921-3927, doi: 10.1007/s11434-008-0296-3LAWES-3 SCI-3

42.Wang, X.-M., Chen, F.-H, Hasi E, et al. 2008, Desertification in China: An assessment. Earth-Science Reviews 88(3-4): 188-206.LAWES-2（SCI-1）

43.Wang, X.M, Xia, D.-S, Wang T, et al. 2008, Dust sources in arid and semiarid China and southern Mongolia: Impacts of geomorphological setting and surface materials. Geomorphology 97(3-4): 583-600.LAWES-2（SCI-3）

44.Xia, D.-S., Chen, F.-H., Bloemendal, J., Liu, X.-M., Yu, Y., Yang, L.-P., 2008, Magnetic properties of urban dustfall in Lanzhou, China, and its environmental implications. Atmospheric Environment 42(9): 2198-2207.LAWES-2（SCI-4）

45.Yang, B., Achim, Bräuning, Dong, Z.-B., Zhang, Z.-Y., Jiao, K.-Q., 2008, Late Holocene monsoonal temperate glacier fluctuations on the Tibetan Plateau. Global and Planetary Change 60: 126–140.LAWES-2（SCI-4）

46.Zeng, B., Yang, T.-B. 2008, Impacts of climate warming on vegetation in Qaidam Area from 1990 to 2003. Environmental Monitoring and Assessment. 144(1-3): 403-417.LAWES-2 （SCI-4）

非第一作者标注实验室

47.Bloemendal J, Liu, X.-M., Sun, Y.-B, et al. 2008, An assessment of magnetic and geochemical indicators of weathering and pedogenesis at two contrasting sites on the Chinese Loess plateau. Palaeogeography Palaeoclimatology Palaeoecology 257(1-2):152-168.（SCI-2）

48.Che, T., LiX., JinR., ArmstrongR., Zhang, T. J.,2008, Snow depth derived from passive microwave remote-sensing data in China, Annals of Glaciology, 49, 145-154.（SCI-3，1.8）

49.Dupont-Nivet, G., Dai, S., Fang, X., Krijgsman, W., Erens, V., Reitsma, M., and Langereis, C., 2008, Timing and distribution of tectonic rotations in the northeastern Tibetan Plateau, in Burchfi el, B.C., and Wang, E., eds., Investigations into the Tectonics of the Tibetan Plateau. Geological Society of America Special, 444:73–87, doi: 10.1130/2008.2444(05).（SCI-4）

50.Gates, J.-B., Edmunds, W.-M., Ma, J.-Z, et al. 2008, Estimating groundwater recharge in a cold desert environment in northern China using chloride. Hydrogeology Journal, 16(5): 893-910.（SCI-2）

51.Gates, J.-B., Edmunds, W.-M., Ma, J.-Z, Paul, R.-S., 2008, A 700-year history of groundwater recharge in the drylands of NM china. The Holocene, 18(7):1045-1054.（SCI-2）

52.Gates, J.-B., Edmunds, W.-M., Darling, W.-G., Ma, J.-Z, Pang, Z.-H., Young, A.-A., 2008, Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers. Applied Geochemistry, 23: 3519–3534.（SCI-2）

53.Li, Y., Gou, X., Wang, G, et al. 2008, Heavy metal contamination and source in and agricultural soil in central Gansu Province, China. Journal of Environmental Sciences-China 20(5):607-612.（SCI-4）

54.Ma,L. J.,ZhangT. J., LiQ. X.,FrauenfeldO. W., Qin D. H.,2008. Evaluation of ERA-40, NCEP-1, and NCEP-2 reanalysis air temperatures with ground-based measurements in China, J. Geophys. Res., 113, D15115, doi:10.1029/2007JD009549.（SCI-2，3.021）

55.Ma, Y.-Z., Liu, K.-B., Feng, Z.-D., et al. 2008, A survey of modern pollen and vegetation along a south-north tranSCIt in Mongolia. Journal of Biogeography, 35(8): 1512-1532.（SCI-2）

56.Mischke S, Zhang, C.-J, Borner A., 2008, Bias of ostracod stable isotope data caused by drying of sieve residues from water. Journal of Paleolimnology 40(1):567-575.（SCI-2）

57.PaiMazumder, D., MillerJ., LiZ., WalshJ. E., EtringerA., McCreightJ., Zhang, T.J.,MoldersN., Evaluation of Community Climate System Model soil temperatures using observations from Russia, Theor. Appl. Climatol. (2008), doi: 10.1007/s00704-007-0350-0.（SCI-3，1.943）

58.Wang, S.-F., Zhang, W.-L., Fang, X.-M., et al. 2008, Magnetostratigraphy of the Zanda basin in southwest Tibet Plateau and its tectonic implications. Chinese Science Bulletin 53(9): 1393-1400.（SCI-3）

59.Wang, S.-F., Zhang, W.-L., Fang, X.-M., et al. 2008, Magnetostratigraphy of the Zanda basin in southwest Tibet Plateau and its tectonic implications. Chinese Science Bulletin, 53(9): 1393-1400.（SCI-4）

60.Wu, Q., and Zhang,T. J.,2008, Recent permafrost warming on the Qinghai-Tibetan Plateau, J. Geophys. Res., 113, D13108, doi:10.1029/2007JD009539.（SCI-2，3.021）

61.Xue, J.-B., Zhong, W., Zhao, Y.-J., Peng, X.-Y., 2008, Holocene Abrupt Climate Shifts and Mid-Holocene Drought Intervals Recorded in Barkol Lake of Northern Xinjiang of China., Chinese Geographical Science 18(1): 54-61.（SCI-4）

62.Yang, M.-X., Yao, T.-D., Gou, X.-H., Wang, H.-J., 2008, Precipitation Distribution along the Qinghai-Xizang (Tibetan) Highway, Summer 1998. Arctic, Antarctic, and Alpine Research. 40(4): 761–769.（SCI-4）

63.Yang, T., Zhu, Z.-Y., Wu, Y., Rao, Z.G., 2008, Concentrations of rare earth elements in topsoil from East China. Environmental Geology, 56(2): 309-316.（SCI-4）

64.Zhang, X.-Y., Wang, X.-M., Yan, P., 2008, Re-evaluating the impacts of human activity and environmental change on desertification in the Minqin Oasis, China. Environmental Geology, 55(4): 705-715.（SCI-4）

65.Zhang, T. J.,YangD. Q.,2008, Tribute: A Legendary Glaciologist: Academician Shi Yafeng on his Ninetieth Birthday, Arctic, Antarctic, and Alpine Research, DOI: 10.1657/1523-0430(2008-1), [TRIBUTE] 2.0.CO; 2.（SCI-3，1.316）

66.Zhang, Z.-Q., Qu, J.-S, Zeng, J.-J., 2008, A quantitative comparison and analysis on the assessment indicators of greenhouse gases emission. Journal Of Geographical Sciences, 18(4) :387-399（SCI-4）

67.Zhou, H.-Y., Zhao, J.-X., Zhang, P.-Z, et al. 2008, Decoupling of stalagmite-derived Asian summer monsoon records from North Atlantic temperature change during marine oxygen isotope stage 5d. Quaternary Research, 70(2): 315-321.（SCI-2）

68.Zu, R.-P., Xue, X., Qiang, M.-R., et al. 2008, Characteristics of near-surface wind regimes in the Taklimakan Desert, China. Geomorphology 96(1-2):39-47.（SCI-3）

2007年度

（实验室共发表SCI论文66篇，其中，第一作者第一单位论文32篇）

第一作者第一单位标注实验室

1.Chen, X.-L., Fang, X.-M., An, Z.-S., Han, W.-X., Wang, X., Bai, Y., Hong Y., 2007. An 8.1Ma calcite record of Asian summer monsoon evolution on the Chinese central Loess Plateau. Science in China Series D: Earth Sciences 50(3), 392-403.(SCI-4)

2.Feng Z.-D., Zhai, X.-W., Ma, Y.-Z., Huang, C.-Q., Wang, W.-G., Zhang, H.-C., P. Khosbayar, T. Narantsetse, Liu, K.-B., N.W. Rutter, 2007. Eolian environmental changes in the Northern Mongolian Plateau during the past 35,000 yr. Palaeogeography, Palaeoclimatology, Palaeoecology 245, 505–517.(SCI-2)

3.Feng, Z.-D., Tang, L.-Y., Ma, Y.-Z., Zhai, Z.-X., Wu, H.-N., Li, F., Zou, S.-B., Yang, Q.-L., Wang, W.-G., E. Derbyshire, Liu, K.-B., 2007. Vegetation variations and associated environmental changes during marine isotope stage 3 in the western part of the Chinese Loess Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology 246, 278–291.(SCI-2)

4.Fu, K.-D., Fang, X.-M., Gao, J.-P., Han, W.-X., Li, L.-L., 2007. Response of grain size of Quaternary gravels to climate and tectonics in the northern Tibetan Plateau. Science in China Series D-Earth Sciences 50 (1): 81-91.(SCI-4)

5.Gao, H., Ma, M.-Q., Zhou, L., Jia, R.-P., Chen, X.-G., Hu, Zhi-.D., 2007. Interaction of DNA with aromatic hydrocarbons fraction in atmospheric particulates of Xigu District of Lanzhou, China. Journal of Environmental Sciences 19, 948–954.(SCI-4)

6.Gou, X.-H., Chen, F.-H., Cook E, Jacoby G, Yang, M.-X., Li, J.-B., 2007, Streamflow variations of the Yellow River over the past 593 years in western China reconstructed from tree rings. Water Resources Research 43 (6), Doi:10.1029/2006WR005705.(SCI-3)

7.Gou, X.-H., Chen, F.-H., Jacoby G , Cook E , Yang, M.-X., Peng, H.-F., Zhang, Y., 2007. Rapid tree growth with respect to the last 400 years in response to climate warming, northeastern Tibetan Plateau. International Journal Of Climatology 27 (11): 1497-1503.(SCI-2)

