粟曉玲,女,漢族,1968年11月生于四川開江。她是中國共產黨黨員,工學博士,教授,同時也是水文學及水資源專業的碩士生導師。粟曉玲在1990年6月從武漢水利電力大學水資源規劃與利用專業本科畢業,獲得工學學士,2007年6月在西北農林科技大學農業水土工程專業畢業,獲得工學博士學位。1990年6月,她開始在水利部西北水利科學研究所工作,1999年9月因單位合并至西北農林科技大學水利與建筑工程學院。粟曉玲是中國自然資源學會水資源專業委員會委員,同時也是《水利與建筑工程學報》編委會委員。
人物經歷
1990年6月武漢水利電力大學水資源規劃與利用專業本科畢業,獲工學學士學位。2007年6月西北農林科技大學農業水土工程專業研究生畢業,獲工學博士學位。2013年4月至2014年4月赴美國Texas A&M University與國際著名水文水資源專家Vijay P. Singh教授合作研究一年。1990年6月分配到水利部西北水利科學研究所,1995年11月獲工程師任職資格,2000年12月評聘為高級工程師,2001年9月開始承擔西北農林科技大學水利與建筑工程學院教學工作,2004年2月轉為副教授,2004年獲碩士生導師資格,2008年12月獲教授任職資格,2010年獲博士生導師資格。
研究方向
生態價值與生態需水,面向生態的水資源配置,水量轉化與水資源調控,水文干旱等方面。此外,她的研究還涵蓋了水資源優化配置,流域水文模擬及預報,氣候變化對水文水資源的影響等領域。
開設課程
先后承擔《工程水文與水利計算》《水資源規劃》《水文預報》《生態水文學》等本科課程,以及《水資源系統分析》《水資源規劃與管理》等研究生課程的教學工作。
科研項目
長期從事水文水資源方面的科研工作,主持國家自然科學基金“西北旱區生態經濟效益統一度量的水資源合理配置研究”(編號50879071)、水利部公益性行業專項子課題“石羊河流域基于生態健康的水資源優化配置與高效利用模式研究”(編號200801104)、國家“十一五”支撐計劃項“(2006BAD29B02)”的子題“西北主要種植制度下水資源承載力研究”以及西北農林科技大學青年學術骨干支持計劃項目“內陸河流域面向生態的水資源合理配置關鍵技術研究”。曾主持完成中華人民共和國國家自然科學基金委員會與黃河水利委員會聯合基金項目“關中灌區水量轉化與水平衡關系及對黃河徑流的影響”(編號50279042)、九五國家重點科技攻關項目二級子題“關中地區重大水利工程戰略規劃及可持續利用綜合評價”、水利部大型灌區節水改造咨詢項目專題“涇惠渠灌區水資源統一調度”,西北農林科技大學青年基金“陜西黃土高原區水文干旱分析”等項目。作為主要參加人參加完成國家自然科學基金重大研究計劃中國西部環境和生態科學項目“西北旱區綠洲農業發展對流域尺度水循環的影響及生態環境效應”,以及陜西省自然科學基金項目、陜西省減災協會基金項目、楊凌農業開發基金等5項,以及區域水資源評價、水文干旱、水資源規劃等科研項目6項。
學術成果
學術專著
主編《水資源規劃與管理》教材1部,主編《西北旱區流域尺度水資源轉化規律及其節水調控模式——以甘肅石羊河流域為例》(第2主編)、《專門水文學概論》(第3主編)專著2部,參編《黃河水科學前沿》《中國節水農業》《農業水土工程概論》等專著3部。出版專著主要有:
[1] 粟曉玲, 馮凱,張更喜 等著。變化環境下干旱評估-傳遞機制-預測預估方法與應用.2023,北京:科學出版社。
[2] 康紹忠,趙文智,黃冠華,杜太生,粟曉玲,牛俊 等著。西北旱區綠洲農業水轉化多過程耦合與高效用水調控:以甘肅河西走廊黑河市流域為例. 2020,北京:科學出版社。
[3] 康紹忠,粟曉玲,杜太生 等著。西北旱區流域尺度水資源轉化規律及其節水調控模式——以甘肅石羊河流域為例.2009,北京:中國水利水電出版社。(入選第三屆“三個一百”原創圖書出版工程)
[4] 宋松柏,蔡煥杰,粟曉玲。專門水文學概論.2005,楊陵區:西北農林科技大學出版社。
[5] 何俊仕,粟曉玲,付強。水資源規劃與管理(第二版)2014.北京:中國農業出版社。
學術論文
先后在在《Transactions of Tianjin University》《水利學報》《農業工程學報》《水科學進展》《生態學報》等刊物及國際國內學術會議發表論文60余篇。其中有10篇被SCI、EI、ISTP收錄(其中第一作者5篇)。主要論文有:
[1] Zhang Te, Su Xiaoling*, Wu Lianzhou. Integrating multiple comparison methods for attributing hydrological drought evolution and drought propagation: The impact of climate change cannot be ignored. Journal of Hydrology. 2023,621,129557. (SCI,中科院1區,IF6.4)
[2] Wu Haijiang, Su Xiaoling*, Singh Vijay P, AghaKouchak Amir, Liu Zhiyong. Bayesian vine copulas improve agricultural drought prediction for long lead times. Agricultural and Forest 氣象學2023,331:109326. (SCI,中科院1區,IF6.2)
