李强，男，1987年12月生于陕西省延安市子长县，2010年7月毕业于西安交通大学城市学院，2013年在加拿大纽布伦斯威克大学（University of New Brunswick）获得硕士学位，2018年在加拿大不列颠哥伦比亚大学（University of British Columbia）获得博士学位。2018-2020年，在加拿大维多利亚大学从事博士后工作，受国际著名地下水文学家Tom Gleeson教授指导，并在当地科技公司担任研究科学家。曾任西北农林科技大学国际交流与合作处副处长（挂职）。现任西北农林科技大学林学院教授、博士生导师，水土保持与荒漠化整治全国重点实验室副主任，陕西秦岭森林生态系统国家野外科学观测研究站站长，第三批秦岭生态环保“青年学者”及生态保护组组长，西北林学院学报、Froniter in forest and global change 和Sustainable Water Resources Management副主编，Ecohydrology编委等。主要从事森林生态水文学研究，主持科技部十四五重点研发计划“典型脆弱生态系统保护与修复”专项青年科学家项目、陕西省面上项目等。近年来，在气候和森林对水文过程的影响机制、森林植被变化对水文过程和水资源的影响等研究方面取得了重要成果。迄今发表论文50余篇，其中20余篇（第一或通讯作者）在Global Change Biology、Nature Communications和Journal of Hydrology等国际主流杂志上。2018年获国家优秀自费留学生奖学金，2020年获国家青年人才项目。已培养硕士4名，其中多位获得国家奖学金和西北农林科技大学优秀学术学位硕士学位论文等。

2006.09-2010.07   西安交通大学城市学院  学士
2011.09-2013.07   加拿大纽布伦斯威克大学（University of New Brunswick）  硕士
2013.09-2018.09   加拿大不列颠哥伦比亚大学（University of British Columbia）  博士
2018.10-2020.12   加拿大维多利亚大学  博士后
2019.10-2020.07   加拿大Foundry Spatial科技公司  研究科学家
2021年3月-今    西北农林科技大学林学院  教授

森林生态水文学

1. 科技部十四五重点研发计划“典型脆弱生态系统保护与修复”专项青年科学家项目（2022YFF1302200，2022.09-2025.08），主持人。
2. 陕西省自然科学基础研究计划项目一般项目（面上项目）“农业灌溉对河流流量的影响-以渭河关中段为例”（2023-JC-YB-243，2023.01-2024.12），主持人。
3. 2020年国家青年人才项目（2021.03-2024.03），主持人。
4. 西北农林科技大学人才引进启动费“黄土高原森林植被恢复对环境流量的变化”（2021.03-2025.03），主持人。
5. 加拿大BC省林业土地和自然资源管理“森林干扰对地下水补给的影响，以UPC流域为例”（2019.01-2020.03），主持人。
6. 江西省重点研发计划项目“森林变化对流域水文累积影响的快速诊断技术”（2016.01-2017.12），参与。

论文专著（* 为通讯作者）
2025
58. Fan L, Chen H, Li Q*, Li K, Wang Y. Testing and applying analytical depletion functions for multiple pumping wells in two hydrogeological landscapes. J Hydrol. 2025, 133312.
57. Ma M, Li Q*, Wang Y, Liang J, Wang J, Liu J, Zhang M. Rainfall intensities determine accuracy of canopy interception simulation using the Revised Gash model. Agric For Meteorol. 2025, 362:110389.
Qin Y, Shi P, Hu Y, Li Q*, Wang Y, Wang Q, Zhou D. Landscape indices explain different responses of runoff and sediment yield to land use/cover change on the Loess Plateau, China. CATENA. 2025, 249:108674.
56. Chen H, Li Q*, Wang Q, Chai X, Wang Y. Applying baseflow approach to the environmental flow needs of the Similkameen River Watershed in British Columbia, Canada. J Hydrol-Reg Stud. 2025, 57:102137.
55. Xu Y, Liu W, Li Q, Zhao F, Hou Y, Liu P, Xu Z, Sun Y, Fang H, Xu X. Quantifying spatiotemporal inconsistencies in runoff responses to forest logging in a subtropical watershed, China. For Ecosyst. 2025, 14:100337.
54. Cheng C, Liu W, Li Q, Ning T, Zhou H, Mu Z, Du K, Wang K, Han X. The water year based on minimizing the terrestrial water storage variation and its validity. J Hydrol-Reg Stud. 2025, 57:102159.