8.Guan, Q.-Y., Pan, B.-T., Gao, H.-S., Li, B.-Y., Wang, J.-P., Su, H., 2007. Instability characteristics of the East Asian Monsoon recorded by igh-resolution loess SCItions from the last interglacial (MIS5). Science in China Series D: Earth Sciences. 50(7), 1067-1075.(SCI-4)

9.Hu, Q.-P., Zhang, M.-J., Tang, Z.-L., Li, C.-S., Wang, J.-Z., 2007, Chemical and stable isotopic compositions of volatiles in mantle peridotites of the Yushigou ophiolite in Qilian orogenic belt, western China. Acta Petrologica Sinica 23 (1), 169-176.(SCI-4)

10.Jin, L., Chen, F., Ganopolski A, Claussen M, 2007, Response of East Asian climate to Dansgaard/ Oeschger and Heinrich events in a coupled model of intermediate complexity. Journal of Geophysical Research-Atmospheres, 112 (D6).(SCI-2)

11.Li, J.-B., Chen, F.-H., Edward R. Cook, Gou, X.-H., Zhang, Y.-H, 2007. Drought reconstruction for north central China from tree rings: the value of the Palmer drought severity index, International Journal of Climatology 27, 903-909.(SCI-2)

12.Liu, P.-X., Peng, J.-F., Chen, F.-H., 2007. Hydrological Response of Populus euphratica Olve Radial Growth in Ejinaa Banner, Inner Mongolia. Journal of Integrative Plant Biology 49 (2), 150−156. (SCI-4)

13.Liu, X.-H., Sun, B.-N, Qu, W.-J., Kang, H.-J, Wu, J,-Y., 2007, Re-Os dating of molubdenite in Xiliugou W-Mo deposit in western Part of Qilian Mountains and its geological significance. Acta Petrologica Sinica, 23(10), 2432-2442.(SCI-4)

14.Pan, B.-T., Gao, H.-S., Wu, G.-J., Li, J.-J., Li, B.-Y., Ye, Y.-G., 2007, Dating of erosion surface and terraces in the eastern Qilian Shan, northwest China. Earth Surface Processes and Landforms 32 (1), 143-154.(SCI-3)

15.Pan, B.-T., Su, H., Hu, C.-S., Hu, X.-F., Zhou, T., Li, J.-J., 2007. Discovery of a 1. 0 Ma Yellow River terrace and redating of the fourth Yellow River terrace in Lanzhou area. Progress in Natural Science 17 (2), 197-205.(SCI-4)

16.Pan, B.-T, Liu, X.-F., Gao, H.-S., 2007, Dating and genesis of the upper Weihe River terraces around Longxi basin, China. Progress in Natural Science, 17(11), 1134-1140.(SCI-4)

17.Qiang, M.-R., Chen, F.-H., Zhou, A.-F., Xiao, S., Zhang, J.-W., Wang, Z.-T., 2007. Impacts of wind velocity on sand and dust deposition during dust storm as inferred from a series of observations in the northeastern Qinghai–Tibetan Plateau, China. Powder Technology, 175, 82–89.(SCI-3)

18.Qiang, M.-R., Chen, F.-H., Zhang, J.-W., Zu, R.-P., Jin, M., Zhou, A,-F., Xiao, S., 2007, Grain size in sediments from Lake Sugan: a possible linkage to dust storm events at the northern margin of the Qinghai–Tibetan Plateau. Environ Geol 51, 1229–1238.(SCI-4)

19.Sun, A.-Z., Ma, Y.-Z., Feng, Z.-D., Li, F., Wu, H.-N., 2007, Pollen-recorded climate changes between 13.0 and 7.0 C-14 ka BP in southern Ningxia., Chinese Science Bulletin 52 (8), 1080-1088.(SCI-3)

20.Sun, B.-N., Xiao, L., Xie, S.-P., Deng, S.-H., Wang, Y.-D., Jia, H., Susan Turner, 2007,Quantitative Analysis of Paleoatmospheric CO2 Level Based on Stomatal Characters of Fossil Ginkgo from Jurassic to Cretaceous in China. Acta Geologica Sinica 81(6) ,931–939.(SCI-4)

21.Tian, Q., Gou, X.-H., Zhang, Y., Peng, J.-F., Wang, J.-S., Chen, T., 2007, Tree ringbased drought reconstruction (a.d. 1855-2001) for the Qilian mountains, northwestern China. Tree-Ring Research 63 (1), 27-36.(SCI-4)

22.Wang, Y., Pan, B.-T., Gao, H.-S., Guan, Q.-Y., Chen, Y.-Y., Wang, J.-P., 2007. Magnetic fabric-based reconstruction of the paleowind direction from a loess sequence in the northeastern flank of the Qilian Mountains. Chinese Journal Of Geophysics Chinese Edition 50 (4), 1161-1166.(SCI-4)

23.Wang, S.-L., Nan, Z.-R., Zeng, J.-J., Hu, T.-T., 2007. Desorption of zinc by the kaolin from Suzhou, China. Applied Clay Science 37 (3-4): 221-225.(SCI-3)

24.Wang, Z.-T., Tao, S.-Chen., Xie, Y.-W., Dong, G.-H., 2007, Barchans of Minqin: Morphometry, Geomorphology 89(3-4), 405-411.(SCI-3)

25.Xu, S.-J., Pan, B.-T., Gao, H.-S., Cao, G.-J., Su, H., 2007. Changes in sand fractions of Binggou SCItion and the expansion and contraction of the Tengger Desert during 50–30 ka. Earth Surf. Process. Landforms 32, 475–480.(SCI-3)

26.Yang, X.-L., Zhang, P.-Z., Chen, F.-H., HUH Chih-an., Li, H.-C., Cheng, H., Kathleen R. J., Liu, J.-H., An, C.-L., 2007. Modern stalagmite oxygen isotopic composition and its implications of climatic change from a high-elevation cave in the eastern Qinghai-Tibet Plateau over the past50 years. Chinese Science Bulletin 5(29), 1238-1247.(SCI-3)

27.Yue, G.-W., Zheng, X.-J., 2007, Effect of thermal diffusion and electrostatic force on evolution of wind-blown sand flow. Applied Mathematics and Mechanics 28(2), 183-192.(SCI-4)

28.Zhang, M.-J., Hu, P.-Q., Niu, Y.-L., Su, S.-G., 2007. Chemical and stable isotopic constraints on the nature and origin of volatiles in the sub-continental lithospheric mantle beneath eastern China. Lithos 96, 55–66.(SCI-2)

29.Zhao, Y., Yu, Z.-C., Chen, F.-H., Emi Ito, Zhao, C., 2007. Holocene vegetation and climate history at Hurleg Lake in the Qaidam Basin, northwest China, Review of Palaeobotany and Palynology 145 , 275–288.(SCI-4)

30.Zhao, Y., Adam Hölzer, Yu, Z.-C, 2007, Late Holocene Natural and Human-Induced Environmental Change Reconstructed From Peat Records in Eastern Central China, Radiocarbon, 49(2),789–798.(SCI-3)

31.Zhong, Y.-X., Chen, F.-H., An C.-B., Xie S.-C., Huang, X.-Y., 2007, Holocene vegetation cover in Qin’an area of western Chinese Loess Plateau revealed by n-alkane, Chinese Science Bulletin 52(12), 1692-1698.(SCI-3)

32.Zhou, A.- F., Chen, F.-H., Qiang M.-R., Yang, M.-L., Zhang, J.-W., 2007, The discovery of annually laminated sediments (varves) from shallow Sugan Lake in inland arid China and their paleoclimatic significance. Science in China Series D: Earth Sciences 50(8), 1218-1224.(SCI-4)

第一作者第二、三单位标注实验室

33.Fan, M.-J., David L. Dettman, Song, C.-H., Fang, X.-M., Carmala N. Garzione, 2007. Climatic variation in the Linxia basin, NE Tibetan Plateau,from 13.1 to 4.3 Ma: The stable isotope record.Palaeogeography Palaeoclimatology Palaeoecology,247, 313–328. LAWES-2(SCI-2)

34.Fang, X.-M., Zhang, W.-L., Meng, Q.-Q., Gao, J.-P., Wang, X.-M., John King, Song, C.-H., Dai, S., Miao, Y.-F., 2007. High-resolution magnetostratigraphy of the Neogene Huaitoutala SCItion in the eastern Qaidam Basin on the NE Tibetan Plateau, Qinghai Province, China and its implication on tectonic uplift of the NE Tibetan Plateau. Earth and lanetary Science Letters, 258, 293–306.LAWES-2(SCI-1)

35.Gong, J., Chen, L.-D., Fu, B.-J., Wei, W., 2007, Integrated effects of slope aspect and land use on soil nutrients in a small catchment in a hilly loess area, China. International Journal of Sustainable Development & World Ecology, 14, 307–316.LAWES-2(SCI-4)

36.Ma, J.-Y., Chen, K., Xia, D.-S., Wang, G., Chen,F.-H., 2007. Variation in foliar stable carbon isotope among populations of a desert plant, Reaumuria soongorica (Pall.) Maxim. in different environments. Journal of Arid Environments, 69, 365–374.LAWES-2(SCI-4)

37.Rao, Z.-G., Zhu, Z.-Y., Zhang, J.-W., 2007. Different climatic controls of soil δ13Corg in three mid-latitude regions of the Northern Hemisphere since the Last Glacial period. Chinese Science Bulletin. 52(2), 259-266.LAWES-2(SCI-3)

38.Wang, X.-M., Eerdun H., Zhou, Z.-J., Liu, X.-P., 2007, Significance of variations in the wind energy environment over the past 50 years with respect to dune activity and desertification in and semiarid northern China. Geomorphology. 86(3-4), 252-266.LAWES-2 (SCI-3)

39.Wu, F.-L., Fang, X.-M., Ma, Y.-Z., Mark Herrmann, Volker Mosbrugger, An Z.-S., Miao, Y.-F., 2007. Plio–Quaternary stepwise drying of Asia: Evidence from a 3-Ma pollen record from the Chinese Loess Plateau. Earth and Planetary Science Letters, 257, 160–169.LAWES-3(SCI-1)

