[1] Alim Samat, Paolo Gamba, Liu Sicong, et al. Fuzzy multiclass active learning for hyperspectral image classification. IET Image Processing, 2018,12(7):1095-1101.

[2] Alim Samat, Paolo Gambac, Liu Sicong, et al. Quad-PolSAR data classification using modified random forest algorithms to map halophytic plants in arid areas. Int J Appl Earth Obs Geoinformation, 201873:503-521.

[3] Alim Samat, Persello Claudio, Liu Sicong, et al. Classification of VHR Multispectral Images Using ExtraTrees and Maximally Stable Extremal Region- Guided Morphological Profile.IEEEJSTARS, 2018,11(9):3179-3195.

[4] An Shaole, Zhou Kefa, Wang Jinlin, et al. Integrated analysis of gravity andmagnetic fields in the Eastern Tianshan Belt, Xinjiang, Central Asia: Implications for Cu-Au-Fe polymetallic deposits exploration. Journal of Applied Geophysics, 2018,159:319-328.

[5] Ba Wulong, Du Pengfei, Liu Tie, et al. Simulating hydrological responses to climate change using dynamic and statistical downscaling methods: a case study in the Kaidu River Basin, Xinjiang, China. Journal of Arid Land, 2018,10(6):905-920.

[6] Bai Jie, Li Junli, Shi Hao, Liu Tie, Zhong Ruisen. Snowmelt water alters the regime of runoffin the arid region of Northwest China. Water, 2018,10(7):902.

[7] Bai Lei, Shi Chunxiang, Li Lanhai, et al. Accuracy of CHIRPS Satellite-Rainfall Products over Mainland China. Remote Sens, 2018,10(3):362.

[8] Bohumil Mandák, Karol Krak, Petr Vít, Lei Wang(7), et al. Hybridization and polyploidization within the Chenopodium album aggregate analysed by means of cytological and molecular markers. Molecular Phylogenetics and Evolution, 2018,129:189-201.

[9] Chen Haiyan, Chen Yaning, Li Weihong, et al. Identifying evaporation fractionation and streamflow components based on stable isotopes in the Kaidu River Basin with mountain-oasis system in north-west China. Hydrological Processes, 2018,32:2423-2434.

[10] Chen Shiping, Wang Wantong, Xu Wenting, Tang Lisong(17), et al. Plant diversity enhances productivity and soil carbon storage. PNAS, 2018,115(16):4027-4032.

[11] Chen Tao, Bao Anming, Guli Jiapaer, et al. Disentangling the relative impacts of climate change and human activities on arid and semiarid grasslands in Central Asia during 1982-2015. Science of the Total Environment, 2019,653:1311-1325.

[12] Chen Xi, Wang Shanshan, Hu Zengyun, Zhou Qiming, Hu Qi. Spatiotemporal characteristics of seasonal precipitation and their relationships with ENSO in Central Asia during 1901-2013. J. Geogr. Sci, 2018,28(9):1341-1368.

[13] Chen Yaning, Li Zhi, Fang Gonghuan, Li Weihong. Large Hydrological Processes Changes in the Transboundary Rivers of Central Asia. Journal of Geophysical Research: Atmospheres, 2018,123(10):5059-5069.

[14] Cui Lifang, Wang Lunche, Ramesh P. Singh, et al. Association analysis between spatiotemporal variation of vegetation greenness and precipitation/temperature in the Yangtze River Basin (China). Environmental Science and Pollution Research, 2018,25(22):21867-21878.

[15] Deng Haijun, N. C. Pepin, Liu Qun, Chen Yaning. Understanding the spatial differences in terrestrial water storage variations in the Tibetan Plateau from 2002 to 2016 . Climatic Change, 2018,151:379-393.

[16] Dong Wenhao, Lin Yanluan, Chen Yaning(8), et al. Regional disparities in warm season rainfall changes over arid eastern- central Asia. Scientific Reports, 2018,8:13051.

[17] Duan Weili, He Bin, Chen Yaning, et al. Identification of long-term trends and seasonality in high-frequency water quality data from the Yangtze River basin, China. PLoS ONE, 2018,13(2):e0188889.

[18] Duan Yongchao, Liu Tie, Meng Fanhao, et al. Inclusion of Modified Snow Melting and Flood Processes in the SWAT Model. Water, 2018,10(12):1715.

[19] Fang Gonghuan, Chen Yaning, Li Zhi. Variation in agricultural water demand and its attributions in the arid Tarim River Basin. Journal of Agricultural Science, 2018,156(3):301-311.

[20] Fang Gonghuan, Yang Jing, Chen Yaning, et al. How Hydrologic Processes Differ Spatially in a Large Basin: Multi-site and Multi-objective Modeling in the Tarim River Basin. Journal of Geophysical Research: Atmosphere, 2018,123(4):7098-7113.

[21] Fang Gonghuan, Yang Jing, Chen Yaning, et al. Impact of GCM structure uncertainty on hydrological processes in an arid area of China. Hydrology Research, 2018,49(3):893-907.

[22] Feng Ru, Yu Ruide, Zheng Hongwei, Gan Miao. Spatial and temporal variations in extreme temperature in Central Asia. Int. J. Climatol, 2018,38(Suppl.1):e388-e400.

[23] Fu Aihong, Li Weihong, Chen Yaning, Liu Yuting. Suitable oasis scales under a government plan in the Kaidu-Konqi River Basin of northwest arid region, China. PeerJ, 2018,6:e4943.

[24] Gao Xiaopeng, William S. Shaw, Mario Tenuta, Darin Gibson. Yield and Nitrogen Use of Irrigated Processing Potato in Response to Placement, Timing and Source of Nitrogen Fertilizer in Manitoba. American Journal of Potato Research, 2018,95:513-525.

[25] Gao Xin, Gadal Cyril, Rozier Olivier, Narteau Clément. Morphodynamics of barchan and dome dunes under variable wind regimes. Geology, 2018,46(9):743-746.

[26] Gong Yanming, Ling Hongbo, Lv Guanghui, ChenYue, Guo Zhenjie, Cao Jing. Disentangling the influence of aridity and salinity on community functional and phylogenetic diversity in local dryland vegetation. Science of the Total Environment, 2019,653:409-422.

[27] Gu Shimin, Han Peng, Ye Zhengpei, et al. Climate change favours a destructive agricultural pest in temperate regions: late spring cold matters. Journal of Pest Science. 2018,91(4):1191-1198.

[28] Gulnura Issanova, Reyisha Jilili, Jilili Abuduwaili, et al. Water availability and state of water resources within water-economic basins in Kazakhstan. Paddy and Water Environment, 2018,16(1):183-191.

[29] Guo Hao, Bao Anming, Liu Tie, et al. Spatial and temporal characteristics of droughts in Central Asia during 1966-2015. Science of the Total Environment, 2018,624:1523-1538.

[30] Guo Hao, Bao Anming, Ndayisaba Felix, et al. Space-time characterization of drought events and their impacts on vegetation in Central Asia. Journal of Hydrology, 2018,564:1165-1178.