53. Wang Q, Zhao F, Wang X, Shi W, Shan Y, Li Q, Liu D, Wu Y. CNSW 1.0: Prefectural Reconstruction of China's Surface Water Resources Using Machine Learning Methods. Sci Data. 2025, 12(1):1032.
52. Zhao F, Shi W, Wu Y, Lian Y, Li Q. Counteracting greenhouse gas and aerosol influences intensify global water seasonality over the past century. Commun Earth Environ. 2025, 6:35.
51. Liu J, Umer M, Zhao J, Li Q, Qu M. Does water rights trading cause economic losses from agricultural water scarcity? Evidence from 264 Chinese cities. Agric Water Manag. 2025, 307:109233.
50. Guo B, Fang M, Yang L, Guo T, Ma C, Hu X, Guo Z, Ma Z, Li Q, Wang Z, Liu W. Remapping Carbon Storage Change in Retired Farmlands on the Loess Plateau in China from 2000 to 2021 in High Spatiotemporal Resolution. Earth Syst Sci Data Discuss. 2025 [preprint].
2024
49. Qin Y L, Wang Y P, Wang Q Q, Fan L J, Li Q*, Zhao F B, Liu D F, Zhang M F. Anthropogenic activities mitigate the impacts of climate extremes on high flow regimes on the Loess Plateau. Ecol Indic. 2024, 168:112756.
48. 马孟良, 李强*, 王亚萍, 张明芳, 刘世荣. 陕西秦岭森林水源涵养功能研究综述. 生态学杂志. 2024, 43 (11): 3478-3486.
47. 马孟良, 李强*, 王疆尧, 王亚萍, 张明芳. 中国旱区森林生态系统的林冠截留综述. 西北林学院学报. 2024, 39 (05), 1-13.
46. 李强*, 王俏俏, 陈红丽, 秦艳丽, 张明芳, 刘世荣. 生态流量方法应用现状研究. 生态学报. 2024, 44 (01): 36-46.
45. Wang Q, Shan Y, Shi W, Zhao F, Li Q, Sun P, Wu Y. Assessing spatiotemporal variations of soil organic carbon and its vulnerability to climate change: A bottom-up machine learning approach. Clim Smart Agric. 2024, 1(2):100025.
44. Zhao F, Wang Q, Shi W, Shan Y, Wang X, Li Q, Liu D, Du J, Wu Y. WITHDRAWN: Global at-risk basins of socio-ecological impacts from water scarcity. Sci Total Environ. 2024, 176944.
43. Guo F, Liu D, Mo S, Li Q, Meng J, Huang Q. Assessment of phenological dynamics of different vegetation types and their environmental drivers with near-surface remote sensing: A case study on the Loess Plateau of China. Plants. 2024, 13(13):1826.
42. Hou Y P, Wei X H, Hui J Y, Xu Z P, Qiu M, Zhang M F, Li Q, Chen Q. Forest disturbance thresholds on summer low flows in the interior of British Columbia, Canada. Catena. 2024, 243:108173.
41. Zhang X, Dong B, Huang Y, Dai H, Yang Z, Fu S, Li Q, Yuan Y, Tan Y, Li H, Liu S. Disentangling mechanisms that mediate soil fungal α and β diversity during forest secondary succession. Ecography. 2024, e07048.
40. Hou Y P, Zhang M F, Wei X H, Liu S R, Li Q, Liu W F, Cai T J, Yu E X. A comparison of annual streamflow sensitivities to vegetation change and climate variability in fourteen large watersheds along climate zones in China. Catena. 2024, 234:107571.
39. Deng W, Liu D, Guo F, Zhang L, Ma L, Huang Q, Li Q, Ming G, Meng X. Evaluation of the Potential of Using Machine Learning and the Savitzky-Golay Filter to Estimate the Daily Soil Temperature in Gully Regions of the Chinese Loess Plateau. Agronomy. 2024, 14:703.
38. Guo F, Liu D, Mo S, Li Q, Meng J, Huang Q. Assessment of Phenological Dynamics of Different Vegetation Types and Their Environmental Drivers with Near-Surface Remote Sensing: A Case Study on the Loess Plateau of China. Plants. 2024, 13:1826.
2023
37. Zhao F, Wang X, Ma S, Wu Y, Qiu L, Sun P, Li Q. Widespread increasing ecosystem water limitation during the past three decades in the Yellow River Basin, China. J Geophys Res-Biogeo. 2023, 128(2):e2022JG007140.
