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
1.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)
2.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)
3.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.
4.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)
5.Chang, J., Wang, G.-X., Mao, T.-X., Sun, X.-Y., 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.
6.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.
7.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.
8.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)
9.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)
10.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.
11.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)
12.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)
13.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)
14.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.
15.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)
16.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.
17.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.
18.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.
19.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)
20.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)
21.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)
22.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)
23.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)
24.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)
25.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.
26.Guo, J.-J., Yue, D.-X., Li, K., Hui, C., 2017. Biocapacity optimization in regional planning. Scientific Reports, 7:e41150.
27.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)
28.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)
29.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)
30.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.
31.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)
32.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)
33.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.
34.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)
35.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.
36.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.
37.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)
38.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.
39.Li, X.-G., 2017.A new method to evaluate floodwater for control/use in high-sediment rivers of Northwest China.Scientific Reports,7:17219.
40.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
41.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
42.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)
43.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.
44.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.
45.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
46.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.
47.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)
48.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)
49.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
50.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.
51.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.
52.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.
53.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)
54.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)
55.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)
56.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)
57.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)
58.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)
59.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)
60.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.
61.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, 3: e1600762.
62.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)
63.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)
64.Peng, X.-Q.,Mu, C.-C., 2017.Changes of soil thermal and hydraulic regimes in the Heihe River Basin.EnvironmentalMonitoring andAssessment, 189(10):483.
65.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)
66.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.
67.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.
68.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.
69.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)
70.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)
71.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.
72.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.
73.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.
74.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.
75.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)
76.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.
77.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
78.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)
79.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)
80.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)
81.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)
82.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.
83.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.
84.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.
85.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.
86.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.
87.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)
88.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)
89.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)
90.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.
91.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
92.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.
93.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.
94.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.
95.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.
96.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.
97.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.
98.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.
99.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.
100.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.
101.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.
102.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
103.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.
104.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.
105.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.
106.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
107.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.
108.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
109.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.
110.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.
111.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.
112.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.
113.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.
114.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.
115.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.
116.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.
117.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.
118.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.
119.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.
120.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.
121.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.
122.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.
123.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.
124.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.
125.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.
126.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.
127.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.
128.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.
129.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.
130.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.
131.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.
132.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.
133.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.
134.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.
135.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
136.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.
137.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.
138.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.
139.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.
140.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.
141.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.
142.Zhang, P., Wu, Q.-B., Mu, C.-C., 2017. Influence of temperature on methane hydrate formation. Scientific Reports, 7: 7904.
143.Zhang, X.-X., Xie, Y.-W., 2017. Detecting Historical Vegetation Changes in the Dunhuang Oasis Protected Area Using Landsat Images.Sustainability, 9(10): 1780.
144.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.
145.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.
146.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.
147.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.
148.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.
149.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.
150.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.