[31] Han Qifei, Luo Geping, Li Chaofan, Li Shoubo. Response of carbon dynamics to climate change varied among different vegetation types in Central Asia. Sustainability, 2018,10(9):3288.

[32] Hao Jiansheng, Huang Farong, Liu Yang, et al. Avalanche activity and characteristics of its triggering factors in the western Tianshan Mountains, China. J. Mt. Sci, 2018,15(7):1397-1411.

[33] Hao Xingming, Zhang Shuhua, Li Weihong, et al. The uncertainty of Penman-Monteith method and the energy balance closure problem. J. Geophys. Res. Atmos, 2018,123:7433-7443.

[34] Hassan Iqbal, Chen Yaning, M. Waqas, H., et al. Hydrogen peroxide application improves quinoa performance by affecting physiological and biochemical mechanisms under water-deficit conditions. J Agro Crop Sci, 2018,204:541-553.

[35] Hassan Iqbal, Chen Yaning, Muhammad Waqas, Muhammad Shareef, Syed Turab Raza. Differential response of quinoa genotypes to drought and foliage- applied H2O2 in relation to oxidative damage, osmotic adjustment and antioxidant capacity. Ecotoxicology and Environmental Safety, 2018,164:344-354.

[36] Hu Shunjun, Gan Yongde, Chen Yongbao. Comparing phreatic evaporation at zero water table depth with water surface evaporation. J Arid Land, 2018,10(6):968-976.

[37] Hu Weijie, Liu Hailong, Bao Anming, Attia M. El-Tantawi. Influences of environmental changes on water storage variations in Central Asia. J. Geogr. Sci, 2018,28(7):985-1000.

[38] Hu Zengyun, Zhou Qiming, Chen Xi, et al. Evaluation of three global gridded precipitation data sets in central Asia based on rain gauge observations. Int J Climatol, 2018,38(9):3475-3493.

[39] Huang Gang, Li Chenhua, Li Yan. Phenological responses to nitrogen and water addition are linked to plant growth patterns in a desert herbaceous community. Ecology and Evolution, 2018,8(10):5139-5152.

[40] Huang Gang, Li Li, Su Yangui, Li Yan. Differential seasonal effects of water addition and nitrogen fertilization on microbial biomass and diversity in a temperate desert. Catena, 2018,161:27-36.

[41] Huang Gang, Su Yangui, Mu Xiaohan, Li Yan. Foliar nutrient resorption responses of three life-form plants to water and nitrogen additions in a temperate desert. Plant Soil, 2018,424:479-489.

[42] Huang Jinlong, Zhai Jianqing, Jiang Tong, et al. Analysis of future drought characteristics in China using the regional climate model CCLM. Clim Dyn, 2018,50:507-525.

[43] Huang Shaochun, Michel Wortmann, Doris Duethmann, et al. Adaptation strategies of agriculture and water management to climate change in the Upper Tarim River basin, NW China. Agricultural Water Management, 2018,203:207-224.

[44] Huang Xiaotao, Luo Geping, Han Qifei. Temporospatial patterns of human appropriation of net primary production in Central Asia grasslands. Ecological Indicators, 2018,91:555-561.

[45] Huang Xiaotao, Luo Geping, Ye Feipeng, Han Qifei. Effects of grazing on net primary productivity, evapotranspiration and water use efficiency in the grasslands of Xinjiang, China. J Arid Land, 2018,10(4):588-600.

[46] Huang Yan, Liu Hongxing, Yu Bailang, Chen Yaning(9). Improving MODIS snow products with a HMRF-based spatio-temporal modeling technique in the Upper Rio Grande Basin. Remote Sensing of Environment, 2018,204:568-582.

[47] Huang Yunmei, Hou Songlin, Ling Hongbo,   Xu Hailiang. Trunk volume prediction of individual Populus euphratica trees based on point clouds analysis. Ecological Indicators, 2018,95:964-971.

[48] Jean Baptiste Nsengiyumva, Luo Geping, Lamek Nahayo, et al. Landslide Susceptibility Assessment Using Spatial Multi-Criteria Evaluation Model in Rwanda. Int. J. Environ. Res. Public Health, 2018,15(2):243.

[49] Jian Dongnan, Li Xiucang, Sun Hemin, et al. Estimation of Actual Evapotranspiration by the Complementary Theory-Based Advection-Aridity Model in the Tarim River Basin, China. Journal of Hydrometeorology, 2018,19(2):289-303.

[50] Jiang Li, Wang Lei, Tian Changyan. High lithium tolerance of Apocynum venetum seeds during germination. Environmental Science and Pollution Research, 2018,25(5):5040-5046.

[51] Jiang Li, Wang Lei, Zhang Lei, Tian Changyan. Tolerance and accumulation of lithium in Apocynum pictum Schrenk. PEERJ, 2018,6:e5559.

[52] Jiang Xueting, Su Min, Li Rongrong. Decomposition analysis in electricity sector output from carbon emissions in China. Sustainability, 2018,10(9):3251.

[53] Jiang Xueting, Su Min, Li Rongrong. Investigating the Factors Influencing the Decoupling of Transport-Related Carbon Emissions from Turnover Volume in China. Sustainability, 2018,10(9):3034.

[54] Jiang Xueting, Wang Qiang, Li Rongrong. Investigating factors affecting carbon emission in China and the USA: A perspective of stratified heterogeneity. Journal of Cleaner Production, 2018,199:85-92.

[55] Jiao Wei, Chen Yaning, Li Weihong, Zhu Chenggang, Li Zhi. Estimation of net primary productivity and its driving factors in the Ili River Valley, China. Journal of Arid Land, 2018,10(5):781-793.

[56] Kalisa Egide, Fadlallah Sulaiman, Amani Mabano, et al. Temperature and air pollution relationship during heatwaves in Birmingham, UK. Sustainable Cities and Society, 2018,43:111-120.

[57] Kuang Wennong, Gao Xiaopeng, Gui Dongwei, et al. Effects of fertilizer and irrigation management on nitrous oxide emission from cotton fields in an extremely arid region of northwestern China. Field Crops Research, 2018,229:17-26.

[58] Lamek Nahayo, Li Lanhai, Gabriel Habiyaremye, et al. Extent of disaster courses delivery for the risk reduction in Rwanda. International Journal of Disaster Risk Reduction, 2018,27:127-132.

[59] Li Baofu, Chen Yaning, Jonathan W. Chipman, et al. Why does the runoff in Hotan River show a slight decreased trend in northwestern China?. Atmos. Sci. Let, 2018,19:e800.

[60] Li Chaofan, Han Qifei, Luo Geping, et al. Effects of Cropland Conversion and Climate Change on Agrosystem Carbon Balance of China’s Dryland: A Typical Watershed Study. Sustainability, 2018,10:4508.

[61] Li Chenhua, Li Yan, Xie Jiangbo, et al. Accumulation of organic carbon and its association withmacro-aggregates during 100 years of oasis formation. Catena, 2019,172:770-780.

[62] Li Congjuan, Liu Ran, Wang Shijie, et al. Growth and sustainability of Suaeda salsa in the Lop Nur, China. J Arid Land, 2018,10(3):429-440.

