导师介绍

张永强

 个人简况:

        张永强,内蒙古包头人,德国洪堡学者,中科院海外高层次学术帅才,全球水循环方向二级研究员,中科院陆地水循环及地表过程重点实验室副主任。具有中国、日本、德国和澳大利亚4个国家的工作经历,曾担任澳大利亚联邦科工组织首席研究员(Principal Research Scientist)。现任国际模型模拟协会水文气象部主任,现任包括Journal of HydrologyJournal of Geophysical ResearchAtmospheresRemote Sensing of Environment6个国际期刊编委。获奖12项,包括中国科学院院长特别奖,澳大利亚水利工程委员会GN Alexander奖章,澳大利亚新西兰模型模拟协会杰出青年科学家奖等。曾担任包括Science20多个国际主流期刊审稿人。

共发表SCI期刊论文135篇,包括一作/通讯作者论文75篇,ISI Web of Knowledge引用>5760次,h指数39。近5年在Nature子刊等SCI期刊发表一作/通讯作者论文38篇,其中30篇影响因子>3.8。近5年论文被SCI他引>2435次,其中Nature/Science及子刊和PNAS引用25次;近5年单篇最高他引142次,为全球蒸散发研究领域8篇高被引论文之一。

研究领域和方向:

        水文学与水资源。主要研究方向为全球蒸散发机理和过程、大尺度径流预报、生态水文过程、遥感手段在水文过程模拟和预报中的应用、区域与全球水循环过程数值模拟等。

主要学术贡献:

20年潜心研究区域与全球水循环机理、过程和模拟,取得了多项创新性研究成果:

1)在理论和方法方面,发展了新的植被气孔导度估算方法,解析了植被碳水耦合过程机理,发展了非均一下垫面参数化方法;

2)在建模和数据方面,构建了全球广泛使用的PML遥感蒸散发模型,研发了全球高精度遥感蒸散发产品,发展了耦合遥感蒸散发的新型水文模型,提升了测站稀缺地区水文过程模拟能力;

3)在格局和过程方面,明确了全球蒸散发各分量的分配比例,揭示了植被变绿对全球蒸散发变化的贡献,阐明了我国北方植被变绿的生态水文效应,诠释了青藏高原蒸散发互补关系的非对称性机制。

主持课题:

先后主持澳大利亚政府科学领航计划、中科院率先行动计划项目、国家自然科学基金委面上项目等12个国家级项目。完成的项目包括两项澳大利亚国家重大项目,负责完成了“澳大利亚水信息联盟研究项目”(200820135500万澳元)澳大利亚水信息模拟系统水文模块的研发;担任澳大利亚政府重大项目“生态区评估” 201320186500万澳元)流域地表水文模块领导,该项目是首次政府组织的多单位、跨学科评估采煤对水环境影响的大型项目。

学生培养:

地理科学与资源研究所博士研究生导师,兼任墨尔本大学和悉尼科技大学博士研究生导师。已培养30名硕士、博士研究生和博士后。受聘为墨尔本大学、悉尼科技大学和弗林德斯大学博士学位评审专家。

影响因子大于3.0的学术论文(2019年影响因子IF,按照发表时间倒序):

1.     Zhang XZ*, Wang YP*, Rayner P, Ciais P, Huang K, Luo YQ, Piao SL, Wang ZL, Xia JY, Zhao W, Zheng XG, Tian J, Zhang YQ*. A small climate-amplifying effect of climate-carbon cycle feedback. Nature Communications, 2021,12, 2952, https://doi.org/10.1038/s41467-021-22392-w (IF = 12.12TOP期刊,中科院一区)

2.     Sharma C, Shukla AK, Zhang YQ*. Climate change detection and attribution in the Ganga-Brahmaputra-Meghna river basins. Geoscience Frontiers, 2021, 12(5), 101186 (IF = 4.20TOP期刊,中科院一区)

3.     Viney NR, Post DA*, Zhang YQ, Karim F, Aryal SK, et al. Modelling the cumulative impacts of future coal mining and coal seam gas extraction on river flows: applications of methodology. Journal of Hydrology, 2021, 126440 (IF = 4.50TOP期刊,中科院一区)

4.     Li XJ, Zhang YQ*, Ma N, Li CC, Luan JK. Contrasting effects of climate and LULC change on blue water resources at varying temporal and spatial scales. Science of The Total Environment, 2021, 147488 (IF = 6.55TOP期刊,中科院一区)