36. Chen H, Li Q*. Testing and applying baseflow approaches to environmental flow needs. Ecol Indic. 2023, 152:110363.
35. Sun J, Li B, Wang W, Yan X, Li Q*, Li Z*. Variations and controls on groundwater recharge estimated by combining the water-table fluctuation method and Darcy's law in a loess tableland in China. Hydrogeol J. 2023, 1-16.
34. Tian J, Yu F, Guo Z, Yan Y, Xie Y, Ma Z, Li Q*, Liu W*. Forest residues contribute significantly to climate change in China. Resour Conserv Recycl. 2023, 198:107157.
2022
33. Liu W, Duan H, Shen F, Liao Y, Li Q, Wu J. Effects of long-term nitrogen addition on water use by Cunninghamia lanceolate in a subtropical plantation. Ecosphere. 2022, 13(4):e4033.
32. Wei X, Giles-Hansen K, Spencer S A, Ge X, Onuchin A, Li Q, Hou Y. Forest harvesting and hydrology in boreal Forests: Under an increased and cumulative disturbance context. For Ecol Manage. 2022, 522:120468.
31. Zhang M, Liu S, Jones J, Sun G, Wei X, Ellison D, Archer E, McNulty S, Asbjornsen H, Zhang Z, Serengil Y, Zhang M, Yu Z, Li Q, Liu Z. Managing the forest-water nexus for climate change adaptation. For Ecol Manage. 2022, 525:120545.
2021
30. Li Q, Gleeson T, Zipper S C, Kerr B. Too Many Streams and Not Enough Time or Money? Analytical Depletion Functions for Streamflow Depletion Estimates. Groundwater. 2021.
29. Li Q, Zhang M, Wei X, Winkler R, Spencer S, Hou Y, Scott D F. Roles of forest disturbance and climate variability on streamflow components in snow-dominated paired watersheds at multiple temporal scales. Hydrol Process. 2021, e14414.
28. Wei X, Hou Y, Zhang M, Li Q, Giles-Hansen K, Liu W. Reexamining forest disturbance thresholds for managing cumulative hydrological impacts. Ecohydrology. 2021, e2347.
27. Hou Y, Zhang M, Wei X, Liu S, Li Q, Cai T, Liu W, Zhao R, Liu X. Quantification of ecohydrological sensitivities and their influencing factors at the seasonal scale. Hydrol Earth Syst Sci. 2021, 25:1447-1466.
26. Zipper S C, Gleeson T, Li Q, Kerr B. Comparing streamflow depletion estimation approaches in a heavily-stressed, conjunctively-managed aquifer. Water Resour Res. 2021, 57:e2020WR027591.
2020
25. Li Q, Zipper S C, Gleeson T. Streamflow depletion from groundwater pumping in contrasting hydrogeological landscapes: Evaluation and sensitivity of a new management tool. J Hydrol. 2020, 590:125568.
24. Liu W, Xu Z, Wei X, Li Q, Fan H, Duan H, Wu J. Assessing hydrological responses to reforestation and fruit tree planting in a sub-tropical forested watershed using a combined research approach. J Hydrol. 2020, 590:125480.
23. Wang Y, del Campo A, Wei X, Liu W, Li Q. Responses of forest carbon and water coupling to thinning treatments across multiple spatial scales. Carbon Balance Manag. 2020, 15:24.
2019
22. Wang Y, Campo A D, Winkler R, Wu J, Li Q, Liu W. Juvenile thinning can effectively mitigate the effects of drought on tree growth and water consumption in a young Pinus contorta stand in the interior of British Columbia, Canada. For Ecol Manage. 2019, 454:117667.
21. Giles-Hansen K, Li Q*, Wei X. The Cumulative Effects of Forest Disturbance and Climate Variability on Streamflow in the Deadman River Watershed. Forests. 2019, 10(2):196.
2018
20. Zhou P, Li Q, et al. Correspondence: Reply to "Flawed assumptions compromise water yield assessment". Nat Commun. 2018.
19. Wei X, Li Q*, Zhang M, Giles-Hansen K, Liu W, Fan H, Wang Y, Zhou G, Piao S, Liu S. Forest cover-another dominate factor in determining global water resources in forested regions. Glob Change Biol. 2018, 24(2):186-795.
18. Li Q, Wei X, Yang X, Giles-Hansen K, Zhang M, Liu W. Topography significantly influencing low flows in snow-dominated watersheds. Hydrol Earth Syst Sci. 2018, 22:1947-1956.