[63] Li Jiaxiu, Chen Yaning, Li Zhi, Liu Zhihui. Quantitative analysis of the impact factors of conventional energy carbon emissions in Kazakhstan based on LMDI decomposition and STIRPAT model. J. Geogr. Sci, 2018,28(7):1001-1019.

[64] Li Li, Mu G. Short-term effects of surface dust: alleviating photoinhibition of cotton under high irradiance in the Tarim Basin. Photosynthetica, 2018,56(3):976-980.

[65] Li Qian, Yang Tao, Qi Zhiming, Li Lanhai. Spatiotemporal variation of snowfall to precipitation ratio and its implication on water resources by a regional climate model over Xinjiang, China. Water, 2018,10(10):1463.

[66] Li Xinhu, Feng G., B. Sharratt. Soil organic carbon within the vadose zone of a floodplain. Environmental Earth Sciences, 2018,77(6):247.

[67] Li Yun, Tao Hui, Su Buda, et al. Impacts of 1.5 °C and 2 °C global warming on winter snow depth in Central Asia. Science of the Total Environment, 2019,651:2866-2873.

[68] Li Yupeng, Chen Yaning, Li Zhi, et al. Recent recovery of surface wind speed in northwest China. Int J Climatol, 2018,38(12):4445-4458.

[69] Li Zhenya, Yang Tao, Huang Chingsheng, et al. An improved approach for water quality evaluation: TOPSIS-based informative weighting and ranking (TIWR) approach. Ecological Indicators, 2018,89:356-364.

[70] Li Zhi, Zhou Chenghu, Yang Xiaomei, Chen Xi, et al. Urban landscape extraction and analysis in the mega-city of China’s coastal regions using high-resolution satellite imagery: A case of Shanghai, China. Int J Appl Earth Obs Geoinformation, 2018,72:140-150.

[71] Lin Yongchong, Xu Lishuai, Mu Guijin. Differential erosion and the formation of layered yardangs in the Loulan region (Lop Nur), eastern Tarim Basin. Aeolian Research, 2018,30:41-47.

[72] Ling Hongbo, Guo Bin, Zhang Guangpeng, et al. Evaluation of the ecological protective effect of the “large basin” comprehensive management system in the Tarim River basin, China. Science of the Total Environment, 2019,650:1696-1706.

[73] Liu Guofang, Wang Lei, Jiang Li, et al. Specific leaf area predicts dryland litter decomposition via two mechanisms. Journal of Ecology, 2018,106(1):218-229.

[74] Liu Jinping, Zhang Wanchang, Liu Tie, Li Qilun. Runoff Dynamics and Associated Multi-Scale Responses to Climate Changes in the Middle Reach of the Yarlung Zangbo River Basin, China. Water, 2018,10(3):295.

[75] Liu Ran, Li Yan, Wang Yugang, Ma Jie, Ellen Cieraad. Variation of water use efficiency across seasons and years: Different role of herbaceous plants in desert ecosystem. Science of the Total Environment, 2019,647:827-835.

[76] Liu Ran, Wang Yugang, Li Congjuan, Ma Jie, Li Yan. Partitioning water source and sinking process of a groundwater- dependent desert plant community. Plant Soil, 2018,430:73-85.

[77] Liu Ranran, Wang Lei, Tanveer. Mohsin, Song Jie. Seed Heteromorphism: An Important Adaptation of Halophytes for Habitat Heterogeneity. Frontiers in Plant Science, 2018,9:1515.

[78] Liu Xiang, Li Lanhai, Wang Quan, Mu Shuyong. Land-use change affects stocks and stoichiometric ratios of soil carbon, nitrogen, and phosphorus in a typical agro-pastoral region of northwest China. J Soils Sediments, 2018,11(18):3167-3176.

[79] Liu Xiang, Yang Tao, Wang Quan, et al. Dynamics of soil carbon and nitrogen stocks after afforestation in arid and semi-arid regions: A meta-analysis. Science of the Total Environment, 2018,617:1658-1664.

[80] Liu Yang, Li Lanhai, Chen Xi, et al. Spatial distribution of snow depth based on geographically weighted regression kriging in the Bayanbulak Basin of the Tianshan Mountains, China. Journal of Mountain Science, 2018,15(1):33-45.

[81] Liu Yang, Li Lanhai, Chen Xi, et al. Temporal-spatial variations and influencing factors of vegetation cover in Xinjiang from 1982 to 2013 based on GIMMS-NDVI3g. Global and Planetary Change, 2018,169:145-155.

[82] Liu Yi, Xue Jie, Gui Dongwei, et al. Agricultural oasis expansion and its impact on oasis landscape patterns in the southern margin of Tarim Basin, Northwest China. Sustainability, 2018,10(6):1957.

[83] Liu Yue, Zhou Kefa, Carranza Emmanuel John M. Compositional balance analysis for geochemical pattern recognition and anomaly mapping in the western Junggar region, China. Geochem. Explor. Environ. Anal, 2018,18(3):263-276.

[84] Liu Yuting, Yang Jing, Chen Yaning, Fang Gonghuan, Li Weihong. The Temporal and Spatial Variations in Lake Surface Areas in Xinjiang, China. Water, 2018,10(4):431.

[85] Luo Min, Liu Tie, Frankl Amaury, et al. Defining spatiotemporal characteristics of climate change trends from downscaled GCMs ensembles: how climate change reacts in Xinjiang, China. Int. J. Climatol, 2018,38(5): 2538-2553.

[86] Luo Min, Liu Tie, Meng Fanhao, et al. Comparing bias correction methods used in downscaling precipitation and temperature from regional climate models: A case study from the Kaidu River Basin in Western China. Water, 2018,10(8):1046.

[87] Luo Min, Liu Tie, Meng Fanhao, et al. Spatiotemporal characteristics of future changes in precipitation and temperature in Central Asia. Int J Climatol, Int J Climatol, 2018,1-18.

[88] Ma Long, Jilili Abuduwaili, Li Yaoming. Spatial differentiation in stable isotope compositions of surface waters and its environmental significance in the Issyk-Kul Lake region of Central Asia. J. Mt. Sci, 2018,15(2):254-263.

[89] Ma Long, Jilili Abuduwaili, Li Yaoming, Ge Yongxiao. Controlling Factors and Pollution Assessment of Potentially Toxic Elements in Topsoils of the Issyk- Kul Lake Region, Central Asia. Soil & Sediment Contamination, 2018,27(2):147-160.

[90] Ma Xiaofe, Zhao Chengyi, Tao Hui, Zhu Jianting, Zbigniew W. Kundzewicz. Projections of actual evapotranspiration under the 1.5 degrees C and 2.0 degrees C global warming scenarios in sandy areas in northern China. Science of the Total Environment, 2018,645:1496-1508.

[91] Ma Yonggang, Huang Yue, Liu Tie. Change and climatic linkage for extreme flows in typical catchments of middle Tianshan Mountain, northwest China. Water, 2018,10(8):1061.

[92] Ma Zhiwen, Gao Xiaopeng, Tenuta Mario, et al. Urea fertigation sources affect nitrous oxide emission from a drip-fertigated cotton field in northwestern China. Agriculture, Ecosystems and Environment, 2018,265:22-30.