5.     Faiz MA, Zhang YQ*, Baig F, Wrzesi?ski D, Naz F. Identification and intercomparison of appropriate longterm precipitation datasets using decision tree model and statistical matrix over China. International Journal of Climatology, 2021, DOI: 10.1002/joc.7113 (IF = 3.93)

6.     Zhou XY*, Zhang YQ, Sheng ZP, Manevski K, Andersen MN, Han SM, Li LH, Yang YH*. Did water-saving irrigation protect water resources over the past 40 years? A global analysis based on water accounting framework. Agricultural Water Management, 2021, 249: 106793 (IF = 4.02TOP期刊,中科院一区)

7.     Naeem S, Zhang YQ*, Zhang XZ, Tian J, Abbas S, Luo LL, Meresa HK. Both climate and socioeconomic drivers contribute in vegetation greening of the Loess Plateau. Science Bulletin, 2021, https://doi.org/10.1016/j.scib.2021.03.007 (IF = 9.51TOP期刊,中科院一区)  

8.     Wang P, Huang Q, Pozdniakov SP, Liu S*, Ma N, Wang T*, Zhang YQ, Yu J, Fu GB, Frolova NL, Liu CM. Potential role of permafrost thaw on increasing Siberian river discharge. Environmental Research Letters, 2021, https://doi.org/10.1088/1748-9326/abe326 (IF = 6.10TOP期刊,中科院一区)

9.     Zhai XY, Zhang YY*, Zhang YQ, Guo L, Liu RH. Simulating flash flood hydrographs and behavior metrics across China: Implications for flash flood management. Science of The Total Environment, 2021, 763: 142977. (IF = 6.55TOP期刊,中科院一区)

10.  Song PL, Zhang YQ*, Tian J. Improving Surface Soil Moisture Estimates in Humid Regions by an Enhanced Remote Sensing Technique, Geophysical Research Letters, 2021, https://doi.org/10.1029/2020GL091459. (IF = 4.50TOP期刊,中科院一区)

11.  Zhou XY, Zhang YQ*, Beck HE, Yang YH. Divergent negative spring vegetation and summer runoff patterns and their driving mechanisms in natural ecosystems of northern latitudes, Journal of Hydrology, 2021, 592:125848. (IF = 4.50TOP期刊,中科院一区)

12.  Nagdeve M, Paul PK*, Zhang YQ*, Singh R. Continuous Contour Trench (CCT): Understandings of hydrological processes after standardisation of dimensions and development of a user-friendly software for standardization, Soil & Tillage Research, 2021, 104792. (IF = 4.60TOP期刊,中科院一区)

13.  Huang CL, Yang QK*, Guo YH, Zhang YQ, Guo LN. The pattern, change and driven factors of vegetation cover in the Qin Mountains region, Scientific Reports, 2020, 10: 20591. (IF = 4.0)

14.  Ma N*, Yu KL, Zhang YS, Zhai JQ, Zhang YQ, Zhang HB. Ground observed climatology and trend in snow cover phenology across China with consideration of snow-free breaks, Climate Dynamics, 2020,55 (9):2867-2887. (IF = 4.49)

15.  Guo YH, Zhang YQ*, Zhang L, Wang ZG. Regionalization of hydrological modeling for predicting streamflow in ungauged catchments: A comprehensive review, WIREs Water, 2020, DOI: 10.1002/wat2.1487. (IF = 4.41)

16.  Yun XB, Tang QH*, Wang J, Liu XC, Zhang YQ, Lu H, Wang YL, Zhang L, Chen DL. Impacts of climate change and reservoir operation on streamflow and flood characteristics in the Lancang-Mekong River Basin, Journal of Hydrology, 2020, 590:125472. (IF = 4.50TOP期刊,中科院一区)      

17.  Huang Q#, Qin GH#, Zhang YQ*, Tang QH, Liu CM, Xia J, Chiew FHS, Post David. Using Remote Sensing Data‐based Hydrological Model Calibrations for Predicting Runoff in Ungauged or Poorly Gauged Catchments, Water Resources Research, 2020, doi: 10.1029/2020WR028205. (IF = 4.31TOP期刊,中科院一区)

18.  Post D*, Crosbie RS, Viney NR, Peeters LJM, Zhang YQ, Herron NF, Wilkins A, Janardhanan S, Karim F, Aryal SK, Pena-Arancibia J, Lewis S, Evans T, Vaze J, Chiew FHS, Marvanek SP, Henderson B, Schmidt B, Herr A. Impacts of coal mining and coal seam gas extraction on groundwater and surface water, Journal of Hydrology, 2020, 591:125281. (IF = 4.50TOP期刊,中科院一区)     