[3] Chu Jiangdong, Su Xiaoling*, Jiang Tianliang, Qi Jixia, Zhang Gengxi, Wu Haijaing. Filling the Gap between GRACE and GRACE-FO 數據 Using a Model Integrating Variational Mode Decomposition and Long Short-Term Memory: A Case Study of Northwest China. Environmental 地球 Sciences. 2023.82(38):.1007/s12665-022-10716-y(SCI,中科院4區,IF2.8)
[4] Jiang Tianliang, Su Xiaoling*, Singh Vijay P,Zhang Gengxi, Zhang Te, Wu Haijiang. Estimating propagation probability from meteorological to ecological droughts using a hybrid machine learning-Copula method. Hydrology and 地球 System Sciences. 2023. 27: 559–576. (SCI,中國科學院星1區,IF6.3)
[5] Wu Haijiang, Su Xiaoling*, Singh Vijay P, Zhang Te. Predicting Hydrological Drought with Bayesian Model Averaging Ensemble Vine Copula (BMAViC) Model. H?O Resources Research. 2022,58(11):e2022WR033146. (SCI,中科院1區,IF6.159)
[6] Zhang Gengxi, Wang Huimin, Gan Thian Yew, Zhang Shuyu, Shi Lijie, Zhao Jin, Su Xiaoling, Song Songbai. Climate Change Determines Future 種群 Exposure to Summertime 化合物 Dry and Hot Events. 地球 Future. 2022.10(11): e2022EF003015. (SCI,中國科學院星1區,IF8.852)
[7] Zhang Te, Su Xiaoling*, Zhang Gengxi, Wu Haijiang, Liu Yuhan. Projections of the characteristics and probability of spatially concurrent hydrological drought in a cascade reservoirs 面積 under CMIP6. Journal of Hydrology.2022,613:128472.(SCI,中科院1區,IF5.722)
[8] Wu Haijaing, Su Xiaoling*, Singh Vijay P. Zhang Te, Qi Jixia. Model comparisons between canonical vine copulas and meta-Gaussian for agricultural drought forecasting over China. Hydrology and 地球 System Sciences. 2022.07.22,26(14):3847-3861.(SCI,中國科學院星1區,IF5.748)
[9] Zhang Te, Su Xiaoling*, ZhangGengxi, WuHaijiang, Wang Guanzhi, Chu Jiang越南盾 Evaluation of the impacts of human activities on propagation from meteorological drought to hydrological drought in the Weihe River Basin, China. Science of The Total Environment. 2022.819:153030.( SCI,中科院2區,IF7.963,ESI高被引)
[10] Jiang Tianliang, Su Xiaoling*, SinghVijay P., Zhang Gengxi. Spatio-temporal patterns of ecological droughts and their impacts on health of vegetation in Northwestern China. Journal of Environmental 管理學2022.305:114356. (SCI,中科院2區,IF6.789)
[11] Zhang Gengxi, Gan Thian Yew*, Su Xiaoling. Twenty-first century drought analysis across China under climate change. Climate 動力學 (2022.09). 59(5-6):1665-1685. (SCI,中科院2區,IF4.486)
[12] Wu Haijiang, Su Xiaoling*, Zhang Gengxi, Feng Kai, Liang Zheng. Statistical prediction of agricultural drought severity in China based on dry or hot events. Theoretical and Applied Climatology. 2022.01,147(1-2): 159–171..1007/s00704-021-03797-5. (SCI,中科院3區,IF3.179).