17. Li Q, Wei X, Zhang M, Liu W, Giles-Hansen K, Wang Y. Assessing cumulative forest disturbance and climate variability on streamflow components in a large forested watershed. J Hydrol. 2018, 557:448-459.
16. Hou Y, Zhang M, Liu S, Sun P, Li Y, Yang T, Li Y, Li Q, Wei X. The hydrological impact of extreme weather-induced forest disturbances in a tropical experimental watershed, South China. Forests. 2018.
2017
15. Li Q, Wei X, Zhang M, Liu W, Fan H, Zhou G, Giles-Hansen K, Liu S, Wang Y. Forest cover change and water yield in large forested watersheds: A global synthetic assessment. Ecohydrology. 2017, 10:e1838.
14. Zhang M, Wei X, Li Q. Do the hydrological responses to forest disturbances in large watersheds vary along climatic gradients in the interior of British Columbia, Canada? Ecohydrology. 2017, 10(2):1-13.
13. Zhang M, Liu N, Harper R, Li Q, Liu K, Wei X, Ning D, Hou Y, Liu S. A global review on hydrological response to forest change across multiple spatial scales: Importance of scale, climate, forest type, and hydrological regime. J Hydrol. 2017, 546:44-59.
12. Duan L, Man X, Kurylyk B, Cai T, Li Q. Distinguishing streamflow trends caused by changes in climate, forest cover, and permafrost in a large watershed in northeastern China. Hydrol Process. 2017.
11. Liu W, Wu J, Fan H, Duan H, Li Q, Yuan Y, Zhang H. Estimations of evapotranspiration in an age sequence of Eucalyptus Plantations in subtropical China. PLoS ONE. 2017.
2016
10. Liu W, Wei X, Li Q, Fan H, Duan H, Wu J, Giles-Hansen K, Zhang H. Hydrological recovery in two large forested watersheds of southeastern China: the importance of watershed properties in determining hydrological responses to reforestation. Hydrol Earth Syst Sci. 2016, 20:4747-4756.
9. Qi J, Li S, Li Q, Xing Z, Bourque C P A, Meng F R. Assessing an Enhanced Version of SWAT on Water Quantity and Quality Simulation in Regions with Seasonal Snow Cover. Water Resour Manage. 2016, 30(14):5021-5037.
8. Qi J, Li S, Li Q, Xing Z, Bourque C P A, Meng F R. A new soil-temperature module for SWAT application in regions with seasonal snow cover. J Hydrol. 2016, 538:863-877.
7. Wei X, Li Q, Zhang M, Liu W, Fan H. Forest cover change and hydrology in large watersheds. In: Amatya D, et al., editors. Forest hydrology: processes, management, and assessment. CABI Publisher; 2016. Chapter 11.
6. Zhang M, Wei X, Li Q. A quantitative assessment on the response of flow regimes to cumulative forest disturbances in large snow-dominated watersheds in the interior of British Columbia, Canada. Ecohydrology. 2016, 9:843-859.
2015-2013
5. Liu W, Wei X, Fan H, Guo X, Liu Y, Zhang M, Li Q. The response of flow regimes to deforestation and reforestation in a rain-dominated large watershed of subtropical China. Hydrol Process. 2015, 29(24):5003-5015.
4. Li Q, Qi J, Xing Z, Li S, Jiang Y, Danielescu S, Zhu H, Wei X, Meng F R. An approach for accessing impact of land use and biophysical conditions across landscape on recharge rate and nitrogen loading of groundwater. Agric Ecosyst Environ. 2014, 196:114-124.
3. Li Q, Xing Z, Danielescu S, Li S, Jiang Y, Meng F R. Data requirement for using combined conductivity mass balance and recursive digital filter method to estimate groundwater recharge in a small watershed New Brunswick, Canada. J Hydrol. 2014, 511:658-664.
2.Chen Y, Zhou Q, Li S, Meng F R, Bi X, Wilson J P, Xing Z, Qi J, Li Q, Zhang C. The simulation of surface flow dynamics using a flow path network model. Int J Geogr Inf Sci. 2014, 28(11):2242-2260.
1. Zhang R, Li Q, Chow T L, Li S, Danielescu S. Baseflow separation in a small watershed in New Brunswick, Canada, using a recursive digital filter calibrated with the conductivity mass balance method. Hydrol Process. 2013, 27(18):2659-2665.

2018年度国家优秀自费留学生奖学金；
2020年国家青年人才项目