19.  Li CC, Zhang YQ*, Shen YJ, Yu Q. Decadal water storage decrease driven by vegetation changes in the yellow river basin, Science Bulletin, 2020, doi://10.1016/j.scib.2020.07.020. (IF = 9.51TOP期刊,中科院一区)        

20.  Gu XH, Zhang Q*, Chen DL, Li JF, Singh VP, Zhang YQ, Liu JY*, Shen ZX, Yu HQ. Impacts of anthropogenic warming and uneven regional socio-economic development on global river flood risk, 2020, Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.1. (IF = 4.50TOP期刊,中科院一区)

21.  Kong DD, Zhang YQ*, Wang DG, Chen JY, Gu XH*. Photoperiod explains the asynchronization between vegetation carbon phenology and vegetation greenness phenology, Journal of Geophysical Research: Biogeosciences, 2020, https://doi.org/10.1029/2020JG005636. (IF = 3.41)

22.  Li M*, Zhang YQ, Wallace J, Campbell E. Estimating annual runoff in response to forest change: a statistical method based on random forest, Journal of Hydrology, 2020, 125168. (IF = 4.50TOP期刊,中科院一区)

23.  Luan JK, Zhang YQ*, Tian J, Meresa H, Liu DF. Coal mining impacts on catchment runoff, Journal of Hydrology, 2020, doi: 10.1016/j.jhydrol.2020.125101. (IF = 4.50TOP期刊,中科院一区)

24.  Bai P, Liu XM*, Zhang YQ, Liu CM. Assessing the impacts of vegetation greenness change on evapotranspiration and water yield in China, Water Resources Research, 2020, doi: 10.1029/2019WR027019. (IF = 4.31TOP期刊,中科院一区)

25.  Feng SY, Liu JY*, Zhang Q*, Zhang YQ, Singh VP, Gu XH, Sun P. A global quantitation of factors affecting evapotranspiration variability, Journal of Hydrology, 2020, doi.org/10.1016/j.jhydrol.2020.124688. (IF = 4.50TOP期刊,中科院一区)

26.  Zhang YQ*, Chiew FHS, Liu CM, Tang QH, Xia J, Tian J, Kong D, Li C, (2020). Can remotely sensed actual evapotranspiration facilitate hydrological prediction in ungauged regions without runoff calibration?, Water Resources Research, 56, e2019WR026236. (IF = 4.31TOP期刊,中科院一区)

27.  Li CC, Zhang YQ*, Shen YJ, Kong DD, Zhou XY, (2020). LUCC-driven changes in gross primary production and actual evapotranspiration in northern China, Journal of Geophysical Research-Atmospheres, 125, e2019JD031705. (IF = 3.82TOP期刊)

28.  Song XY#, Sun WY#, Zhang YQ*, Song SB, Li JY, Gao YJ, (2020). Using hydrological modelling and data-driven approaches to quantify mining activities impacts on centennial streamflow, Journal of Hydrology, 2020, 124764. (IF = 4.50TOP期刊,中科院一区)

29.  Zhang JL, Zhang YQ*, Song JX*, Cheng L, Paul PK, Gan R, Shi XG, Luo ZK, Zhao PP, (2020). Large-scale baseflow index prediction using hydrological modelling, linear and multilevel regression approaches, Journal of Hydrology, 585, 124780. (IF = 4.50TOP期刊,中科院一区)

30.  Aryal S*, Zhang YQ*, Chiew FHS (2020). Enhanced low flow prediction for water and environmental management, Journal of Hydrology, 584, 124658. (IF = 4.50TOP期刊,中科院一区)

31.  Sun WY#, Song XY#, Zhang YQ*, Chiew FHS, Post D, Zheng HX, Song SB, (2020). Coal mining impacts on baseflow detected using paired catchments, Water Resources Research, 56(2), e2019WR025770. (IF = 4.31TOP期刊,中科院一区)

32.  Tian J, Zhang YQ*, (2020). Detecting changes in irrigation water requirement in Central Asia under CO2 fertilization and land use changes, Journal of Hydrology, 583, 124315. (IF = 4.50TOP期刊,中科院一区)

33.  Naeem S, Zhang YQ*, Tian J, Qamer FM, Latif A, Paul KP, (2020). Quantifying the Impact of Anthropogenic Activities and Climate Variations on Vegetation Productivity Change of China from 1985-2015. Remote Sensing, 12, 1113; doi:10.3390/rs12071113. (IF = 4.12)