[93] Mai Wenxuan, Xue Xiangrong, Feng Gu, et al. Can optimization of phosphorus input lead to high productivity and high phosphorus use efficiency of cotton through maximization of root/mycorrhizal efficiency in phosphorus acquisition?. Field Crops Research, 2018,216:100-108.

[94] Mai Wenxuan, Xue Xiangrong, Feng Gu, Tian Changyan. Simultaneously maximizing root/ mycorrhizal growth and phosphorus uptake by cotton plants by optimizing water and phosphorus management. BMC Plant Biology. BMC Plant Biology2018,18:334.

[95] Mai Wenxuan, Xue Xiangrong, Feng Gu, Yang Rong, Tian Changyan. Arbuscular mycorrhizal fungi – 15-Fold enlargement of the soil volume of cotton roots for phosphorus uptake in intensive planting conditions. European Journal of Soil Biology, 2019,90:31-35.

[96] Meng Fan, Yang Xiaomei, Zhou Chenghu, Li Zhi, Liu Bin. Multiscale adaptive reconstruction of missing information for remotely sensed data using sparse representation. Remote Sensing Letters, 2018,9(5):457-466.

[97] Meng Fanhao, Liu Tie, Wang Hui, et al. An Alternative Approach to Overcome the Limitation of HRUs in Analyzing Hydrological Processes Based on Land Use/Cover Change. Water, 2018,10(4):434.

[98] Meng Xianyong, Sun Zhiqun, Zhao Honggang, et al. Spring Flood Forecasting Based on the WRF-TSRM Mode. Tehnički vjesnik, 2018,25(1):141-151.

[99] Muhammad Shareef, Gui Dongwei, Zeng Fanjiang, et al. Impact of drought on assimilates partitioning associated fruiting physiognomies and yield quality attributes of desert grown cotton. Acta Physiologiae Plantarum, 2018,40(4):71.

[100] Muhammad Shareef, Gui Dongwei, Zeng Fanjiang, et al. Water productivity, growth, and physiological assessment of deficit irrigated cotton on hyperarid desert-oases in northwest China. Agricultural Water Management, 2018,206:1-10.

[101] Muhammad Shareef, Zeng Fanjiang, Gui Dongwei, et al. Drought Induced Interactive Changes in Physiological and Biochemical Attributes of Cotton (Gossypium hirsutum). Int. J. Agric. Biol, 2018,20:539-546.

[102] Pan Tao, Zhang Chi, Kuang Wenhui, et al. Time Tracking of Different Cropping Patterns Using Landsat Images under Different Agricultural Systems during 1990–2050 in Cold China. Remote Sens, 2018,10:2011.

[103] Pi Huawei, Sharratt Brenton, Schillinger William F., et al. Chemical composition of windblown dust emitted from agricultural soils amended with biosolids. Aeolian Research, 2018,32:102-115.

[104] Pi Huawei, Sharratt, Brenton, Schillinger, William F., et al. Wind erosion potential of a winter wheat-summer fallow rotation after land application of biosolids. Aeolian Research, 2018,32:53-59.

[105] Qiao Litao, Mohsin Tanveerc, Wang Lei, Tian Changyan. Subcellular distribution and chemical forms of lithium in Li-accumulator Apocynum venetum. Plant Physiology and Biochemistry, 2018,132:341-344.

[106] Qin Yanhua, Li Baofu, Chen Zhongsheng, Chen Yaning, et al. Spatio-temporal variations of nonlinear trends of precipitation over an arid region of northwest China according to the extreme-point symmetric mode decomposition method. Int. J. Climatol, 2018,38(5):2239-2249.

[107] Ren Weiwei, Yang Tao, Huang Chingsheng, et al. Improving monthly streamflow prediction in alpine regions: integrating HBV model with Bayesian neural network. Stochastic Environmental Research and Risk Assessment, 2018,32(12):3381-3396.

[108] Ren Weiwei, Yang Tao, Shi Pengfei, et al. A probabilistic method for streamflow projection and associated uncertainty analysis in a data sparse alpine region. Global and Planetary Change, 2018,165:100-113.

[109] Shao Hua, Hu Yunxia, Han Caixia, Wei Caixia, Zhou Shixing, Zhang Chenpeng, Zhang Chi. Chemical Composition and Phytotoxic Activity of Seriphidium terrae-albae (Krasch.) Poljakov (Compositae) Essential Oil. Chem. Biodiversity, 2018,153(11):e1800348.

[110] Sharratt Brenton, Pi Huawei. Field and laboratory comparison of PM10 instruments in high winds. Aeolian Research, 2018,32:42-52.

[111] Shen Yan-Jun, Shen Yanjun, Manfred Fink, Chen Yaning(5), et al. Trends and variability in streamflow and snowmelt runoff timing in the southern Tianshan Mountains. Journal of Hydrology, 2018,557:173-181.

[112] Shi Baoku, Zhang Junmei, Wang Chengliang, Ma Jianying, Sun Wei. Responses of hydrolytic enzyme activities in saline-alkaline soil to mixed inorganic and organic nitrogen addition. Scientific Reports, 2018,8:4543.

[113] Shu Song, Liu Hongxing, Frappart Frederic, Ye Zhaoxia(12), et al. Estimation of snow accumulation over frozen Arctic lakes using repeat ICESat laser altimetry observations - A case study in northern Alaska. Remote Sensing of Environment, 2018,216:529-543.

[114] Su Buda, Huang Jinlong, Thomas Fischer, et al. Drought losses in China might double between the 1.5 degrees C and 2.0 degrees C warming. PNAS, 2018,115(42):10600-10605.

[115] Sun Congjian, Shen Yanjun, Chen Yaning, et al. Quantitative evaluation of the rainfall influence on streamflow in an inland mountainous river basin within Central Asia. Hydrological Sciences Journal, 2018,63(1):17-30.

[116] Sun Hemin, Wang Anqian, Zhai Jianqing, et al. Impacts of global warming of 1.5 °C and 2.0 °C on precipitation patterns in China by regional climate model (COSMO-CLM). Atmospheric Research, 2018,203:83-94.

[117] Ta Zhijie, Yu Ruide, Chen Xi, et al. Analysis of the Spatio-Temporal Patterns of Dry and Wet Conditions in Central Asia. Atmosphere, 2018,9(1):7.

[118] Ta Zhijie, Yu Yang, Sun Lingxiao, et al. Assessment of precipitation simulations in Central Asia by CMIP5 climate models. Water, 2018,10(11):1516.

[119] Tureniguli Amuti, Luo Geping, Yin Gang, et al. Validation of a Process-Based Agro-Ecosystem Model (Agro-IBIS) for Maize in Xinjiang, Northwest China. Agronomy, 2018,8:29.

[120] Wang Chong, Xu Jianhua, Chen Yaning, et al. A hybrid model to assess the impact of climate variability on streamflow for an ungauged mountainous basin. Climate Dynamics, 2018,50:2829-2844.

[121] Wang Dandan, Yu Zhitong, Peng Gang, et al. Water use strategies of Populus euphratica seedlings under groundwater fluctuation in the Tarim River Basin of Central Asia. Catena, 2018,166:89-97.