[13] Wu Haijiang, Su Xiaoling*, Singh Vijay P. Blended Dry and Hot Events Index for Monitoring Dry-Hot Events Over Global Land areas Geophysical Research Letters.2021,48(24):e2021GL096181. (SCI,中科院2區, IF4.486)
[14] Zhang Gengxi, Su Xiaoling*, Singh Vijay P,Ayantobo Olusola O. Appraising standardized moisture anomaly(SZI) in drought projection across China under CMIP6 forcing scenarios. Journal of Hydrology: Regional Studies.2021,37:100898. (SCI,中科院2區,IF5.023)
[15] Wu Haijiang, Su Xiaoling*,Singh Vijay P, Feng Kai, Niu Jiping*. Agricultural Drought Prediction Based on the Conditional Distributions of Vine Copulas. H?O Resources Research.2021,57(8):e2021WR029562. .1029/2021WR029562 (SCI,中科院1區,IF5.24)
[16] Feng Kai, Su Xiaoling*, Zhang Gengxi, Ayantobo Olusola O., Zhang Zezhong, Javed Tehseen. Dynamic evolution and 頻率 analysis of hydrological drought from a three‐dimensional 透視 Journal of Hydrology. 2021, 600:126675. (SCI,中科院1區,IF5.722)
[17] Jiang Tianliang, Su xiaoling*, Singh Vijay P, Zhang Gengxi. A novel index for ecological drought monitoring based on ecological H?O deficit: Northwestern China as a case study. Ecological Indicators. 2021.129(10):107804 (SCI,中科院2區,IF4.958)
[18] Zhang Te, Su Xiaoling*, Feng Kai. A novel nonstationary meteorological and hydrological drought index using the climatic and anthropogenic indices as covariates. Science of The Total Environment.2021,786:147385 (SCI,中科院1區,IF7.963)
[19] Zhang Gengxi, Su Xiaoling*, Ayantobo Olusola O., Feng Kai. Drought monitoring and evaluation with ESA CCI and GLDAS-Noah soil moisture across China. Theoretical and Applied Climatology. 2021,144(3), 1407-1418. (SCI,中科院3區,IF3.179)
[20] Liang Zheng, Su Xiaoling*, Fengkai. Drought propagation and construction of a comprehensive drought index based on the SWAT-KC': A case study for the Jinta River basin in Northwestern China. Natural Hazard and 地球 System Sciences. 2021,21(4):1323–1335.( SCI,中科院2區,IF3.102)
[21] Zhang Gengxi, Su Xiaoling*, Ayantobo Olusola O.,Feng Kai. Spatial interpolation and validation of daily rainfall using SWAT model for gauge-scarce mountainous regions: A case study in Shiyang river basin. ?Atmospheric Research. 2021,247(1):105167. (SCI,中科院2區,IF4.467)
[22] Fengkai, Su Xiaoling*,Zhang Gengxi,Tehseen Jevad . Development of a new integrated hydrological drought index (SRGI) and its application in the Heihe River Basin, China. Theoretical and Applied Climatology. 2020,141(1-2):43-59. (SCI,中科院3區,IF2.73)
[23] Zhang Gengxi, Su Xiaoling*, Sing VijayP. Modelling groundwater -dependent vegetation index using Entropy theory. Ecological modelling,2020, 416:108916 ?(SCI,中科院3區,IF2.974)