34.  Li ZH, Shi XG*, Tang QH, Zhang YQ, Gao HL, Pan XC, Stephen DJ, Zhou P, (2020). Partitioning the contributions of glacier melt and precipitation to the 1971-2010 runoff increases in a headwater basin of the Tarim River, Journal of Hydrology, 124579. (IF = 4.50TOP期刊,中科院一区)

35.  Lian X, Piao SL*, Li LZX, Li Y, Huntingford C, Ciais P, Cescatti A, Janssens IA, Penuelas J, Buerman W, Chen AP, Li XY, Myneni RB, Wang XH, Wang YL, Yang YT, Zeng ZZ, Zhang YQ, McVivar TR, (2020). Summer soil drying exacerbated by earlier spring greening of northern vegetation, Science Advances, 6(1): eaax0255. (IF = 13.11TOP期刊,中科院一区)

36.  Kong DD, Zhang YQ*, Gu XH, Wang DG, (2019). A robust method for reconstructing global MODIS EVI time series on the Google Earth Engine, ISPRS Journal of Photogrammetry and Remote Sensing, 155, 13-24. (IF = 7.32TOP期刊,中科院一区)

37.  Zhang YQ*, Zheng HX, Herron N, Liu XC, Wang ZG, Chiew FHS, Parajka J. A framework estimating cumulative impact of damming on downstream water availability. Journal of Hydrology, 2019, 575: 612-627. (IF = 4.50TOP期刊,中科院一区)

38.  Zhou XY, Yang YH*, Sheng ZP, Zhang YQ, (2019). Reconstructed natural runoff helps to quantify the relationship between upstream water use and downstream water scarcity in China's river basins, Hydrology & Earth System Sciences, 23(5), 2491-2505. (IF = 5.15TOP期刊,中科院一区)

39.  Sun WY, Mu XM*, Gao P, Zhao GJ, Li JY, Zhang YQ*, Chiew F, (2019). Landscape patches influencing hillslope erosion processes and flow hydrodynamics, Geoderma, 353, 391-400. (IF = 4.85TOP期刊,中科院一区)

40.  Sun WY, Zhang YQ, Mu XM*, Li JY, Gao P, Zhao GJ, Dang TM, Chiew F, (2019). Identifying terraces in the hilly and gully regions of the Loess Plateau in China. Land Degradation & Development, 30(17): 2126-2138. (IF = 3.78)

41.  Zhang YQ*, Kong DD*, Rong G, Chiew FHS, McVicar TR, Zhang Q, Yang YT, (2019). Coupled estimation of 500m and 8-day resolution global evapotranspiration and gross primary production in 2002-2017, Remote Sensing of Environment, 222, 165-182. (IF = 9.09TOP期刊,中科院一区)

42.  Zhang YQ*, Post D, (2018). How good are gap-filled streamflow data for hydrological analysis?, Hydrology and Earth System Sciences, 22, 1-12, https://doi.org/10.5194/hess-2018-250.  (IF = 5.15TOP期刊,中科院一区)

43.  Zhang YQ*, Chiew FHS, Li, M, Post D. (2018). Predicting runoff signatures using regression and hydrological modelling approaches, Water Resources Research, 10.1029/2018WR023325. (IF = 4.31TOP期刊,中科院一区)

44.  Peeters L, Pagendam DE, Crosbie RS, Viney NR, Rachakonda PK, Dawes WR, Gao L, Marvanek SP, Zhang YQ, McVicar TR, (2018). Building confidence in environmental impact models through quantitative and qualitative uncertainty analysis. Environmental Modelling & Software, 109, 53-367. (IF = 4.80)

45.  Liu JY, Zhang YQ*, Yang YT*, Gu XH, Xiao MZ, (2018). Investigating Relationships Between Australian Flooding and Large‐Scale Climate Indices and Possible Mechanism. Journal of Geophysical Research – Atmospheres, 123. https://doi.org/10.1029/2017JD028197. (IF = 3.82, TOP期刊)

46.  Liu JY, Zhang Q*, Shi PJ, Singh V, Zhang YQ, Wang LC, Gu XH, Kong DD, (2018). Hydrological effects of climate variability and vegetation dynamics on annual fluvial water balance at global scale. Hydrology and Earth System Sciences, 22, 4047-4060. (IF = 5.15TOP期刊,中科院一区)

47.  Lian X, Piao SL*, Huntingford C, Li Y, Zeng ZZ, He Y, Wang XH, Ciais P, McVicar TR, Peng SS, Otte C, Yang H, Yang YT, Zhang YQ, Wang T, (2018). Partitioning global land evapotranspiration using CMIP5 models constrained by field observations. Nature Climate Change, 8, 640-646. (IF = 20.89TOP期刊,中科院一区)