[122] Wang Huaijun, Pan Yingping, Chen Yaning. Impac, ts of regional climate and teleconnection on hydrological change in the bosten lake basin, arid region of northwestern China. Journal of Water and Climate Change, 2018,9(1):74-88.

[123] Wang Xianwei, Chen Huijiao, Chen Yaning. Topography-Related Glacier Area Changes in Central Tianshan from 1989 to 2015 Derived from Landsat Images and ASTER GDEM Data. Water, 2018,10(5):555.

[124] Wang Xiaobiao, Xie Shunping, Zhang Xueliang, et al. A robust Multi-Band Water Index (MBWI) for automated extraction of surface water from Landsat 8 OLI imagery. Int J Appl Earth Obs Geoinformation, 2018,68:73-91.

[125] Wang Xiaozhong, Gao Xiaopeng, Chen Xinping. Meta-analysis data quantifying nitrous oxides emissions from Chinese vegetable production. Data in Brief, 2018,19:114-116.

[126] Wang Xiaozhong, Zou Chunqin, Gao Xiaopeng, et al. Nitrate leaching from open-field and greenhouse vegetable systems in China: a meta-analysis. Environmental Science and Pollution Research, 2018,25(31):31007-31016.

[127] Wang Xiaozhong, Zou Chunqin, Gao Xiaopeng, et al. Nitrous oxide emissions in Chinese vegetable systems: A meta-analysis. Environmental Pollution, 2018,239:375-383.

[128] Wang Yugang, Deng Caiyun, Liu Yan, Niu Ziru, Li Yan. Identifying change in spatial accumulation of soil salinity in an inland river watershed, China. Science of the Total Environment, 2018,621:177-185.

[129] Wang Yunqian, Yang Jing, Chen Yaning, et al. Detecting the causal effect of soil moisture on precipitation using convergent cross mapping. Scientific Reports, 2018,8:12171.

[130] Wang Yunqian, Yang Jing, Chen Yaning, Wang Anqian, Philippe De Maeyer. The spatiotemporal response of soil moisture to precipitation and temperature changes in an arid region, China. Remote Sens, 2018,10(3):468.

[131] Wen Shanshan, Su Buda, Wang Yanjun, et al. Economic sector loss from influential tropical cyclones and relationship to associated rainfall and wind speed in China. Global and Planetary Change, 2018,169:224-233.

[132] Wu Guilin, Jiang Shaowei, Liu Hui, et al. Early direct competition does not determine the community structure in a desert riparian forest. Scientific Reports, 2018,8:4531.

[133] Wu Rongwei, Dong Jiefang, Zhou Liang, Zhang Lu. Regional Distribution of Carbon Intensity and its Driving Factors in China: An Empirical Study Based on Provincial Data. Pol. J. Environ. Stud, 2018,27(3):1331-1341.

[134] Wu Xue, Zheng Xinjun, Li Yan, Xu Guiqing. Varying responses of two Haloxylon species to extreme drought and groundwater depth. Environ. Exp. Bot., 2019,158:63-72.

[135] Wu Yanjuan, Ji Hongxia, Wen Jiahong, Duan Weili(8), et al. The characteristics of regional heavy precipitation events over eastern monsoon China during 1960-2013. Global and Planetary Change, 2019,172:414-427.

[136] Xu Jianhua, Wang Chong, Li Weihong, Zuo Jingping. Multi-temporal scale modeling on climatic-hydrological processes in data-scarce mountain basins of Northwest China. Arabian Journal of Geosciences, 2018,11(15):423.

[137] Yang He, Zhang Hongfei, Luo Biji, Gao Zhong, Tao Lu. Petrogenesis of Early Paleozoic diorites and mafic-intermediate dykes from the eastern Qilian orogen, NE Tibetan Plateau: Implication for lithospheric processes. Journal of the Geological Society, 2018,175(3):525-542.

[138] Yang Jing, Anthony Jakeman, Fang Gonghuan, Chen Xi. Uncertainty analysis of a semi- distributed hydrologic model based on a Gaussian Process emulator. Environmental Modelling & Software, 2018,101:289-300.

[139] Yang Yuhai, Chen Yaning, Li Zhi, Chen Yapeng. Land-use/cover conversion affects soil organic-carbon stocks: A case study along the main channel of the Tarim River, China. PLoS ONE, 2018,13(11):e0206903.

[140] Yao Junqiang, Chen Yaning, Zhao Yong, et al. Response of vegetation NDVI to climatic extremes in the arid region of Central Asia: a case study in Xinjiang, China. Theor Appl Climatol, 2018,131:1503-1515.

[141] Yao Junqiang, Chen Yaning, Zhao Yong, Yu Xiaojing. Hydro-climatic changes of Lake Bosten in Northwest China during the last decades. Scientific Reports, 2018,8:9118.

[142] Yao Junqiang, Zhao Yong, Chen Yaning, et al. Multi-scale assessments of droughts: A case study in Xinjiang, China. Science of the Total Environment, 2018,630:444-452.

[143] Yapiyev Vadim, Samarkhanov Kanat, Tulegenova Nazym, et al. Estimation of water storage changes in small endorheic lakes in Northern Kazakhstan. Journal of Arid Environments, 2019,160:42-45.

[144] Yegemova Saltanat, Kumar Rajeev, Abuduwaili Jilili, et al. Identifying the key information and land management plans for water conservation under dry weather conditions in the border areas of the Syr Darya River in Kazakhstan. Water, 2018,10(12):1754.

[145] Yu Yongxiang, Jia Hongtao, Zhao Chengyi. Evaluation of the effects of plastic mulching and nitrapyrin on nitrous oxide emissions and economic parameters in an arid agricultural field. Geoderma, 2018,324:98-108.

[146] Yu Yongxiang, Tao Hui, Yao Huaiying, Zhao Chengyi. Assessment of the effect of plastic mulching on soil respiration in the arid agricultural region of China under future climate scenarios. Agricultural and Forest Meteorology, 2018,256-257:1-9.

[147] Yuan Xiuliang, Bai Jie. Future Projected Changes in Local Evapotranspiration Coupled with Temperature and Precipitation Variation. Sustainability, 2018,10(9):3281.

[148] Zhang Bo, Gao Xiaopeng, Li Lei, et al. Groundwater Depth Affects Phosphorus But Not Carbon and Nitrogen Concentrations of a Desert Phreatophyte in Northwest China. Frontiers in Plant Science, 2018,9:338.

[149] Zhang Bo, Gui Dongwei, Gao Xiaopeng, et al. Controlling Soil Factor in Plant Growth and Salt Tolerance of Leguminous Plant Alhagi sparsifolia Shap. in Saline Deserts, Northwest China. Contemporary Problems of Ecology, 2018,11(1):111-121.

[150] Zhang Chi, Chen Xi, Shao Hua, et al. Evaluation and intercomparison of high-resolution satellite precipitation estimates-GPM, TRMM, and CMOR PH in the Tianshan Mountain Area. Remote Sensing, 2018,10(10):1543.

[151] Zhang Guohua, Xie Chongbao, Lai Haojie, Li Xinhu. Buried Lifting Sprinkling Irrigation Device. Journal of Irrigation and Drainage Engineering, 2018,144(1):.