40.Xia,D.-S., Yang, L.-P., Ma, J.-Y., Yu, Y., Wang, G., Chen, F.-H., 2007. Magnetic characteristics of dustfall in urban area of north China and its environmental significance. Science in China Series D-Earth Sciences 50 (11): 1724-1732 Nov.LAWES-2(SCI-4)

41.Yang, B., Achim Brauning, Zhang, Z.-Y., Dong, Z.-B., Jan, Esper., 2007, Dust storm frequency and its relation to climate changes in Northern China during the past 1000 years. Atmospheric Environment 41, 9288–9299.LAWES-2 (SCI-2)

42.Zhang, H.-C., Chang, F.-Q., Li, B., Lei, G.-L., Chen, Y., Zhang, W.-X., Niu, J., Fan, H.-F., Yang, M.-S., 2007. Branched aliphatic alkanes of shell bar SCItion in Qarhan Lake, Qaidam Basin and their paleoclimate significance. Chinese Science Bulletin. 52(9), 1248-1256.LAWES-2(SCI-3)

43.Zhao, H., Chen, F.-H., Li, S.-H., G. Wintle, Fan, Y.-X., Xia, D.-S., 2007, A record of Holocene climate change in the Guanzhong Basin, China, based on optical dating of a loess-palaeosol sequence. The Holocene, 17(7), 1015–1022.LAWES-2(SCI-2)

非第一作者标注实验室

44.Anisimov, O.A., Lobanov V., Reneva S., Shiklomanov N., Zhang T. J., Nelson F. 2007, Uncertainties in gridded air temperature fields and effects on predictive active layer modeling, J. Geophys. Res., 112, F02S14, doi:10.1029/2006JF000593.（SCI-2, 3.021）

45.Dupont-Nivet G, Krijgsman W, Langereis CG, Abels HA, Dai, S., Fang, X.-M., 2007, Tibetan plateau aridification linked to global cooling at the Eocene-Oligocene transition.Nature，445 (7128), 635-638.LAWES-3（SCI-1）

46.Duo C., Lu L. X. , and Zhang T. J., 2007: Sensitivity of NDVI to Seasonal and Inter-annual Climate Conditions in Lhasa area, Tibetan Plateau, Arctic, Antarctic, and Alpine Research 39(4), 635-641.（SCI-3, 1.316）

47.Chen, Y.-M., Feng, Z.-D., Gong., H.-L., 2007, Test of magnetic susceptibility and grain-size age models of loess. Progress in Natural Science 17(11), 1312-1317.（SCI-4）

48.Fan, G., Zhang T. J., Ji J. J., Li K. R., Liu J. Y., 2007: Numerical simulation of the carbon cycle over the Tibetan Plateau, China, Arctic, Antarctic, and Alpine Research, 39(4), 723-732.（SCI-3, 1.316）

49.Guo, L.-L., Feng, Z.-D., Li, X.-Q., Liu L.-Y., Wang, L.-X., 2007. Holocene climatic and environmental changes recorded in Baahar Nuur Lake core in the Ordos Plateau, Inner Mongolia of China, Chinese Science Bulletin 52(7), 959-966.LAWES-2（SCI-3）

50.Holmes, Jonathan , Zhang, J.-W., Chen F.-H., Qiang, M.-R., 2007, Paleoclimatic implications of an 850-year oxygen-isotope record from the northern Tibetan Plateau Geophysical Research Letters.34(23) : L23403.（SCI-4）

51.Nie, J.-S., King J W., Fang, X.-M., 2007, Enhancement mechanisms of magnetic susceptibility in the Chinese red-clay sequence. Geophysical Research Letters 34(19): L19705.（SCI-2）

52.Ma, Y.-Z, Liu, K.-B., Feng, Z.-D., Sang, Y.-L,m Wei, W., Sun, A.-Z., 2007, A survey of modern pollen and vegetation along a north–south tranSCIt in Mongolia. Journal of Biogeography doi:10.1111/j.1365-2699.2007.01871.xLAWES-3（SCI-4）

53.Oelke, C., Zhang T. J., 2007: Modeling the soil thermal regime of the Tibetan Plateau, Arctic, Antarctic, and Alpine Reseaerch, 39(4), 714-722.（SCI-3, 1.316）

54.Saito, K., Kimoto M., Zhang T. J., Takata K., Emori S., 2007, Changes in hydro-thermal regimes in frozen ground regions under global warming scenarios simulated by a high-resolution climate model, J. Geophys. Res., 112, F02S11, doi:10.1029/2006JF000577.（SCI-2, 3.021）

55.Scheafer, K., Zhang T. J., Tans P., Stockli R., Soil temperature reemergence in seasonally frozen ground regions, J. Geophysi. Res., 112, D20102, doi:10.1029/2007JD008630.（SCI-2, 3.021）

56.Shiklomanov, N. I., Anisimov O. A., Zhang T. J., Marchenko S., Nelson F., Oelke C., 2007, Analysis of model-produced permafrost active layer fields: Results for northern Alaska, J. Geophys. Res., 112, F02S10, doi:10.1029/2006JF000571.（SCI-2, 3.021）

57.Steffen. Mischke, Ulrike. Herzschuh, Gudrun. Massmann, Zhang, C.-J., 2007. An ostracod-conductivity transfer function for Tibetan lakes. Journal of Paleolimnology. 38: 509–524, DOI 10.1007/s10933-006-9087-5. LAWES-3（SCI-2）

58.Tang, L.-Y., An, C.-B., 2007. Pollen records of Holocene vegetation and climate changes in the longzhong basin of the Chinese Loess Plateau. Progress in Natural Science 17(12), 1445-1456.

59.White, D., Larry Hinzman, Lilian Alessa, John Cassano, Molly Chambers, Kelly Falkner, Jennifer Francis, William J. Gutowski Jr., Marika Holland, R. Max Holmes, Henry Huntington, Douglas Kane, Andrew Kliskey, Craig Lee, James McClelland, Bruce Peterson, T. Scott Rupp, Fiamma Straneo, Michael Steele, Rebecca Woodgate, Daqing Yang, Kenji Yoshikawa, Zhang T. J.，The arctic freshwater system: Changes and impacts, J. Geophys. Res., 112, G04S54, doi:10.1029/2006JG000353.（SCI-2, 3.021）

60.Xia, D.-S., Chun, X., Jan Bloemendal, Richard C. Chiverrell, Fahu Chen, 2007. Use of magnetic signatures to correlate tephra layers in Holocene loessial soil profiles from a small region, SE Iceland. Environ Geol 51, 1425–1437. LAWES-3（SCI-4）

61.Yang, M.-X., Yao, T.-D., Gou, X.-H., Wang, H.-J., Tang, H.-G., 2007. The spatially heterogeneous distribution of precipitation of the Anduo area, Tibetan Plateau, in summer 1998. Hydrological Sciences Journal-Journal Des Sciences Hydrologiques 52 (4), 645-653.LAWES-4（SCI-4）

62.Yang, M.-X., Yao, T.-D., Gou, X.-H., Hirose Nozomu, Fujii. Hide. Yuki, Hao, L.-S., D. F. Levia., 2007, Diurnal freeze/thaw cycles of the ground surface on the Tibetan Plateau. Chinese Science Bulletin 52(1), 136-139. LAWES-3（SCI-3）

63.Yang, M.-X., Yao, T.-D., Gou, X.-H., Wang, H.-J, Hao, L.-S, 2007. Comparison analysis of the summer monsoon precipitation between northern and southern slopes of Tanggula Mountains, Qinghai–Xizang (Tibetan) Plateau: a case study in summer 1998, Hydrological Processes 21, 1841-1847. LAWES-3（SCI-4）

64.Zhang, T., 2007: Perspectives on environmental study of response to climatic and land use and land cover change over the Qinghai-Tibetan Plateau: An introduction, Arctic, Antarctic, and Alpine Research, 39(4), 631-634.（SCI-3, 1.316）

65.Zhang, T. J., Nelson F., Gruber S., 2007, Introduction to Special SCItion: Permafrost and seasonally frozen ground under a changing climate, J. Geophys. Res., 112, F02S01, doi:10.1029/2007JF000821.（SCI-2, 3.021）

66.Zhu, G.-F., Li, Z.-Z., Su, Y.-H., Ma, J.-Z., Zhang, Y.-Y., 2007. Hydrogeochemical and isotope evidence of groundwater evolution and recharge in Minqin Basin, Northwest China. Journal of Hydrology 339 (3-4): 227-228. LAWES-4（SCI-2）

2006年度

（实验室共发表SCI论文48篇，其中，第一作者第一单位论文24篇，一区3篇）

第一作者第一单位标注实验室

1.An, C.-B., Feng, Z.-D., Loukas, B., 2006. Dry or humid? mid-holocene humidity changes in arid and semi-arid china. Quaternary Science Reviews 25, 351–361.(SCI-1)

2.Bai, Y., Fang, X.-M., Wang, Y.-L., Kenig, F., Chen, X.-L., Wang, Y.-X., 2006. Branched alkanes with quaternary carbon atoms in chinese soils: Potential environmental implications. Chinese Science Bulletin 51 (9), 1115–1122.(SCI-4)

3.Chen, F.-H., Cheng, B., Zhao, Y., Zhu, Y., Madsen, D., 2006a. Holocene environmental change inferred from a high-resolution pollen records of lake zhuyeze, arid china. The Holocene 16 (5), 675–684.(SCI-2)

4.Chen, F.-H., Huang, X.-Z., Zhang, J.-W., Holmes, J., Chen, J.-H., 2006. Humid little ice age in arid central asia documented by bosten lake, xinjiang, china. Science in China D: Earth Sciences 49.(SCI-4)

5.Chen, F.-H., Rao, Z.-G., Zhang, J.-W., Jin, M., Ma, J.-Y., 2006c. Variations of organic carbon isotope and its environmantal significance during the last glacial on western chinese loess plateau. Chinese Science Bulletin 51 (13), 1593–1602.(SCI-4)