48.  Yang YT*, Zhang YL, McVicar TR, Donohue RJ, Beck HE, Zhang YQ, Liu B, (2018). Disconnection between atmospheric and terrestrial drying trends, Water Resources Research, 54, https://doi.org/10.1029/2018WR022593. (IF = 4.31TOP期刊,中科院一区)

49.  Bai P, Liu X*, Zhang YQ, Liu C, (2018). Incorporating vegetation dynamics noticeably improved performance of hydrological model under vegetation greening, Science of Total Environment, 643: 610-622. (IF = 6.55TOP期刊,中科院一区)

50.  Wang YY, Zhang YQ*, Chiew FHS, McVicar TR, Zhang L, Li HX, Qin GH, (2017). Contrasting runoff trends between dry and wet parts of eastern Tibetan Plateau. Scientific Reports 7 (1), 15458. (IF = 4.00)

51.  Liu JY, Zhang YQ*, (2017). Multi-temporal scale clustering of continental floods and associated atmospheric circulations, Journal of Hydrology 555, 744-759. (IF = 4.50, TOP期刊,中科院一区)

52.  Liu JY, Zhang Q*, Zhang YQ*, Cheng X, Li Jianfeng, Aryal SK, (2017). Deducing of climatic elasticity to assess projected climate change impacts on streamflow change across China. Journal of Geophysical Research – Atmospheres, doi: 10.1002/2017JD026701. (IF = 3.82, TOP期刊)

53.  Zhang YQ*, Chiew FHS, Pe?a Arancibia J, Sun FB, Li HX, (2017). Global variation of transpiration and soil evaporation and the role of their major climate drivers. Journal of Geophysical Research – Atmospheres, 122, 6868–6881, doi:10.1002/2017JD027025. (IF = 3.82, TOP期刊)

54.  Cheng L., Zhang L*, Wang YP, Candell JP, Chiew FHS, Beringer J, Li L, Miralles DG, Piao SL, Zhang YQ, (2017). Nature Communications, 8:110. doi: 10.1038/s41467-017-00114-5. (IF = 12.12TOP期刊,中科院一区)

55.  Li L*., Wang YP, Beringer J, Shi H, Cleverley J, Cheng L, Eamus D, Huete A, Hutley L, Lu XJ, Piao SL, Zhang L, Zhang YQ, Yu Q, (2017). Responses of LAI to rainfall explain contrasting sensitivities to carbon uptake between forest and non-forest ecosystems in Australia, Scientific Reports, 7 (1), 11720. (IF = 4.00)

56.  Yang YT*, McVicar TR., Donohue RJ, Zhang YQ, Roderick ML, Chiew FHS, Zhang L, Zhang JL, (2017). Lags in hydrologic recovery following an extreme drought: assessing the roles of climate and catchment characteristics, Water Resources Research, 53 (6), 4821-4837. (IF = 4.31TOP期刊,中科院一区)

57.  Li H., Zhang YQ*, (2017).  Regionalising rainfall-runoff modelling for predicting daily runoff: Comparing gridded spatial proximity and gridded integrated similarity approaches against their lumped counterparts, Journal of Hydrology, 550: 279-293. (IF = 4.50, TOP期刊,中科院一区)

58.  Zhang JL., Zhang YQ*, Song JX, Cheng L., (2017). Evaluating relative merits of four baseflow separation methods in Eastern Australia. Journal of Hydrology, 549: 252-263. (IF = 4.50, TOP期刊,中科院一区)

59.  Zhang YQ*, Zheng HX, Chiew, FHS, Pe?a Arancibia J, Zhou XY, (2016). Evaluating regional and global hydrological models against streamflow and evapotranspiration measurements, Journal of Hydrometeorology, 995-1010. (IF = 3.89)

60.  Zhang YQ*, Pe?a Arancibia J, McVicar T, Chiew FHS, Liu CM, Pan M, Zheng HX, (2016). Multi-decadal trends in global terrestrial evapotranspiration and its components. Scientific Reports, 6, 19124, doi: 10.1038/srep19124. (Highly cited paper and Editor’s Choice) (IF = 4.00)

61.  Zhang YQ*, Vaze J, Chiew FHS, Li M, (2015). Comparing flow duration curve and rainfall–runoff modelling for predicting daily runoff in ungauged catchments, Journal of Hydrology, 525, 72-86. (IF = 4.50, TOP期刊,中科院一区)