[152] Zhang Jiaoyou, Chen Yaning, Li Zhi. Assessment of efficiency and potentiality of agricultural resources in Central Asia. J. Geogr. Sci, 2018,28(9):1329-1340.

[153] Zhang Lei, Tian Changyan, Wang Lei. Cold stratifi cation pretreatment improves salinity tolerance in two wheat varieties during germination. Seed Science and Technology, 2018,46(1):87-92.

[154] Zhang Man, Chen Yaning, Shen Yanjun, Li Baofu. Tracking climate change in Central Asia through temperature and precipitation extremes. Journal of Geographical Sciences, 2019,29(1):3-28.

[155] Zhang Nannan, Zhou Kefa, Li Dong. Back-propagation neural network and support vector machines for gold mineral prospectivity mapping in the Hatu region, Xinjiang, China. Earth Science Informatics, 2018,11(4):553-566.

[156] Zhang Tao, Hu Yongjun, Zhang Ke, Tian Changyan, Guo Jixun. Arbuscular mycorrhizal fungi improve plant growth of Ricinus communis by altering photosynthetic properties and increasing pigments under drought and salt stress. Industrial Crops & Products, 2018,117:13-19.

[157] Zhang Xiaoxiao, Brenton Sharratt, Lei Jiaqiang(6), et al. East Asian dust storm in May 2017: observations, modelling, and its influence on the Asia-Pacific region. Atmos. Chem. Phys, 2018,18:8353-8371.

[158] Zhao Shuai, Liu Junjie, Samiran Banerjee, et al. Soil pH is equally important as salinity in shaping bacterial communities in saline soils under halophytic vegetation.Scientific Reports, 2018,8:4550.

[159] Zhao Yongcheng, Lei Jiaqiang, Hudan Tumarbay, Xue Jie. Using sequential Gaussian simulation to assess the uncertainty of the spatial distribution of soil salinity in arid regions of Northwest China. Arid Land Research and Management, 2018,32(1):20-37.

[160] Zheng Dunyong, Yao Yibin, Nie Wenfeng, et al. An Improved Iterative Algorithm for Ionospheric Tomography Reconstruction by Using the Automatic Search Technology of Relaxation Factor. Radio Science, 2018,53(9):1051-1066.

[161] Zheng Guoxiong, Bao Anming, Li Xiaosong, et al. The Potential of Multispectral Vegetation Indices Feature Space for Quantitatively Estimating the Photosynthetic, Non-Photosynthetic Vegetation and Bare Soil Fractions in Northern China. Photogrammetric Engineering & Remote Sensing, 2019,85(1):65-76.

[162] Zheng Jili, Li Baofu, Chen Yaning, Chen Zhongsheng, Lian Lishu. Spatiotemporal variation of upper-air and surface wind speed and its influencing factors in northwestern China during 1980-2012. Theoretical and Applied Climatology, 2018,133:1303-1314.

[163] Zhu Chenggang, Li Weihong, Chen Yaning, Chen Yapeng. Characteristics of water physiological integration and its ecological significance for Populus euphratica young ramets in an extremely drought environment. Journal of Geophysical Research: Atmospheres, 2018,123(10):5657-5666.

[164] Zhu Nina, Xu Jianhua, Li Weihong, et al. A Comprehensive Approach to Assess the Hydrological Drought of Inland River Basin in Northwest China. Atmosphere, 2018,9(10):370.

[165] Zhu Xiaotong, Zhang Guangpeng, Yuan Kaiye, Ling Hongbo, Xu Hailiang. Evaluation of AgriculturalWater Pricing in an Irrigation District Based on a Bayesian Network. Water, 2018,10(6):768.

[166] Gulnura Issanova, Jilili Abuduwaili, A. G. Kuanyshbekova. Deflation Processes As Dust Storms in the Sandy Deserts of the Southern Balkash Region. Reports of the National Academy of Sciences of the Republic of Kazakhstan, 2018,3(319):39-45.

[167] Talant Asankulov, Jilili Abuduwaili, Gulnura Issanova, E. Duulatov. Analysis of Water Quality in The Coastal Zone of the Issyk-Kul Lake Before and After The Tourist Season. Bulletin of National Academy of Sciences of the Republic of Kazakhstan, 2018,4(374):6-12.

[168] 班春广,陶辉,董义阳,赵成义. 未来气候情景下塔里木河干流日径流过程模拟研究. 干旱区研究, 2018,35(04):770-778.

[169] 卞薇,陈亚宁,李稚,李玉朋,焦伟,张齐飞. 不同源降水数据在天山南坡阿克苏河流域适用性分析. 干旱区地理, 2018,41(03):459-471.

[170] 柴晨好,王玉刚,周宏飞,朱薇,刘丽娟. 干旱区典型绿洲水库库周土壤盐分空间分异及盐岛效应. 生态学杂志, 2018,37(08):2445-2452.

[171] 陈迪桃,黄法融,李倩,李兰海. 1966—2015年天山南北坡空气湿度差异及其影响因素. 气候变化研究进展, 2018,14(06):562-572.

[172] 陈桃,包安明,何大明. 基于MODIS NDVI的攀枝花市植被覆盖变化及其驱动力. 长江流域资源与环境, 2018,27(08):1847-1857.

[173] 陈晓林,陈亚鹏,李卫红,王玉阳. 干旱区不同地下水埋深下胡杨细根空间分布特征. 植物科学学报, 2018,36(01):45-53.

[174] 陈亚宁,李卫红,陈亚鹏,周洪华,郝兴明,朱成刚. 荒漠河岸林建群植物的水分利用过程分析. 干旱区研究, 2018,35(01):130-136.

[175] 陈亚宁,李卫红,陈亚鹏,朱成刚. 科技支撑新疆塔里木河流域生态修复及可持续管理. 干旱区地理, 2018,41(05):901-907.

[176] 崔东,陈亚宁,李卫红,朱成刚. 伊犁河谷苦豆子C、N、P含量变化及化学计量特征. 生态学报, 2018,38(17):6163-6170.

[177] 崔东,夏振华,朱成刚,陈晨,夏倩倩. 伊犁大小西沟野生樱桃李下发育土壤微生物、养分及酶活性. 西北师范大学学报(自然科学版), 2018,54(05):121-127.

[178] 崔东,闫俊杰,王楠,陈晨,左兰. 伊犁河谷煤矿开采对土壤重金属污染、养分及酶活性的影响. 华中师范大学学报(自然科学版), 2018,52(03):416-423.

[179] 崔俊杰,白洁,郑磊,李玉珍,赵洪飞,袁秀亮,李龙辉. 新疆地区遥感、融合和陆面模式模拟的蒸散产品的不确定性分析. 干旱区研究, 2018,35(03):597-605.

[180] 邓海军,陈亚宁,陈忠升. 增温增湿环境下天山山区降雪量变化. 地理科学, 2018,38(11):1933-1942.

[181] 邓海军,陈亚宁. 中亚天山山区冰雪变化及其对区域水资源的影响. 地理学报, 2018,73(07):1309-1323.