6.Dai, S., Fang, X.-M., Dupont-Nivet, G., Song, C.-H., Gao, J.-P., Krijgsman, W., Langereis, C., Zhang, W.-L., 2006.. Magnetostratigraphy of cenozoic sediments from the xining basin: Tectonic implications for the northeastern tibetan plateau. Journal of Geophysical Research 111, B11102.(SCI-1)

7.Fan, M.-J., Song, C.-H., Dettman, D. L., Fang, X.-M., Xu, X.-H., 2006. Intensification of the asian winter monsoon after 7.4 ma: Grain-size evidence from the linxia basin, northeastern tibetan plateau, 13.1 ma to 4.3 ma. Earth and Planetary Science Letters 248, 171–182.(SCI-1)

8.Feng, Z.-D., Tang, L.-Y., Wang, H.-B., Ma, Y.-Z., Liu, K.-B., 2006. Holocene vegetation variations and the associated environmental changes in the western part of the chinese loess plateau. Palaeogeography, Palaeoclimatology, Palaeoecology 241 (3-4), 440–456.（SCI-3）

9.Feng, Z.-D., Wang, H.-B., 2006. Geographic variations in particle size distribution of the last interglacial pedocomplex s1 across the chinese loess plateau: Their chronological and pedogenic implications. Catena 65 (3), 315–328.(SCI-4)

10.Gou, X.-H, Chen, F.-H, Yang, M.-X., Jacoby, Gordon., Peng, J.-F., Zhang, Y.-X., 2006. A comparison of tree-ring records and glacier variations over the past 700 years, northeastern Tibetan Plateau. Annals of Glaciology 43, 86-90.(SCI-4)

11.Jin, L.-Y.,Wang, H.-J., Chen, F.-H., Jiang, D.-B., 2006. A possible impact of cooling over the tibetan plateau on the mid-holocene east asian monsoon climate. Advances in Atmospheric Sciences 23 (4), 543–550.(SCI-4)

12.Li, J.-B., Gou, X.-H., Cook, E., Chen, F.-H., 2006. Tree-ring based drought reconstruction for the central tien shan area in northwest china. Geophysical Research Letters 33, L07715.(SCI-2)

13.Li, J.-J., Zhang J., Song, C.-H, Zhao, Z.-J., Zhang, Y., Wang. X.-X., Zhang J.-M., Cui, Q.-Y., 2006, Miocene Bahean stratigraphy in the Longzhong Basin,northern central China and its implications in environmental change. Science in China Series D: Earth Sciences 49(12), 1270—1279.(SCI-4)

14.Li, X.-Z., Yi, C.-L., Chen, F.-H., Yao, T.-D., Li, X., 2006. Formation of proglacial dunes in front of the puruogangri icefield in the central qinghai–tibet plateau: Implications for reconstructing paleoenvironmental changes since the lateglacial. Quaternary International, 122–127.(SCI-3)

15.Ma, J.-Z., Edmunds, W. M., 2006. Groundwater and lake evolution in the badain jaran desert ecosystem, inner mongolia. Hydrogeology Journal.(SCI-4)

16.Sun, B.-N., Yan, D.-F., Xie, S.-P., Shi, Y.-J., Zhang, C.-J., Li, Z.-C., 2006. Geochemical characteristics of fossil solenites murrayana cuticles from the jurassic in lanzhou, northwest china. Progress in Natural Science 16, 249–257.(SCI-4)

17.Wang, Z.-T., 2006. Influence of moisture on the entrainment of sand by wind. Powder Technology 164 (2), 89–93.(SCI-4)

18.Wang, Z.-T., Zhou, Y.-H., Zheng, X.-J., 2006. Tensile test of natural microbiotic crust. Catena 67 (2), 139–143.(SCI-3)

19.Wang, Y.-L., Fang, X.-M., Yan, B., Xi a, X.-X., Yang, S.-L., Wang, Y.-X., 2006, Macrocyclic alkanes in modern soils of China. Organic Geochemistry 37,146–151.(SCI-2)

20.Xie, S.-P., Sun, B.-N., Yan, D.-F., Xiao, L., Wei, L.-J., 2006. Leaf cuticular characters of ginkgo and implications for paleoatmospheric co2 in the jurassic. Progress in Natural Science 16, 258–263.(SCI-4)

21.Yu, Y.-T., Yang, T.-B., Li, J.-J., Liu, J.-F., An, C.-R., Liu, X.-Y., Fan, Z., Lu, Z.-Y., Li, Y.-P., Su, X., 2006. Millennial-scale holocene climate variability in the nw china drylands and links to the tropical pacific and the north atlantic. Palaeogeography, Palaeoclimatology, Palaeoecology 233 (1-2), 149–162.(SCI-3)

22.Zhang, H.-C., Li, B., Yang, M.-S., Lei, G.-L., Ding, H., Niu, J., Fan, H.-F., Zhang, W.-X., Chang, F.-Q., 2006. Dating paleosol and animal remains in loess deposits. Radiocarbon 48 (1), 109–116.(SCI-3)

23.Zhang, H.-C., Ming, Q.-Z., Lei, G.-L., Zhang, W.-X., Fan, H.-F., Chang, F.-Q., Wunnemann, B., Hartmann, K., 2006b. Dilemma of dating on lacustrine deposits in a hyperarid inland basin of nw china. Radiocarbon 48 (2), 219–226.(SCI-3)

24.Zhao, Y., Sayer, C. D., Birks, H. H., Hughes, M., Peglar, S. M., 2006. Spatial representation of aquatic vegetation by macrofossils and pollen in a small and shallow lake. Journal of Paleolimnology 35 (2), 335–350.(SCI-2)

第一作者第二、三单位标注实验室

25.Bai, Y., Fang, X.-M., Wang, Y.-L., Kenig, F., Miao, Y.-F., Wang, Y.-X., 2006. Distribution of aliphatic ketones in chinese soils: Potential environmental implications. Organic Geochemistry 37, 860–869.LAWES-2

26.Rao, Z.-G., Zhu, Z., Chen, F.-H., Zhang, J., 2006. Does delta c-13(carb) of the chinese loess indicate past c-3/c-4 abundance? a review of research on stable carbon isotopes of the chinese loess. Quaternary Science Reviews 25, 2251–2257.LAWES-2

27.Wang, G.-X., Wang, Y.-B., Kubota JUMPEI., 2006. land-cover changes and its impacts on ecological variables in the headwaters area of the yangtze river, china Environmental Monitoring and Assessment 120: 361–385LAWES-2

28.Wang, X.-M., Chen, F.-H., Dong, Z.-B., 2006. The relative role of climatic and human factors in desertication in semiarid china. Global Environmental Change: Human and Policy Dimensions 16(1), 48–57.LAWES-2

29.Wang, X.-M.,Wang, T., Dong, Z.-B., Liu, X.-P., Qian, G.-Q., 2006. Nebkha development and its significance to wind erosion and land degradation in semi-arid northern china. Journal of Arid Environments 65 (1), 129–141.LAWES-2

30.Wang, X.-M., Zhou, Z.-J., Dong, Z.-B., 2006. Control of dust emissions by geomorphic conditions, wind environments and land use in northern china: An examination based on dust storm frequency from 1960 to 2003. Geomorphology 81, 292–308.LAWES-2

31.Yue, D.-X., Xu, X.-F., Li, Z.-Z., Hui, C., Li, W.-L., Yang, H.-Q., Ge, J.-P., 2006. Spatiotemporal analysis of ecological footprint and biological capacity of gansu, china 1991-2015: Down from the environmental cliff. Ecological Economics 58 (2), 393–406.LAWES-2

非第一作者标注实验室

32.Chudinova, S. M., Frauenfeld O. W., Barry R. G., Zhang T. J., Sorokvikov V. A., 2006. Relationship between air and soil temperature trends and periodicities in the permafrost regions of Russia, J. Geophys. Res., 111, F02008, doi:10.1029/2005JF00342.（SCI-2, 3.021）

33.Edmunds, W., Ma, J.-Z., Aeschbach-Hertig, W., Kipfer, R., Darbyshire, D., 2006. Groundwater recharge history and hydrogeochemical evolution in the minqin basin, north west china. Applied Geochemistry 21, 2148–2170.LAWES-2（SCI-2）

34.Feng, Z.-D., An, C.-B., Wang, H.-B., 2006. Holocene climatic and environmental changes in the arid and semi-arid areas of china: a review. The Holocene 16 (1), 119–130.LAWES-2（SCI-2）

35.Han, Y.-X., Fang, X.-M., Xi, X.-X., Song, L.-C., Yang, S.-L., 2006. Dust storm in asia continent and its bio-environmental effects in the north pacific: A case study of the strongest dust event in april, 2001 in central asia. Chinese Science Bulletin 51 (6), 723–730. LAWES-3（SCI-4）

36.Johnson, K. R., Ingram, B. L., Sharp, W. D., Zhang, P.-Z., 2006. East asian summer monsoon variability during marine isotope stage 5 based on speleothem delta o-18 records from wanxiang cave, central china. Palaeogeography, Palaeoclimatology, Palaeoecology 236 (1-2),5–19. LAWES-3（SCI-2）

37.Su, R.-X., Sun, D.-H., Bloemendal, J., Zhu, Z.-Y., 2006. Temporal and spatial variability of the oxygen isotopic composition of massive corals from the south china sea: Influence of the asian monsoon. Palaeogeography, Palaeoclimatology, Palaeoecology 240 (3-4), 630–648. LAWES-3（SCI-2）

38.Wu, G.-J., Pan, B.-T., Gao, H.-S., Guan, Q.-Y., Xia, D.-S., 2006. Climatic signals in the chinese loess record for the last glacial: The influence of northern high latitudes and the tropical pacific. Quaternary International 154-155, 128–135. LAWES-3（SCI-4）