62.  Pe?a-Arancibia JL*, Zhang YQ, Pagendam DE, Viney NR, Lerat J, van Dijk AIJM, Vaze J, (2015). Representation of streamflow uncertainty and impacts on rainfall-runoff calibration and prediction. Environmental Modelling and Software. 63, 32-44. (IF = 4.80)

63.  Zhang YQ*, Vaze J, Chiew FHS, Teng J, Li M, (2014). Predicting hydrological signatures in ungauged catchments using spatial interpolation, index model, and rainfall–runoff modelling. Journal of Hydrology, 517, 6239-948. (IF = 4.50, TOP期刊,中科院一区)

64.  Li FP, Zhang YQ*, Xu ZX, Liu CM, Zhou YC, Liu WF, (2014). Runoff Predictions in ungauged catchments in southeast Tibetan Plateau, Journal of hydrology, 511, 28-38. (IF = 4.50, TOP期刊,中科院一区)

65.  Mueller B*, Hirschi M, Jimenez C, Ciais P, Dirmeyer P A, Dolman AJ, Fisher JB, Jung M, Ludwig F, Maignan F, Miralles D, McCabe MF, Reichstein M, Sheffield J, Wang KC, Wood EF, Zhang YQ, Seneviratne SI, (2013). Benchmark products for land evapotranspiration: LandFlux-EVAL multi-dataset synthesis. Hydrology & Earth System Sciences, 10, 769–805. (IF = 5.15TOP期刊,中科院一区)

66.  Schwalm CR*, Huntinzger DN, Michalak AM, Fisher JB, Kimball JS, Mueller B, Zhang K, Zhang YQ, (2013). Sensitivity of inferred climate model skill to choice of benchmarking datasets and evaluation decisions, Environmental Research Letters, 8 (2), 024028. (IF = 6.10TOP期刊,中科院一区)

67.  Zhang HQ*, Pak B, Wang Y. P., Zhou XY, Zhang YQ, Zhang L, (2013) Evaluating Surface Water Cycle Simulated by the Australian Community Land Surface Model (CABLE) at Different Spatial and Temporal scales, Journal of Hydrometeorology, 14,1119-1139. (IF = 3.89)

68.  Li FP, Zhang YQ*, Xu ZX, Teng J, Liu CM, Mpelasoka F, Liu WF, (2013). Climate change impact on runoff in southeast Tibetan Plateau, Journal of Hydrology, 505,188-201. (IF = 4.50, TOP期刊,中科院一区)

69.  Zhou YC, Zhang YQ*, Vaze J, Lane P, Xu S, (2013). Improving runoff estimates using remote sensing vegetation data for bushfire impacted catchments, Agricultural and Forest Meteorology, 182-183,332-341. (IF = 4.65TOP期刊,中科院一区)

70.  Zhou XY, Zhang YQ*, Wang YP, Zhang HQ, Zhang L, Vaze J., Yang YH, Zhou XY, (2012). Benchmarking global land surface models against observed mean annual runoff from 150 large basins. Journal of Hydrology, 470-471, 269-279. (IF = 4.50, TOP期刊,中科院一区)

71.  Li H, Zhang YQ*, Vaze J, Wang B, (2012). Separating effects of vegetation change and climate variability using hydrological modelling and sensitivity-based approaches.  Journal of Hydrology, 420-421, 403-418. (IF = 4.50, TOP期刊,中科院一区)

72.  Zhang YQ*, Leuning R, Chiew FHS, Wang EL, Zhang L, Liu CM, Sun FB, Peel MC, Shen YJ, Jung M, (2012), Decadal trends in evaporation from global energy and water balances. Journal of Hydrometeorology, 13, 379-391. (IF = 3.89)

73.  Luo J, Wang E*, Shen S, Zheng H, Zhang Y. (2012). Effects of conditional parameterization on performance of rainfall-runoff model regarding hydrologic non-stationarity. Hydrological Processes 26, 3953-3961, doi:10.1002/hyp.8420. (IF = 3.26)

74.  Li CZ, Zhang L*, Wang H, Zhang YQ, Yu FL, and Yan DH. (2012). The transferability of hydrological models under nonstationary climatic conditions, Hydrol. Earth Syst. Sci., 8, 8701-8736, doi:10.5194/hessd-8-8701-2011. (IF = 5.15TOP期刊,中科院一区)