[24] Feng Kai, Su Xiaoling*. Spatiotemporal characteristics analysis of drought in the Heihe River Basin based on ESMD. International Journal of Disaster Risk Science. 2019,10(4):591-603.( SCI,中科院2區,IF3.727)
[25]Hao Lina, Su Xiaoling*, Sing Vijay.P, Zhang Lan, ZHang Gengxi. Suitable oasis and cultivated land scales in arid regions based on ecological health. Ecological Indicators, 2019, 102:33-42. (SCI,中國科學院星2區,IF4.49)
[26] Zhang Gengxi, Zhou Zhenghong, Su Xiaoling*. Application of Entropy Spectral Method for Streamflow Foresting in Northwest, China. Entropy, 2019,21(2):132.(SCI,中科院3區,IF 2.41)
[27] Guo Jing, Su Xiaoling*. Parameter sensitivity analysis of SWAT model for streamflow simulation with multisource precipitation datasets. Hydrology Research.2019,50(3):861-877.( SCI,中科院4區,IF1.801)
[28]Hao Lina, Su Xiaoling*, Singh Vijay P. Cropping pattern optimization model considering uncertainty of H?O availability and water saving potential. International Journal of Agricultural and Biological Engineering. 2018, 11(1): 178–186.(SCI,中科院3區,IF1.267)
[29] Wu Lei, Su Xiaoling, Ma Xiaoyi , Kang Yan, Jiang Yanan. Integrated modeling framework for evaluating and predicting the H?O resources carrying capacity in a continental river basin of Northwest China. Journal of Cleaner Production. 2018, 204(12):366-379. (SCI,中科院1區,IF6.395)
[30] Zhang Shulin, Su Xiaoling*, Singh Vijay P, Ayantobo Olusola O, Xie Juan. Logarithmic Mean Divisia Index (LMDI) decomposition analysis of changes in agricultural H?O use: a case study of the middle reach of the Heihe River basin, china. Agricultural Water 管理學 2018, 208:422-430. (SCI,中科院1區,IF3.542)
[31] Hao Lina, Su Xiaoling*, Singh Vijay P, Ayantobo Olusola O. Spatial optimization of agricultural land use based on cross-entropy method. Entropy. 2017, 19, 592. (SCI,中科院3區,IF2.305)
[32]Zhou Zhenghong, Ju Juanli, Su Xiaoling, Singh, Vijay P, Zhang Gengxi. Comparison of Two Entropy Spectral Analysis Methods for Streamflow Forecasting in Northwest China. Entropy 2017, 19, 597. (SCI,中科院3區,IF2.305)
[33]Zhang Gengxi , Su Xiaoling*, Singh Vijay P. ?and Ayantobo Olusola O. Modeling NDVI Using Joint Entropy Method Considering Hydro-Meteorological Driving Factors in the Middle Reaches of Hei River Basin.Entropy. 2017, 19(9), 502. (SCI,中科院3區,IF2.305)
[34]Guo Jing, Su Xiaoling*, Singh Vijay P, Jin Jiming. Impacts of Climate and Land Use/Cover Change onStreamflow Using SWAT and a Separation Method for the Xiying River Basin in Northwestern China. H?O 2016,8(5):192(14).(SCI,中科院3區,IF1.832)
[35] Su Xiaoling, Singh Vijay P. Niu Jiping & Hao Lina. Spatiotemporal trends of aridity index in Shiyang River basin of northwest China. Stochastic Environmental Research and Risk Assessment. 2015,29(6):1571-1582.(SCI,中科院3區,IF2.237)