39.Xia, D.-S., Chun, X., Bloemendal, J., Chiverrell, R. C., Chen, F.-H., 2006. Use of magnetic signatures to correlate tephra layers in holocene loessial soil profiles from a small region, se iceland. Environmental Geology. (SCI,Online First). LAWES-3（SCI-4）

40.Yang, M.-X., Yao, T.-D., Wang, H.-J., Gou, X.-H., 2006. Correlation between precipitation and temperature variations in the past 300 years recorded in guliya ice core, china. Annals of Glaciology 43, 137–141. LAWES-4（SCI-4）

41.Yang, M.-X., Yao, T.-D., Wang, H.-J., Tian, L.-D., Gou, X.-H., 2006. Estimating the criterion for determining water vapour sources of summer precipitation on the northern tibetan plateau. Hydrological Processes 20, 505–513. LAWES-4（SCI-4）

42.Zhao, C.-Y., Nan, Z.-R., Cheng, G.-D., Zhang, J.-H., Feng, Z.-D., 2006. Gis-assisted modelling of the spatial distribution of qinghai spruce (picea crassifolia) in the qilian mountains, northwestern china based on biophysical parameters. Ecological Modelling 191 (3-4), 487–500. LAWES-2 （SCI-4）

实验室人员没有标注实验室等

43.Gou, X.-H., Chen, F.-H., Yang, M.-X., Jacoby, G., Peng, J.-F., Zhang, Y.-X., 2006. A comparison of tree-ring records and glacier variations over the past 700 years, northeastern tibetan plateau. Annals of Glaciology 43, 86–90.LAWES-B

44.Liu, J., Chen, X.-P., 2006. Relationship of remote sensing normalized differential vegetation index to anopheles density and malaria incidence rate. Biomedical and Environmental Sciences 19 (2), 130–132.LAWES-B

45.Wunnemann, B., Mischke, S., Chen, F.-H., 2006. A holocene sedimentary record from bosten lake, china. Palaeogeography, Palaeoclimatology, Palaeoecology 234 (3-4), 223-238.LAWES-B

46.Wang, Y.-L., Fang, X.-M., Bai, Y., Xi, X.-X., Yang, S.-L., Wang, Y.-X., 2006. Macrocyclic alkanes in modern soils of china. Organic Geochemistry 37, 146–151.LAWES-B

47.Chudinova, S. M., Frauenfeld O. W., Barry R. G., Zhang T. J., Sorokvikov V. A., 2006. Relationship between air and soil temperature trends and periodicities in the permafrost regions of Russia, J. Geophys. Res., 111, F02008, doi:10.1029/2005JF00342.（SCI-2, 3.021）

2005年度

（实验室共发表SCI论文18篇，其中，第一作者第一单位论文13篇）

第一作者第一单位标注实验室

1.An, C.-B., Tang, L., Barton, L., Chen, F.-H., 2005. Climate change and cultural response around 4000 cal yr bp in the western part of chinese loess plateau. Quaternary Research 63 (3), 347–352.(SCI-2)

2.Dai, S., Fang, X.-M, Song, C.-H., Gao, J.-P., Gao, D.-L., Li, J.-J, 2005. Early tectonic uplift of the northern tibetan plateau. Chinese Science Bulletin 50 (15), 1642–1652.(SCI-4)

3.Feng, Z.-D, Wang, H.-B., 2005. Pedostratigraphy and carbonate accumulation in the last interglacial pedocomplex of the chinese loess plateau. Soil Science Society of America Journal 69 (4), 1094–1101.(SCI-2)

4.Feng, Z.-D, Wang, W.-G., Guo, L.-L., Khosbayar, P., Narantsetseg, T., Jull, A., An, C.-B., Li, X.-Q., Zhang, H.-C., Ma, Y.-Z., 2005. Lacustrine and eolian records of holocene climate changes in the mongolian plateau: preliminary results. Quaternary International 136 (1), 25–32.(SCI-3)

5.Gou, X.-H., Chen, F.-H, Yang, M., Li, J.-J, 2005. Climatic response of thick leaf spruce (picea crassifolia) tree-ring width at different elevations over qilian mountains, northwestern china. Journal of Arid Environments 61 (4), 513–524.(SCI-4)

6.Jin, L.-Y, Ganopolski, A., Chen, F.-H, Claussen, M., Wang, H.-J., 2005. Impacts of snow and glaciers over tibetan plateau on holocene climate change: Sensitivity experiments with a coupled model of intermediate complexity. Geophysical Research Letters 32 (17), Art. No. L17709.(SCI-2)

7.Ma, J.-Z., Wang, X.-S., Edmunds, W., 2005. The characteristics of ground-water resources and their changes under the impacts of human activity in the arid northwest china - a case study of the shiyang river basin. Journal of Arid Environments 61 (2), 277–295.(SCI-4)

8.Ma, Y.-Z., Fang, X.-M., Li, J.-J., Wu, F.-L., Zhang, J., 2005. The vegetation and climate change during neocene and early quaternary in jiuxi basin, china. Science in China Series D-Earth Sciences 48 (5), 676–688.(SCI-4)

9.Ma, Y.-Z., Wu, F.-L., Fang, X.-M., Li, J.-J., An, Z.-H., Wang, W., 2005. Pollen record from red clay sequence in the central loess plateau between 8.10 and 2.60ma. Chinese Science Bulletin 50 (19), 2234–2243.(SCI-4)

10.Pan, B.-T., Wang, J.-P., Gao, H.-S., Chen, Y.-Y., Li, J.-J., Liu, X.-F., 2005. Terrace dating as an archive of the run-through of the the sanmen gorges. Progress in Natural Science 15 (12), 1096–1103.(SCI-4)

11.Pan, B.-T, Wang, J.-P., Gao, H.-S., Guan, Q.-Y., Wang, Y., Su, H., Li, B.-Y., Li, J.-J., 2005. Paleomagnetic dating of the topmost terrace in kouma, henan and its indication to the yellow river’s running through sanmen gorges. Chinese Science Bulletin 50 (7), 657–664.(SCI-4)

12.Song, C.-H., Gao, D-L., Fang, X.-M, Cui, Z.-J., Li, J.-J., Yang, S.-L, Jin, H.-B., Douglas, B., Joseph, L., 2005. Late cenozoic high-resolution magnetostratigraphy in the kunlun pass basin and its implications for the uplift of the northern tibetan plateau. Chinese Science Bulletin 50 (17), 1912–1922.(SCI-4)

13.Zhou, S.-Z., Xu, L.-B., Cui, J.-X., Zhang, X.-W., Zhao, J.-D., 2005, Geomorphologic evolution and environmental changes in the Shaluli Mountain region during the Quaternary. Chinese Science Bulletin 50 (1), 52-57.(SCI-4)

第一作者第二、三单位标注实验室

14.Fang,X.-M., Zhao,Z.-J., Li,J.-J., Yan,M.-D., Pan,B.-T., Song,C.-H., Dai,SA., 2005,Magnetostratigraphy of the late Cenozoic Laojunmiao anticline in the northern Qilian Mountains and its implications for the northern Tibetan Plateau uplift.Science In China Series D-Earth Sciences 48 (7),1040-1051.LAWES-2

15.Qiang, M.-R, Chen, F.-H., Zhang, J.-W., Gao, S.-Y., Zhou, A.-F., 2005.Climatic changes documented by stable isotopes of sedimentary carbonate in lake sugan, northeastern tibetan plateau of china, since 2 kabp. Chinese Science Bulletin 50 (17), 1930–1939.LAWES-2

16.Ta, W.-Q., Wei, C., Chen, F.-H, 2005.Long-term measurements of so2 dry deposition over gansu province, china. Atmospheric Environment 39 (37), 7095–7105.LAWES-2

非第一作者标注实验室

17.Wu, G.-J., Pan, B.-T., Guan, Q.-Y., Xia, D-.S., 2005. Terminations and their correlation with solar insolation in the northern hemisphere: a record from a loess SCItion in northwest china. Palaeogeography, Palaeoclimatology, Palaeoecology 216 (3-4), 267–277.LAWES-3（SCI-2）

18.Zhao, C.-Y., Nan, Z.-R., Cheng, G.-D., 2005. Methods for estimating irrigation needs of spring wheat in the middle heihe basin, china. Agricultural Water Management 75 (1), 54–70.LAWES-3（SCI-4）

实验室人员没有标注实验室等

19.Fang,X.-M., Yan,M.-D., Van der Voo R, Rea DK, Song,C.-H., Pares JM, Gao,J.-P, Nie,J.-S., Dai,S., 2005,Late Cenozoic deformation and uplift of the NE Tibetan plateau: Evidence from high-resolution magneto stratigraphy of the Guide Basin, Qinghai Province, China.Geological Society Of America Bulletin 117 (9-10),1208-1225.LAWES-3

20.Wu, G.-J., Pan, B.-T., Guan, Q.-Y., Xia, D-.S., 2005. Terminations and their correlation with solar insolation in the northern hemisphere: a record from a loess SCItion in northwest china. Palaeogeography, Palaeoclimatology, Palaeoecology 216 (3-4), 267–277.LAWES-3

21.Zhao, C.-Y., Nan, Z.-R., Cheng, G.-D., 2005. Methods for estimating irrigation needs of spring wheat in the middle heihe basin, china. Agricultural Water Management 75 (1), 54–70.LAWES-3

22.Lee, X.-Q., Feng, Z.-D., Guo, L.-L., Wang, L.-X., Jin L.-Y., Huang, Y.-S., Mark Chopping, J,W., 2005,Carbon isotope of bulk organic matter: A proxy for precipitation in the arid and semiarid central East Asia. Global Biogeochemical Cycles, (19), doi:10.1029/2004GB002303.

会议论文或摘要

1.Chen, X.-P., Li, Y.-J., Wu, J.-H., Xue, B., Liu, Q.-G., 2005.Emergy-based eco-environmental evolution and resources exploitation analysis: Case of xinjiang. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 7, 5300– 5303, (EI).

2.Fan, Y., Zhao, H., Chen, F., Huang, X., Yang, M., 2005.Osl chronological evidences for the first appearance ofBosten lake since last glacial maximun. In: the 11th international Conference on Luminescence and Electron Spin Resonance Dating (LED 2005). Cologne, Germany, p. 60.