75.  Glenn EP*, Doody TM, Guerschman JP, Huete AR, King EA, McVicar TR, Van Dijk, AIJM, Van Niel TG, Yebra M, Zhang YQ, (2011). Actual evapotranspiration estimation by ground and remote sensing methods: the Australian experience. Hydrological Processes, doi: 10.1002/hyp.8391. (IF = 3.26)

76.  Wang E*, Zhang YQ, Luo J, Chiew F, Wang Q. (2011). Monthly and seasonal streamflow forecasts using rainfall-runof modeling and historical weather data. Water Resources Research, 47: W05516, 13 PP. doi: 10.1029/2010WR009922. (IF = 4.31TOP期刊,中科院一区)

77.  Mueller B*, Seneviratne S, Jimenez C, Corti T, Hirschi M, Balsamo G, Clais P, Dirmeyer P, Fisher J, Guo Z, Jung M, Maignan F, McCabe M, Reichle R, Reichstein M, Rodell M, Sheffield J, Teuling A, Wang K, Wood E, and Zhang Y. (2011). Evaluation of global observations-based evapotranspiration datasets and IPCC AR4 simulations. Geophysical Research Letters, 38 (L06402):, 7 pp. doi: 10.1029/2010GL046230. (IF = 4.50TOP期刊,中科院一区)

78.  Sun FB, Roderick ML*, Farquhar GD, Lim WH, Zhang YQ, Bennett N, Roxburgh SH (2010). Partitioning the variance between space and time, Geophysical Research Letters, 37, L12704, doi:10.1029/2010GL043323. (IF = 4.50TOP期刊,中科院一区)

79.  Zhang YQ*, Leuning R., Hutley LB., Beringer J., McHugh I., Walker JP (2010). Using of long-term water balances to parameterize surface conductance and calculate evaporation at 0.050 spatial resolution, Water Resources Research, 46, W0512, doi: doi:10.1029/2009WR008716. (IF = 4.31TOP期刊,中科院一区)

80.  Sun HY, Shen YJ*, Yu Q, Gerald F, Zhang YQ, Liu CM, Zhang XY (2010). Effect of precipitation change on water balance and WUE of the winter wheat –summer maize rotation in the North China Plain, Agricultural Water Management, doi:10.1016/j.agwat.2009.06.004. (IF = 4.02TOP期刊,中科院一区)

81.  Chen C, Wang EL*, Yu Q, Zhang YQ, (2010). Quantifying the effects of climate trend in the past 43 years (1961-2003) on crop yield and water demand in the North China Plain, Climate Change 100, 559-578. (IF = 4.17)

82.  Zhang YQ*, Chiew FHS, (2009). Relative merits of three different methods for runoff predictions in ungauged catchments, Water Resources Research, DOI: 10.1029/2008WR007504. (IF = 4.31TOP期刊,中科院一区)

83.  Zhang YQ*, Chiew FHS, Zhang L, Li H, (2009). Use of remotely sensed actual evapotranspiration to improve rainfall-runoff modelling in southeast Australia, Journal of Hydrometeorology, DOI: 10.1175/2009JHM1061.1. (IF = 3.89)

84.  Li HX, Zhang YQ*, Chiew F, Xu S, (2009). Predicting runoff in ungauged catchments by using Xinanjiang model with MODIS leaf area index, Journal of Hydrology, 370, 155-162, DOI: 10.1016/j.jhydrol.2009.03.003. (IF = 4.50TOP期刊,中科院一区)

85.  Zhang L*, Potter N, Hickel K, Zhang YQ, Shao QX, (2008). Water balance modeling over variable time scales based on the Budyko framework: I. Model development and testing, Journal of Hydrology, 360 (no 1-4), 117-131, DOI: 10.1016/j.jhydrol.2008.07.021. (IF = 4.50TOP期刊,中科院一区)

86.  Zhang YQ*, Chiew FHS, Zhang L, Leuning R, Cleugh H, (2008). Estimating catchment evaporation and runoff using MODIS leaf area index and the Penman-Monteith equation, Water Resources Research, 44, W10420, DOI: 10.1029/2007WR006563. (IF = 4.31TOP期刊,中科院一区)

87.  Leuning R*, Zhang YQ, Rajaud A, Cleugh H, Tu K, (2008). A simple surface conductance model to estimate regional evaporation using MODIS leaf area index and the Penman-Monteith equation, Water Resources Research, 44, W10419, DOI:10.1029/2007WR006562. (IF = 4.31TOP期刊,中科院一区)

88.  Zhang YQ*, Yu Q, Jiang J, Tang YH, (2008). Calibration of Terra/MODIS gross primary production over an irrigated cropland on the North China Plain and an alpine meadow on the Tibetan Plateau. Global Change Biology, 14, 757 -767. (IF = 8.55TOP期刊,中科院一区)