[182] 丁之勇,葛拥晓,吉力力·阿不都外力,蒲佳. 1957—2012年新疆艾比湖流域极端气温与降水变化趋势. 中国科学院大学学报, 2018,35(02):160-171.

[183] 丁之勇,葛拥晓,吉力力·阿不都外力. 北疆地区近53年极端气温事件及其影响因素分析. 地球环境学报, 2018,9(02):159-171.

[184] 丁之勇,马龙,吉力力·阿不都外力,刘文,葛拥晓. 新疆艾比湖湖泊沉积物元素地球化学记录及其生态环境意义. 中国沙漠, 2018,38(01):101-110.

[185] 傅思华,胡顺军,李浩,王泽锋. 古尔班通古特沙漠南缘梭梭(Haloxylon ammodendron)群落优势植物水分来源. 中国沙漠, 2018,38(05):1024-1032.

[186] 宫宇,代刊,徐珺,杨舒楠,唐健,张芳,胡宁,张夕迪,沈晓琳. GRAPES-GFS模式暴雨预报天气学检验特征. 气象, 2018,44(09):1148-1159.

[187] 古力米热·哈那提,王光焰,张音,刘迁迁,苏里坦. 干旱区间歇性生态输水对地下水位与植被的影响机理研究. 干旱区地理, 2018,41(04):726-733.

[188] 郭宏伟,徐海量,凌红波,帕尔哈提江·艾合买提. 塔里木河下游耕地扩张与天然植被退化的定量关系初探. 干旱地区农业研究, 2018,36(02):226-233.

[189] 贺强,孙从建,吴丽娜,张永清,陈伟. 基于GNIP的黄土高原区大气降水同位素特征研究. 水文, 2018,38(01):58-66.

[190] 胡增运,胡汝骥,周启鸣,陈曦,殷刚,钱静. 亚洲中部干旱区干湿时空变化特征. 干旱区研究, 2018,35(02):260-268.

[191] 黄双燕,杨辽,陈曦,姚远. 机器学习法的干旱区典型农作物分类. 光谱学与光谱分析, 2018,38(10):3169-3176.

[192] 黄湘. 塔里木河下游河道断流对土壤碳释放的影响. 环境科学与技术, 2018,41(05):133-137.

[193] 姜彤,王艳君,袁佳双,陈迎,高翔,景丞,王国复,吴先华,赵成义. “一带一路”沿线国家2020—2060年人口经济发展情景预测. 气候变化研究进展, 2018,14(02):155-164.

[194] 姜彤,赵晶,曹丽格,王艳君,苏布达,景丞,王润,高超. 共享社会经济路径下中国及分省经济变化预测. 气候变化研究进展, 2018,14(01):50-58.

[195] 姜雨青,李宝富,宋美帅,焦建飞,刘纹青. 定量评估我国西北干旱区土地利用变化对植被指数的影响. 冰川冻土, 2018,40(03):616-624.

[196] 金谦,桂东伟,高霄鹏,曾凡江,薛杰,张齐飞. 新疆主要农作物生产水足迹研究. 干旱地区农业研究, 2018,36(06):243-249.

[197] 金晓龙,邵华,邱源,杜浩阳. TRMM卫星降水数据在天山山区的校正方法研究. 气象, 2018,44(07):882-891.

[198] 李佳秀,陈亚宁,刘志辉,李稚. 额尔齐斯河流域MOD系统变化及其对气候与人类活动的响应. 水土保持研究, 2018,25(02):250-256+263.

[199] 李佳秀,陈亚宁,刘志辉. 新疆不同气候区的气温和降水变化及其对地表水资源的影响.中国科学院大学学报, 2018,35(03):370-381.

[200] 李莉,郝莉,热甫开提,何明才,刘宏平. 腐植酸复混肥对新疆膜下滴灌加工番茄产量和品质的影响. 北方园艺, 2018(08):114-122.

[201] 李文珍,齐志明,桂东伟,陈小平. 预报式灌溉条件下绿洲棉田土壤水热与作物产量模拟.灌溉排水学报, 2018,37(S2):134-139.

[202] 李稚,汪洋,王志成,李卫红. 1982—2012年西北干旱区蒸散发组分时空变化分析. 灌溉排水学报, 2018,37(07):120-128.

[203] 廉丽姝,李宝富,陈忠升,陈亚宁,孙小银. 基于WRF模式评估土地利用/覆被变化的气候和水文效应. 生态学报, 2018,38(03):917-925.

[204] 林永崇,穆桂金,秦小光,唐自华,李文,徐立帅. 地表风化作用对楼兰地区雅丹地貌发育的影响. 干旱区地理, 2018,41(06):1278-1284.

[205] 刘海军,陈亚宁,徐长春. RFE2.0遥感降水数据在新疆的适用性评价. 干旱区地理, 2018,41(04):809-816.

[206] 刘迁迁,古力米热·哈那提,王光焰,苏里坦,张音. 间歇性生态输水塔里木河下游断面地下水位变化模拟. 生态学报, 2018,38(15):5519-5528.

[207] 刘燕,徐志才,唐立松. 叶圈微生物的群落结构与生态功能研究进展. 干旱区研究, 2018,35(02):340-345.

[208] 刘洋,李兰海,杨金明,陈曦,张润. D-InSAR技术的积雪深度反演. 遥感学报, 2018,22(05):802-809.

[209] 马天光,李向义,林丽莎,李磊,李世民,王波. 遮阴对骆驼刺叶性状和水分生理的影响.生态学报, 2018,38(23):8466-8474.

[210] 马勇刚,黄粤,陈曦. 质变和量变两种维度下新疆山区土地覆盖变化分析. 山地学报, 2018,36(01):34-42.

[211] 马勇刚,黄粤. 基于1982～2013年NDVI数据的新疆30年植被状况季节与年际趋势分析.气候与环境研究, 2018,23(01):26-36.

[212] 美尔汗·黑扎特,郝兴明. 塔里木河下游胡杨群落CO2通量特征与水分利用效率. 生态学报, 2018,38(06):2048-2055.

[213] 潘莹萍,陈亚鹏,王怀军,任志国. 胡杨(Populus euphratica)叶片结构与功能关系. 中国沙漠, 2018,38(04):765-771.

[214] 蒲佳,马龙,吉力力·阿不都外力,刘文,葛拥晓. 新疆博斯腾湖表层沉积物粒度空间分布特征. 干旱区研究, 2018,35(02):477-485.

[215] 蒲佳,马龙,吉力力·阿不都外力,刘文. 常规方法对新疆地方土壤元素空间分析及重金属风险评价. 农业环境科学学报, 2018,37(06):1166-1176.

[216] 热依莎·吉力力,ISSANOVA Gulnura,吉力力·阿不都外力. 哈萨克斯坦水环境与水资源现状及问题分析. 干旱区地理, 2018,41(03):518-527.

[217] 苏布达,周建,王艳君,陶辉,高超,刘俸霞,李修仓,姜彤. 全球升温1.5℃和2.0℃情景下中国实际蒸散发时空变化特征. 中国农业气象, 2018,39(05):293-303.