3.Gao, H.-S., Pan, B.-T., Wang, Y.-X., Li, J.-J., 2005. Erosion surface in eastern qilian mountains and uplift of the tibetan plateau. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 7, 5212–5215, (EI).

4.Gao, L.-M., Chen, X.-P., Tuo, X.-S., Liu, Q.-G., 2005b. The rs&gis based study of the spatiotemporal changes of ecological environment in northwestern china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 3, 1538–1541, (EI).

5.Guan, Q.-Y., Pan, B.-T., Gao, H.-S., Wang, J.-P., 2005. A warm-return event during the transition of last interglacial-glacial cycle. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 8, 5320–5323, (EI).

6.Li, Q., Pan, B.-T., Shang-Guan, D.-H., Yang, S.-L., 2005. Gis-based modeling fluvial erosion in arid region of northwest china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 8, 5354–5356, (EI).

7.Liu, Q.-G., Chen, X.-P., Miao, H., Gao, L.-M., Xue, B., 2005. Land cover changes and some proposals for promoting sustainable development in the source regions of the yellow river, china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 4, 2394–2397, (EI).

8.Nan, Z.-R., Zhang, J.-H., Zhao, C.-Y., 2005.Impacts of site specific stands on oasis soil nutrient status in hexi corridor, northwest china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 6, 4473–4476, (EI).

9.Nan, Z.-R., Zhang, J.-H., Zhao, C.-Y., 2005.Temporal-spatial variation of soil water contents in hexi oasis, gansu province, northwest china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 6, 4425– 4428, (EI).

10.Wang, Y.-X., Pan, B.-T., Gao, H.-S., Liu, Y., 2005. Planation surface extraction and quantitative analysis based on high-resolution digital elevation models. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 8, 5369–5371, (EI).

11.Wang, Y., Pan, B.-T., Gao, H.-S., Zhang, H., Li, Q., Liu, X.-F., 2005.A new paleoenvironmental change proxy investigation in semi-arid and arid region of china. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 7, 5280–5282, (EI).

12.Xu, S.-J., Pan, B.-T., 2005. Changes in sand content of loess along a tranSCIt of western chinese loess plateau and implications for desert evolution. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 8, 5340–5342, (EI).

13.Xue, B., Chen, X.-P., Huang, Y., Li, Y.-J., Liu, Y., 2005.A study on the landscape structure and change of the valley-city. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 3, 1526–1529, (EI).

14.Yu, X.-L., Chen, X.-P., Xue, B., 2005.Application and discussion in small scale of china in research of ecological footprint - take the ef of lanzhou university(graduate school) in 2003 as an example. Geoscience and Remote Sensing Symposium, 2005. IGARSS ’05. Proceedings. 2005 IEEE International 8, 5336–5339, (EI).

15.Zhao, H., Chen, F., Fan, Y., Xia, D., Li, S., 2005.Optical dating of loess SCItions in the guanzhong loess plateau of china. In: the 11th international Conference on Luminescence and Electron Spin Resonance Dating (LED 2005). Cologne, Germany, p. 219.

2004年度

（实验室共发表SCI论文25篇，其中，第一作者第一单位论文15篇）

第一作者第一单位标注实验室

1.An, C.-B., Feng, Z.-D., Tang, L.-Y., 2004. Environmental change and cultural response between 8000 and 4000 cal. yr bp in the western loess plateau, northwest china. Journal of Quaternary Science 19 (6), 529–535.(SCI-2)

2.Fang, X.-M., Han, Y., Ma, J., Song, L., Yang, S., Zhang, X., 2004.Dust storms and loess accumulation on the tibetan plateau: A case study of dust event on 4 march 2003 in lhasa. Chinese Science Bulletin 49 (9), 953–960.(SCI-4)

3.Feng, Z.-D., An, C.-B., Tang, L., Jull, A., 2004. Stratigraphic evidence of a megahumid climate between 10,000 and 4000 years bp in the western part of the chinese loess plateau. Global and Planetary Change43 (3-4), 145–155.(SCI-4)

4.Feng, Z.-D., Khosbayar, P., 2004. Paleosubarctic eolian environments along the southern margin of the north american icesheet and the southern margin of siberia during the last glacial maximum. Palaeogeography,Palaeoclimatology,Palaeoecology 212 (3-4), 265–275.(SCI-3)

5.Feng, Z.-D., Wang, H.-B., Olson, C., 2004. Pedogenic factors affecting magnetic susceptibility of the last interglacial palaeosol s1 in the chinese loess plateau. Earth Surface Processes and Landforms 29 (11),1389–1402.(SCI-4)

6.Feng, Z.-D, Wang, H.-B., Olson, C., Pope, G., Chen, F.-H., Zhang, J., An, C.-B., 2004.Chronological discord between the last interglacial paleosol (s1) and its parent material in the chinese loess plateau. Quaternary International 117, 17–26.(SCI-3)

7.Ma, Y.-Z, Zhang, H.-C., Pachur, H., Li, J.-J., Feng, Z.-D., 2004.Modern pollen-based interpretations of mid-holocene palaeoclimate (8500 to 3000 cal. bp) at the southern margin of the tengger desert, northwestern china. The Holocene 14 (6), 841–850.(SCI-2)

8.Sun, B., Yan, D., Xie, S., Cong, P., Xin, C., Yun, F., 2004, Palaeogene fossil Populus leaves from Lanzhou Basin and their palaeoclimatic significance, Chinese Science Bulletin 49 (14), 1494-1501.(SCI-4)

9.Wang, G.-X, Ma, H.-Y., Qian, J., Chang,J., 2004.Impact of land use changes on soil carbon, nitrogen and phosphorus and water pollution in an arid region of northwest china. Soil Use and Management 20 (1), 32–39.(SCI-3)

10.Wang, G.-X, Yao, J.-Z., Luo, L., Qian, J., 2004. Soil c and n content under evolving landscapes in an arid inland river basin of northwest china. Landscape Ecology 19 (6), 621–629.(SCI-3)

11.Wang, W.-G., Feng, Z.-D., Lee, X.-Q., Zhang, H.-C., Ma, Y.-Z., 2004.Holocene abrupt climate shifts recorded in gun nuur lake core, northern mongolia. Chinese Science Bulletin 49 (5), 520–526.(SCI-4)

12.Wu, F.-L., Fang, X.-M., Ma, Y.-Z., An, Z.-S., Li, J.-J., 2004.A 1.5 ma sporopollen record of paleoecologic environment evolution in the central chinese loess plateau. Chinese Science Bulletin 49 (3), 295–302.(SCI-4)

13.Zhang, H.-C, Peng, J.-L, Ma, Y.-Z, Chen, G., Feng, Z.-D, Li, B., Fan, H.-F, Chang, F.-Q, Lei, G.-L, Wunnemann, B., 2004.Late Quaternary palaeolake levels in Tengger Desert, NW China. Palaeogeography, Palaeoclimatology, Palaeoecology 211 (1-2), 45-48.(SCI-3)

14.Zhang, P.-Z, Johnson, K., Chen, Y.-M., Chen, F-H., Lynn, I., Zhang, X.-L., Zhang, C.-J., Wang, S.-M., Pang, F.-S., Long, L.-D., 2004.Modern systematics and environmental significance of stable isotopic variations in wanxiang cave, wudu, gansu, china. Chinese Science Bulletin 49 (15), 1649–1652.(SCI-4)

15.Zhao, C.-Y., Nan, Z.-R., Feng, Z.-D., 2004, GIS-assisted spatially distributed modeling of the potential evapotranspiration in semi-arid climate of the Chinese Loess Plateau. Journal of Arid Environments 58, 387-403.(SCI-4)

第一作者第二、三单位标注实验室

16.Lu,L.-Q.,Fang, X.-M., Lu, H., Han, Y., Yang, S., Li, J.-J., An, Z.-S., 2004.Millennialscale climate change since the last glaciation recorded by grain sizes of loess deposits on the northeastern tibetan plateau. Chinese Science Bulletin 49 (11), 1157–1164.LAWES-2 (SCI-4)

17.Wang, G.-X., Tuo, W.-Q, Du, M.-Q., 2004.Flux and composition of wind-eroded dust from different landscapes of an arid inland river basin in northwestern china. Journal of Arid Environments 58 (3), 373–385.LAWES-2(SCI-4)

18.Wang, G., Yao, J.-Z., Guo, Z.-G., Wu, Q.-B., 2004.Changes in permafrost ecosystem under the influences of human engineering activities and its enlightenment to railway construction. Chinese Science Bulletin 49 (16), 1741–1750.LAWES-2(SCI-4)

实验室人员没有标注实验室等

19.Sun, D., 2004. Monsoon and westerly circulation changes recorded in the late cenozoic aeolian sequences of northern china. Global and Planetary Change 41 (1), 63–80.LAWES-B

20.Sun, D., Bloemendal, J., Rea, D., An, Z., Vandenberghe, J., Lu, H., Su, R., Liu, T., 2004.Bimodal grain-size distribution of chinese loess, and its palaeoclimatic implications. Catena 55 (3), 325–340.LAWES-B

21.Vandenberghe, J., Lu, H., Sun, D., van Huissteden, J., Konert, M., 2004.The late miocene and pliocene climate in east asia as recorded by grain size and magnetic susceptibility of the red clay deposits (chinese loess plateau). Palaeogeography, Palaeoclimatology, Palaeoecology 204 (3-4), 239–255.LAWES-B

22.Wang, Z., Zheng, X., 2004. Theoretical prediction of creep flux in aeolian sand transport. Powder Technology 139 (2), 123–128.LAWES-B

23.Zheng, X., Wang, Z., Qiu, Z., 2004.Impact craters in loose granular media. European Physical Journal E 13 (3), 321–324.LAWES-B

24.Liu, Y., Zou, S., Chen, F., 2004.Bioclimatic modeling the spatial distribution of mountain forests in the qilian mountains, northwest of china, using down-scaled climatic models. In: IEEE International Geoscience and Remote Sensing. Vol. 7. IGARSS 2004, pp. 4625–4628, (EI).