[36] Su Xiaoling, Li Jianfang & Singh Vijay P. Optimal Allocation of Agricultural H?O Resources Based on Virtual Water Subdivision in Shiyang River Basin[J]. Water Resourses 管理學 2014, 28:2243–2257.(SCI,中科院3區,IF2.437)
[37]Kang ShaoZhong,Su XiaoLing,Tong Ling, et al. A warning from an Ancient oasis: intensive human activities are leading to potential ecological and social catastrophe. International Journal of Sustainable Development and World Ecology. 2008,15(5): 440-447. (SCI,中科院3區)
[38] Kang Shaozhong, Su Xiaoling,Tong Ling et al. The impacts of H?O related human activities on the water-land environment of Shiyang River Basin, an arid region in Northwest China[J]. Hydrological Sciences Journal, 2004, 49(3): 413-427.(SCI,中科院3區)
[39] SuXiaoling, Kang Shaozhong, Li Fusheng , Zhang Lu, Tong Ling. Benefits evaluation of H?O resources used for ecosystem in Shiyang River Basin of Gansu Province. Transactions of Tianjin University. 2009,15(2): 108-112. (EI)
[40] 粟曉玲,劉雨翰,姜田亮,吳海江,劉軒,梁曉萱.西北陸地生態系統未來生態需水量預估.水資源保護.(錄用定稿,EI)
[41]劉軒,粟曉玲*,劉雨翰,梁曉萱.西北地區生態干旱脆弱性評估.水資源保護.2023,39(03):65-73. (EI)
[42] 褚江東,粟曉玲*,吳海江,劉雨翰,馮凱. 2002-2021年中國陸地水儲量及其組分變化分析.水資源保護. 2023,39(03):170-178.(EI)
[43] 馮凱,李彥彬,許桂平,王飛,張澤中,粟曉玲*,張更喜.西北農業干旱對氣象干旱的時空多角度響應.水資源保護. 2023,39(02):59-69.(EI)
[44] 粟曉玲,梁曉萱,吳海江,姜田亮,劉雨翰,劉軒. 表征生態狀況的綜合干旱指數構建及干旱風險分析.水資源保護.2023.39(02): 50-58+100.(EI)
[45] 馮凱,李彥彬,王飛,粟曉玲*,吳海江. 基于改進三維識別方法的西北地區干旱事件分析.水資源保護.2023.39(01):63-72. (EI)
[46] 吳海江,粟曉玲*,祁繼霞,張特,朱興宇,武連洲.Vine Copula與托馬斯·貝葉斯模型平均結合的月徑流預測及應用.農業工程學報.2022, 38(24): 74-83. (EI)
[47]劉文菲,粟曉玲*,張更喜,孫愛立,武連洲.西北未來潛在蒸散發集合預估及不確定性歸因[J]. 農業工程學報.2022,38(4):123-132.(EI)
[48]粟曉玲,褚江東,張特,姜田亮,王冠智.西北地區地下水干旱時空演變趨勢及對氣象干旱的動態響應[J].水資源保護.2022,38(1):34-42.(EI)
[49]姜田亮,粟曉玲*,郭盛明,吳海江. 西北地區植被耗水量的時空變化規律及其對氣象干旱的響應[J].水利學報. 2021,52(02):241-254.(EI)
[50]張更喜,粟曉玲*,劉文菲. 考慮CO2濃度影響的中國未來干旱趨勢變化[J].農業工程學報.2021,37(1):84-91.(EI)
[51]吳海江,粟曉玲*,張更喜. 基于meta-Gaussian模型的中國農業干旱預測研究[J]. 地理學報.2021,76(3):525-538.(EI)
[52] 馮凱,粟曉玲*. 基于三維視角的農業干旱對氣象干旱的時空響應關系[J]. 農業工程學報,2020,36(8):103-113. (EI)
[53] 張更喜,粟曉玲*,郝麗娜,吳海江. 基于NDVI和scPDSI研究1982-2015年中國植被對干旱的響應[J].農業工程學報. 2019,35(21):145-151.(EI)
[54] 艾啟陽,粟曉玲*,張更喜,牛紀蘋.構建標準地下水指數和評價黑河中游地下水演變規律[J]. 農業工程學報. 2019,35(10):69-74.(EI)
[55]謝娟,粟曉玲*. 基于LMDI的灌溉需水量變化影響因素分解[J]. 農業工程學報,2017, 33(07):123-131. (EI)
[56] 粟曉玲,宋悅,劉俊民,黨永仁. 田 智. 耦合地下水模擬的渠井灌區水資源時空優化配置[J]. 農業工程學報,2016, 32(13): 43-51. (EI)
獲獎榮譽
成果“干旱內陸河流域考慮生態的水資源配置理論與調控技術及其應用”獲2013年國家科技進步二等獎,排名第三;成果“干旱內陸區流域尺度水資源轉化規律及其農業節水調控模式”獲2012年度教育部高等學校科技進步一等獎,排名第三;成果“關中地區水資源優化配置研究”獲2001年陜西省科技進步三等獎,排名第七;成果 “渭河下游三門峽市庫區突發性洪水災害風險分析及災損評估”獲1999年陜西省科技進步三等獎,排名第八。獲陜西省水利學會優秀學術論文一等獎、二等獎及優秀學術論文獎各1項。獲西北農林科技大學2009年度優秀共產黨員榮譽、2012年優秀教師稱號,入選西北農林科技大學2007年“青年學術骨干支持計劃”。
參考資料 >
粟曉玲.西北農林科技大學水利與建筑工程學院(水利水電科學研究院).2024-03-27