89.  Zhang YQ*, Liu CM, Tang YH, Yang YH, (2007). Trends in pan evaporation and reference and actual evapotranspiration across the Tibetan Plateau. Journal of Geophysical Research – Atmospheres, 112, D12110, DOI: 10.1029/2006/2006JD008161.  (IF = 3.82TOP期刊)

90.  Zhang YQ*, Wegehenkel M, (2006).  Integration of MODIS data into a simple model for the spatial distributed simulation of soil water content and evapotranspiration. Remote Sensing of Environment, 104, 393-408. (IF = 9.09TOP期刊,中科院一区)

91.  Sun HY*, Liu CM, Zhang XY, Shen YJ, Zhang YQ, (2006). Effects of irrigation on water balance, yield and WUE of winter wheat in the North China Plain, Agricultural Water Management, 85, 211-218. (IF = 4.02TOP期刊,中科院一区)

92.  Zhang YQ*, Tang YH, (2005). Inclusion of photoinhibition in simulation of carbon dynamics of an alpine meadow on the Qinghai-Tibetan Plateau. Journal of Geophysical Research-Biogesciences, 110, G01007, DOI: 10. 1029/2005JG000021. (IF = 3.41)

93.  Zhang YQ*, Liu CM, Yu Q, Shen YJ, Kendy E, Kondoh A, Tang CY, Sun HY, (2004). Energy fluxes and the Pristley-Taylor parameter over winter wheat and maize in the North China Plain. Hydrological Processes, 18, 2235-2246. (IF = 3.26)

94.  Kendy E*, Zhang YQ, Liu CM, Wang JX, Steenhuis TS, (2004). Groundwater recharge from irrigated cropland in the North China Plain: Case study of Luancheng County, Hebei Province, 1949-2000. Hydrological Processes, 18, 2289- 2302. (IF = 3.26)

95.  Shen YJ*, Zhang YQ, Kondoh A, Tang CY, Chen JY, Xiao JY, Sakura Y, Liu CM, Li WQ, Sun HY, (2004). Seasonal variation of energy partitioning in an irrigated lands. Hydrological Processes, 18, 2223- 2234. (IF = 3.26)

96.  Zhang YQ*, Kendy E, Yu Q, Liu CM, Shen YJ, Sun HY, (2004). Effect of soil water deficit on evapotranspiration, crop yield, and water use efficiency in the North China Plain. Agricultural Water Management, 64, 107-122. (IF = 4.02TOP期刊,中科院一区)

97.  Yu Q*, Zhang YQ, Liu YF, Shi PL, (2004). Simulation of the stomatal conductance of winter wheat in response to light, temperature and CO2 changes. Annals of Botany, 93 (4), 435-441. (IF = 4.00)

98.  Kendy E*, Marchant PG, Walter MT, Zhang YQ, Liu CM, Steenhuis TS, (2003). A soil-water balance approach to quantify groundwater recharge from irrigated cropland in the North China Plain. Hydrological Processes, 17, 2011-2031. (IF = 3.26)

99.  Zhang YQ*, Liu CM, Shen YJ, Kondoh A, Tang CY, Tanaka T, Shimada J, (2002). Measurement of evapotranspiration in a winter wheat field. Hydrological Processes,16, 2805-2817. (IF = 3.26)

100.  Liu CM*, Zhang XY, Zhang YQ, (2002). Determination of daily evaporation and evapotranspiration of winter wheat and maize by large-scale weighing lysimeter and micro-lysimeter. Agricultural and Forest Meteorology,111, 109-120. (IF = 4.65TOP期刊,中科院一区)

101.  Shen YJ*, Kondoh A, Tang CY, Zhang YQ, Chen JY, Li WQ, Sakura Y, Liu CM, Tanaka T, Shimada J, (2002). Measurement and analysis of evapotranspiration and surface conductance of a wheat canopy. Hydrological Processes, 16, 2173-2187. (IF = 3.26)

招生专业:自然地理学

招生方向:蒸散发机理和过程、径流预报、生态水文、遥感水文、区域与全球水循环数值模拟

通讯地址:北京市安外大屯路甲11号 中国科学院地理科学与资源研究所陆地水循环及地表过程重点实验室 邮编:100101

电话:86 10 64856515 传真:86 10 64889169

电子信箱:zhangyq@igsnrr.ac.cn; yongqiang.zhang2014@gmail.com

更新日期:2021518