25.Wang, Z., 2004. A note on the velocity of granular flow down a bumpy inclined plane. Granular Matter 6 (1), 67–69, (SCIE).LAWES-B

2003年度

（实验室共发表SCI论文25篇，其中，第一作者第一单位论文13篇，一区1篇）

第一作者第一单位标注实验室

1.An, C.-B., Feng, Z.-D., Tang, L.-Y., 2003. Evidence of a humid mid-holocene in the western part of chinese loess plateau. Chinese Science Bulletin 48 (22), 2472–2479.(SCI-4)

2.Chen, F.-H., Holmes, J., 2003.Multi-proxy evidence for late pleistoceneholocene environmental change in arid central asia : an overview of the rachad 2001 symposium. Chinese Science Bulletin 48 (14), 1397–1400.(SCI-4)

3.Chen, F.-H., Qiang, M.-R., Feng, Z.-D., Wang, H.-B., Bloemendal, J., 2003.Stable east asian monsoon climate during the last interglacial (eemian) indicated by paleosol s1 in the western part of the chinese loess plateau. Global and Planetary Change 36 (3), 171–179.(SCI-4)

4.Chen, F.-H, Wu, W., Holmes, J., Madsen, D., Zhu, Y., Jin, M., Oviatt, C., 2003.A mid-holocene drought interval as evidenced by lake desiccation in the alashan plateau, inner mongolia, china. Chinese Science Bulletin 48 (14), 1401–1410.(SCI-4)

5.Fang,X.-M., Garzione C, Van der Voo R, Li,J.-J, Fan,M.-J., 2003,Flexural subsidence by 29 Ma on the NE edge of Tibet from the magnetostratigraphy of Linxia Basin, China.Earthand Planetary Science Letters 210 (3-4),545-560.(SCI-1)

6.Li,X.-Q., Qin,D.-H., He,Y.-Q., Zhang,C.-L, Zhou,H., Jiao,K.-Q., 2003,Formate and acetate as recorded in a mid-latitude glacier in west China.Chinese Science Bulletin 48 (14),1483-1487.(SCI-4)

7.Ma, J.-Z., Li, D., Zhang, J.-W., Edmunds, W., Prudhomme, C., 2003.Groundwater recharge and climatic change during the last 1000 years from unsaturated zone of se badain jaran desert. Chinese Science Bulletin 48 (14), 1469–1474.(SCI-4)

8.Ma, Y.-Z., Zhang, H.-C., Pachur, H., Wunnemann, B., Li, J.-J., Feng, Z.-D., 2003.Late glacial and holocene vegetation history and paleoclimate of the tengger desert, northwestern china. Chinese Science Bulletin 48 (14), 1457–1463.(SCI-4)

9.Song, C.-H., Fang, X.-M., Gao, J.-P., Nie, J.-S., Yan, M.-D., Xu, X.-H., Sun, D., 2003.Magnetostratigraphy of late cenozoic fossil mammals in the northeastern margin of the tibetan plateau. Chinese Science Bulletin 48 (2), 188–193.(SCI-4)

10.Zhang, C.-J, Chen, F.-H, Jin, M., 2003.Study on modern plant c -13 in the western china and its significance. Chinese Journal of Geochemistry 22 (2), 97–106.(SCI-4)

11.Zhang, J.-W., Jin, M., Chen, F.-H., Battarbee, R., Henderson, A., 2003.High resolution precipitation variations in the north tibet plateau over the last 800 years documented by sediment cores of lake qinghai. Chinese Science Bulletin 48 (14), 1451–1456.(SCI-4)

12.Zeng,Y.-N., Feng,Z,-D, Cao,G.-C., 2003,Land cover change and its environmental impact in the Upper reaches of the Yellow River, Northeast Qinghai-Tibetan Plateau.Mountain Researchand Development 23 (4),353-361.(SCI-4)

13.Zhu, Y., Xie, Y.-W., Cheng, B., Chen, F.-H., Zhang, J.-W., 2003b.Pollen transport in the shiyang river drainage, arid china. Chinese Science Bulletin 48 (14), 1499–1506.(SCI-4)

第一作者第二、三单位标注实验室

14.Fang,X.-M., Lu,L.-Q., Mason JA, Yang,S.-L., An,Z.-S., Li,J.-J., Guo,Z.-L., 2003,Pedogenic response to millennial summer monsoon enhancements on the Tibetan Plateau. Quaternary International 106,79-88.LAWES-2

非第一作者标注实验室

15.Dettman DL, Fang,X.-M., Garzione,C.-N., Li,J.-J., 2003,Uplift-driven climate change at 12 Ma: a long delta O-18 record from the NE margin of the Tibetan plateau.Earth And Planetary Science Letters 214 (1-2),267-277.LAWES-2

16.Duan,K.-Q., Yao,T.-D., 2003,Precipitation variability in central Himalayas and its relation to Northern Hemisphere temperature.Chinese Science Bulletin 48 (14),1480-1482.LAWES-2

17.Henderson, A., Holmes, J., Zhang, J., Leng, M., Carvalho, L., 2003. A carbon- and oxygen-isotope record of recent environmental change from qinghai lake, ne tibetan plateau. Chinese Science Bulletin 48 (14), 1463–1468.LAWES-2

18.Liu,Q.-S., Jackson MJ, Banerjee SK, Zhu,R.-X., Pan,Y.-X., Chen,F.-H., 2003,Determination of magnetic carriers of the characteristic remanent magnetization of Chinese loess by low-temperature demagnetization.Earth And Planetary Science Letters 216 (1-2),175-186.LAWES-3

19.Madsen, D., Chen, F., Oviatt, C., Zhu, Y., Brantingham, P., Elston, R., Bettinger, R., 2003.Holocene wetland events recorded in southeast tengger desert lake sediments, nw china. Chinese Science Bulletin 48 (14), 1423–1429.LAWES-2

20.Qin Ningsheng, Shao Xuemei, Jin Liya, Wang Qingchun, Zhu Xide, Wang Zhenyu, and Li Jinbao，2003，Climate change over southern Qinghai Plateau in the past 500 years recorded in Sabina tibetica tree rings，Chinese Science Bulletin, 48(22), 2483-2487，（SCI）

21.Wunnemann, B., Chen, F., Riedel, F., Zhang, C., Mischke, S., Chen, G., Demske, D., Jin, M., 2003.Holocene lake deposits of bosten lake, southern xinjiang, china. Chinese Science Bulletin 48 (14), 1429–1432.LAWES-3

22.Yang, M., Yao, T., Gou, X., 2003. The soil moisture distribution, thawing–freezing processes and their effects on the seasonal transition on the qinghai–xizang (Tibetan) plateau. Journal of Asian Earth Sciences 21 (5), 457–465.LAWES-2

23.Yang,B., Braeuning A, Shi,Y.-F., Zhang,J.-W., 2003,Temperature variations on the Tibetan Plateau over the last two millennia. Chinese Science Bulletin 48 (14),1446-1450.LAWES-3

24.Yuan, Y., Jin, L., Shao, X., He, Q., Li, Z., Li, J., 2003. Variations of the spring precipitation day numbers reconstructed from tree rings in the urumqi river drainage, tianshan mts. over the last 370 years. Chinese Science Bulletin 48 (14), 1507–1510.LAWES-2

25.Zhu, L., Zhang, P., Xia, W., Li, B., Chen, L., 2003.1400-year cold/warm fluctuations reflected by environmental magnetism of a lake sediment core from the chen co, southern tibet, china. Journal of Paleolimnology 29 (4), 391–401.LAWES-2

EI和会议论文

1.Ma, J.-Z., Edmunds, W., 2003.Geochemistry evolution of groundwater beneath minqin basin. In: Wang, Y. (Ed.), Proceedings of the international symposium on Water Resources and the Urban Environment. China Environmental Science Press, Beijing, pp. 98–102,LAWES-EI

2.Qiang, M.-R., Chen, F.-H., 2003. Dust storm history over the last 2000 years documented by laminated lake sediments in arid central asia. In: Xvi Inqua Congress. Reno, Nevada.

3.Zhang, P.-Z., Johnson, K., Chen, F.-H., Zhang, H., He, J., 2003, Speleothem record of the late pleistocene climate on loess plateau and qinghai-tibetan plateau transition zone, china. in Xvi Inqua Congress, Reno, Nevada.

4.Holmes, J., Chen, F.-H., Jul. 2003. Abrupt Holocene Environmental Changes in Arid Central Asia-History and Mechanisms. Vol. 48. Science in China Press.LAWES-C

2002年度

（实验室共发表SCI论文8篇，其中，第一作者第一单位论文7篇）

第一作者第一单位标注实验室

1.Fang, X.-M., Shi, Z., Yang, S., Yan, S., Li, J., Jiang, P., 2002, Loess in the Tian Shan and its implications for the development of the Gurbantunggut Desert and drying of northern Xinjiang.Chinese Science Bulletin47(16), 1381-1387.(SCI-4)

2.Fang, X.-M., Lu, L.-Q., Yang S., Li, J.-J., An, Z.-S., 2002, Loess in Kunlun Mountains and its implications on desert development and Tibetan Plateau uplift in West Chins,Science in China Series D: Earth Sciences45(4), 289-299.(SCI-4)

3.Shi, Q., Chen, F.-H, Zhu, Y., Madsen, D., 2002.Lake evolution of the terminal area ofShiyang river drainage in arid china since last glaciation. Quaternary International 93-94, 31–44.(SCI-3)

4.Wu, G.-J., Pan, B.-T., Guan, Q.-Y., Liu, Z.-G., Li, J.-J., 2002. Loess record of climatic changes during mis5 in the hexi corridor,northwest china. Quaternary International 97-98, 167–172.

i.(SCI-3)