[218] 苏珊,单钱娟. 额尔齐斯河流域草原退化现状及对策分析. 内蒙古科技与经济, 2018(22):32-35.

[219] 孙从建,陈若霞,张子宇,李伟,陈伟. 山西浅层地下水水化学特性时空变化特征分析. 干旱区地理, 2018,41(02):314-324.

[220] 孙从建,李伟,李新功,张子宇,陈若霞,陈伟. 青藏高原西北部近地表气温直减率时空分布特征. 自然资源学报, 2018,33(07):1270-1282.

[221] 孙浩,刘丽娟,李小玉,张振宇. 干旱区绿洲防护林网格局对农田蒸散量的影响——以新疆三工河流域绿洲为例. 生态学杂志, 2018,37(08):2436-2444.

[222] 吐热尼古丽·阿木提,罗格平,殷刚. 基于Agro-IBIS模型的新疆农田生态系统净初级生产力时空动态及其对气候变化的响应模拟. 中国农学通报, 2018,34(34):91-98.

[223] 王波,曾凡江,张波,高欢欢,张玲,李梅梅,罗瀚林,李世民. 骆驼刺叶片形态和叶绿素荧光特性对不同潜水埋深的响应. 草业科学, 2018,35(03):606-613.

[224] 王丹丹,于志同,程猛,赵成义,丁建丽,张小雷. 渭干河绿洲不同土地利用类型土壤盐分的变化特征分析. 干旱区地理, 2018,41(02):349-357.

[225] 王洪波,乔木,闫曼曼,周生斌,王成福,吴旭. 不同磁化强度水对谷子产量的影响. 干旱地区农业研究, 2018,36(04):146-151+164.

[226] 王洪波,王成福,吴旭,乔木,周生斌,闫曼曼. 磁化水滴灌对土壤盐分及玉米产量品质的影响. 土壤, 2018,50(04):762-768.

[227] 王雷,姜黎,田长彦. 盐分对异子蓬异型种子植株生长和矿质营养的影响. 干旱区研究, 2018,35(03):510-514.

[228] 王刘明,张媛,武磊,魏健美,王帅兵,王万瑞,李常斌. 区域尺度植被降水利用效率的时空变化特征——以洮河流域为例. 兰州大学学报(自然科学版), 2018,54(05):604-611.

[229] 王鹏赫,赵成义,王丹丹,马晓飞. 气候变化对叶尔羌河流域极端水文事件的影响. 生态科学, 2018,37(06):1-8.

[230] 王文峰,陈曦,王海洋,彭伟,钱静,郑宏伟. 基于局部压缩感知的行为识别. 清华大学学报(自然科学版), 2018,58(06):581-586.

[231] 王文辉,黄粤,刘铁,孟凡浩,刘蛟. 开都-孔雀河流域水资源优化配置. 干旱区研究, 2018,35(05):1030-1039.

[232] 王泽锋,胡顺军,李浩. 古尔班通古特沙漠南缘丘间地梭梭群落蒸散特征. 干旱区地理, 2018,41(06):1303-1309.

[233] 王志成,方功焕,张辉,李万江,陈亚宁,周洪华. 基于高空与地面观测的阿克苏河流域气候水文要素变化分析. 气候变化研究进展, 2018,14(01):1-10.

[234] 王志成,方功焕,张辉,唐新成,段雷振. 阿克苏河灌区作物需水量对气候变化的敏感性分析. 沙漠与绿洲气象, 2018,12(03):33-39.

[235] 王志成,李稚,张辉,李万江,徐永军. 阿克苏河流域灌区土地利用变化对蒸散耗水的影响. 灌溉排水学报, 2018,37(06):79-85.

[236] 吴豪,吴彬,杜明亮,钟瑞森. 二塘沟流域地下水化学组分来源及空间分布特征. 水资源与水工程学报, 2018,29(05):116-121.

[237] 吴文超,岳平,崔晓庆,李凯辉,刘学军. 古尔班通古特沙漠土壤微生物碳氮对环境因子的响应. 干旱区研究, 2018,35(03):515-523.

[238] 席伟,夏小洪,吴艳爽,叶甜,李诺. 吉尔吉斯斯坦Taldybulak Levoberezhny(左岸)金矿地质特征及金属矿物学研究. 地学前缘, 2018,25(05):135-150.

[239] 夏振华,陈亚宁,朱成刚,周莹莹,陈晓林. 干旱胁迫环境下的胡杨叶片气孔变化. 干旱区研究, 2018,35(05):1111-1117.

[240] 向燕芸,陈亚宁,张齐飞,卞薇. 天山开都河流域积雪、径流变化及影响因子分析. 资源科学, 2018,40(09):1855-1865.

[241] 谢江波,彭历芝,李艳明,李彦. 两种梭梭属幼苗在土壤N和P梯度下的竞争能力研究.干旱区地理, 2018,41(01):83-91.

[242] 阳春花,李治,于晓歆,谢艾伶. 一种自适应道路提取方法. 地理空间信息, 2018,16(06):94-96+9.

[243] 杨涛,郭玲鹏,黄法融,李倩,李兰海. 沙尘对天山积雪消融的影响. 干旱区研究, 2018,35(01):122-129.

[244] 姚远,陈曦,钱静. 城市地表热环境研究进展. 生态学报, 2018,38(03):1134-1147.

[245] 尤源,杨静,周娜,王永东. “中亚-西亚经济走廊”典型国家荒漠化防治政策法规比较研究. 世界地, 理研究, 2018,27(05):33-41.

[246] 于淼,廉丽姝,李宝富,张文华,初翠翠. 基于CLUE-S模型的南四湖流域土地利用及其生态效应评估. 水土保持通报, 2018,38(06):231-239+2.

[247] 张飞云,郝建盛,黄法融,李兰海. 新疆开都河流域季节性冻土特征的控制和影响因子分析. 水文, 2018,38(04):12-18.

[248] 张军谋,周晓唯,孙国军,谢攀. 基于区位熵理论的甘肃省旅游产业集聚评价分析. 西北师范大学学报(自然科学版), 2018,54(01):127-134.

[249] 张扬,李宝富,陈亚宁. 1970—2013年西北干旱区空中水汽含量时空变化与降水量的关系. 自然资源学报, 2018,33(06):1043-1055.

[250] 张盈,李君. 古尔班通古特沙漠土壤种子库和幼苗的空间格局——灌丛的“保护效应”.干旱区研究, 2018,35(05):1138-1145.

[251] 赵晶,姜彤,苏布达,黄金龙. 标准化方法在干旱损失预估中的应用——以华北地区为例.江苏农业科学, 2018,46(18):302-309.

[252] 周洪华,李卫红,孙慧兰. 基于胡杨年轮的塔里木河下游地下水埋深历史重建. 林业科学, 2018,54(04):11-16.

[253] 周娜,尤源,雷加强,王永东,王海峰. 毛里塔尼亚努瓦克肖特沙丘粒度分布特征及其环境意义. 中国沙漠, 2018,38(02):252-261.

[254] 周莹莹,陈亚宁,朱成刚,陈亚鹏,陈晓林. 塔里木河下游胡杨(Populus euphratica)种群结构. 中国沙漠, 2018,38(02):315-323.