5.Zhang, H.-C., Ma, Y.-Z., Peng, J.-L., Li, J.-J., Cao, J.-X., Qi, Y., Chen, G.-J., Fang, H.-B., Mu, D., Pachur, H., Wunnemann, B., Feng, Z., 2002a.Palaeolake and palaeoenvironment between 42 and 18 kabp in tengger desert, nw china. Chinese Science Bulletin 47 (23), 1946–1956.(SCI-4)

6.Zhang, H.-C., Wunnemann, B., Ma, Y.-Z., Peng, J.-L., Pachur, H., Li, J.-J., Qi, Y., Chen, G.-J, Fang, H.-B., Feng, Z., 2002b.Lake level and climate changes between 42,000 and 18,000 c-14 yr bp in the tengger desert, northwestern china. Quaternary Research 58 (1), 62–72.(SCI-2)

7.Zhu, Y., Chen, F.-H., Cheng, B., Zhang, J.-W., Madsen, D., 2002.Pollen assemblage features of modern water samples from the shiyang river drainage, arid china. Acta Botanica Sinica 44 (3), 367–373.(SCI-4)

第一作者第二、三单位标注实验室

8.Zhu, Y., Chen, F.-H., David, M., 2002.The environmental signal of an early holocene pollen record

from the shiyang river basin lake sediments, nw china. Chinese Science Bulletin 47 (4), 267–273.LAWES-2

2001年度

（实验室共发表SCI论文11篇，其中，第一作者第一单位论文10篇）

第一作者第一单位标注实验室

1.Chen, F.-H., Zhu, Y., Li, J.-J., Shi, Q., Jin, L.-Y., Wunemann, B., 2001.Abrupt holocene changes of the asian monsoon at millennial- and centennialscales: evidence from lake sediment document in minqin basin, north china. Chinese Science Bulletin 46 (23), 1942–1947.(SCI-4)

2.Fu,K.-D., Gao,J-P.,Fang,X.-M.,Li,J.-J., 2001,Relationship model of sediment grain size and Tibetan Plateau uplift in middle-west parts of Qilian Mountain.Science In China Series D-Earth Sciences 44,210-217.(SCI-4)

3.Lu,L.-Q.,Fang,X.-M.,Mason JA, Li,J.-J.,An,Z.-S., 2001.The evolution of coupling of Asian winter monsoon and high latitude climate of Northern Hemisphere - Grain evidence from 8.1 Ma loess-red clay sequence on the Chinese central Loess Plateau.Sciencein China Series D-Earth Sciences 44: 185-191.(SCI-4)

4.Song, C.-H., Fang, X.-M., Li, J.-J., Gao, J.-P., Zhao, Z., Zhao, M., 2001. Tectonic uplift and sedimentary evolution of the jiuxi basin in the northern margin of the tibetan plateau since 13 ma bp. Science in China Series D-Earth Sciences 44 (Suppl), 192–202.(SCI-4)

5.Shi,Z.-T.,Ye,Y.-G.,Zhao,Z.-J., Fang,X.-M.,Li,J.-J., 2001,ESR dating of late Cenozoic molassic deposits in the Jiuxi Basin,Science In China Series D-Earth Sciences 44: 203-209.(SCI-4)

6.Wu, G.-J., Pan, B.-T., Li, J.-J., Guan, Q.-Y., Liu, Z., 2001. Tectonic-climatic events in eastern qilian mountains over the past 0.83 ma. Science in China Series D-Earth Sciences 44 (Suppl.), 251–260.(SCI-4)

7.Yang,D.,Fang,X.-M.,Song,C.-H.,Lu,L.-Q.,Li,J.-J.,2001.Development of a pediment on western slopes of Liupan Mountain related to the Neotectonic Uplift. Chinese Science Bulletin 46(Suppl.). 11-15.(SCI-4)

8.Yang, S.-L., Fang, X.-M., Li, J.-J., An, Z.-S., Chen, S.-Y., Fukusawa H. 2001, Transformation functions of soil color and climate.Science In China Series D-Earth Sciences 44, 218-226.(SCI-4)

9.Yan,M.-D., Fang,X.-M.,Chen,S.-Y,Yang,S.-L., Lu,L.-Q., Li,J.-J., An,Z.-S., 2001,Pleistocene magnetic susceptibility and paleomagnetism of the Tibetan loess and its implications on large climatic change events. Science In China Series D-Earth Sciences 44, 227-232.(SCI-4)

10.Zhao,Z., Fang,X.-M.,Li,J.-J., 2001,Late Cenozoic magnetic polarity stratigraphy in the Jiudong Basin, northern Qilian Mountain.Science In China Series D-Earth Sciences 44,243-250.(SCI-4)

实验室人员没有标注实验室

11.Hannu savijarvi, and Jin Liya，2001，Local winds in a valley city，Boundary-Layer Meteorology, 100, 301-319，（SCI）

2015年度（去年已奖励名单）

2.Chen,F.-H.,Dong, G.-H., Zhang, D.-J., Liu, X.-Y., Jia, X., An, C.-B., Ma, M.-M., Xie, Y.-W., Barton, L., Ren, X.-Y., Zhao, Z.-J., Wu, X.-H., Jones, M.-K., 2015.Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science,347(6219)：248-250.（SCI-1,31.235）

3.Chen, J.H., Chen, F.H., Feng, S., Huang, W., Liu, J.B., Zhou, A.F., 2014. Hydroclimatic changes in China and surroundings during the Medieval Climate Anomaly and Little Ice Age: Spatial patterns and possible mechanisms. Quaternary Science Reviews, 107(1): 98-111.（SCI-1）

4.Fan, Y.-X.,Chen,X.-L.,Liu,W.-H.,Zhang,F.,Zhang, F., 2015. Formation of present desert landscape surrounding Jilantai Salt Lake in northern China based on OSL dating.Frontiers of Earth Science, DOI：10.1007/s11707-014-0482-3.(SCI-4)

5.Gao, L.-L., Gou, X.-H., Deng, Y., Yang, M.-X., Zhang. F.,Li, J., 2015. Dendroclimatic reconstruction of temperature in the eastern Qilian Mountains, northwestern China. Climate Research. doi: 10.3354/cr01271..(SCI-3)

6.Gou, X.-H., Deng, Y., Gao, L.-L., Chen, F.-H., Yang, M.-X., Zhang. F., 2015. Millennium tree-ring reconstruction of drought variability in the eastern Qilian Mountains, northwest China. Climatic Dynamics, DOI: 10.1007/s00382-014-2431-y.（SEC-1）

7.Gou, X.-H., Gao, L.-L., Deng, Y., Chen, F.-H., Yang, M.-X.,Christopher, S., 2015. An 850-year tree-ring based reconstruction of drought history in the western Qilian Mountains of northwestern China. International Journal of Climatology. 2014, DOI: 10.1002/joc.4208 (SCI-2)

8.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang, W.-J.,Zhu, G.-F., Zou, S.-B., Zhang, F., 2014.Regional vegetation dynamics and its response to climate change-a case study in the Tao River Basin in Northwestern China."Environmental Research Letters,9(12): 125003.(SCI-2)

9.Li, C.-B., Qi, J.-G., Yang, L.-S., Wang, S.-B., Yang,L.-S., Zou, S.-B.,Zhu, G.-F., Yang, W.-J.,2015.Spatiotemporal characteristics of alpine snow and ice melt under achanging regional climate: A case study in Northwest China.Quaternary International,358: 126-136.(SCI-3)

10.Li, G.-H.,Xia D.S.,Jin, M., Jia, J., Liu, J.-B., Zhao, S., Wen, Y.-L.,2015.Magnetic characteristics of loessepaleosol sequences in Tacheng, northwestern China, and theirpaleoenvironmental implications.Quaternary International,doi:10.1016/j.quaint.2014.08.002.(SCI-3)

11.Ma, M.-M.,Dong, G.-H., Liu X., Lightfoot, E., Chen, F.-H., Wang, H., Li, H., Jones, M.-K., 2015.Stable isotope analysis of human and faunal remains at Qijiaping site in middle Gansu, China.International Journal of Osteoarchaeology,doi: 10.1002/oa. 2379. 2013.(SSCI)

12.Ren, L.-L., Wang, Y.-R., Li, G.-Q., Li, Q.-L., Ma, Z.-T., Dong, G.-H., 2015.Discovery of a tiger (Panthera tigris (L.)) skeleton from the Little IceAge buried on the shore of Qinghai Lake, northeast Tibet Plateau.Quaternary International, 355:145-152.(SCI-3)

13.Wu, D., Zhou, A.-F.,Chen, X.-M., Yu, J.-Q., Zhang, J.-W., Sun, H.-L., 2015. Hydrological and ecosystem response to abrupt changes in the Indian monsoon during the last glacial, as recorded by sediments from Xingyun Lake, Yunnan, China, Palaeogeography, Palaeoclimatology, Palaeoecology, doi: 10.1016/j.palaeo.2015.01.005（SCI-2）

14.Wu, D., Zhou, A.-F., Liu, J.-B., Chen, X.-M., Wei, H.-T., Sun, H.-L.,Chen, F.-H.,2015. Changing intensity of human activity over the last 2,000 years recorded by the magnetic characteristics of sediments from Xingyun Lake, Yunnan, China. Journal of Paleolimnology, 53(1):47-60（SCI-3）

15.Zhang, L.-H., Wang, S.-G., He, C.-S., Shang, K.-Z., Meng, L., Li, X., Lofgren, B.-M., 2014.A new method for instant correction of numerical weatherprediction products in China. Science China-Earth Science.58(2):231-244.(SCI-4)

16.Jiang, D.-B., Yu, G., Zhao, P., Chen, X., Liu, J., Liu, X.-D.,Wang, S.-W., Zhang, Z.-S., Yu, Y.-Q., Li, Y.-F, Jin, L.-Y., Xu, Y., Ju, L.-X., Zhou, T.-J., and Yan, X.-D.,2015. Paleoclimate Modeling in China: A Review. Advances in Atmospheric Sciences, 32: 250-275.（doi:10.1007/s00376-014-0002-0）(SCI-4)

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