范继辉,男,中国科学院成都山地灾害与环境研究所,副研究员,硕士生导师,四川省学术技术带头人后备人选,长期从事生态水文学和工程水文学及其环境效应模拟方面的研究。先后主持有国家自然科学基金,中国科学院STS计划项目,科技部科学技术交流中心国际杰青计划项目,中国科学院国际合作计划,四川省重点研发计划,以及水专项子课题、国家重点研发子课题等科研项目;发表论文80余篇(SCI论文18篇),参编专著8部,撰写咨询报告4份。获省部级科技进步一等奖1项,二等奖3项。
生态水文学
1.川渝产学研创新成果二等奖(长江上游水库群建设运行对三峡水库水沙环境的影响,第1完成人);
2.西藏自治区科学技术一等奖(西藏生态安全屏障监测与评估关键技术与业务化应用,第16完成人);
3.西藏自治区科学技术二等奖(西藏高原土壤质量变化及其维持理论与技术,第7完成人);
4.四川省科学技术进步奖二等奖(四川省主体功能区规划与实施创新研究,第5完成人);
[1] 程根伟、王小丹、范继辉等,西藏高原水文特征及其模拟,科学出版社,2016;
[2] 吴艳宏、范继辉、王晓晓等,三峡库区沉积物磷及重金属淤积特征与环境效应,科学出版社,2021;
[3] .Fan Jihui, Galoie Majid, Motamedi Artemis, et al.Rainwater Conservation Practices in China:Handbook of Water Harvesting and Conservation,John Wiley & Sons, Ltd, 2021;
[4] Galoie Majid, Motamedi Artemis,Fan Jihui et al.Iterative Floodway Modeling Using HEC-RAS and GIS:Flood Handbook,John Wiley & Sons, Ltd, 2022.
[5] Jihui Fan, Majid Galoie, Artemis Motamedi, et al. Impact of Large Dams on Local Climate Change: A Case Study on the Three Gorges Dam: Handbook of Climate Change Impacts on River Basin Management Case Studies, CRC Press,2024
[6] Jihui Fan, Majid Galoie, Artemis Motamedi, et al. Lake rehabilitation case studies in China: Hydrosystem Restoration Handbook, Elsevier, 2025论文:[1] Niu, N., J. Fan, and Z. Yang, The spatial and temporal variations evaluation of water conservation in Guizhou Province based on InVEST model. Scientific Reports, 2025. 15(1): p. 22413.
[2] Galoie, M., et al., Error assessment in debris flow modelling with RAMMS. International Journal of Hydrology Science and Technology, 2025.
[3] Fan, J. and M. Galoie, Assessment of physical parameters impacts on debris flow modeling with RAMMS. Scientific Reports, 2025. 15(1): p. 36393.
[4] Chen, C., et al., Geovisual explainable AI for understanding frozen ground in Qinghai-Tibet Plateau urban region. International Journal of Applied Earth Observation and Geoinformation, 2025. 142: p. 104760.
[5] 李怡颖, et al., 基于InVEST模型的金沙江干热河谷区水源涵养功能时空演变特征及驱动因素分析. 环境科学, 2025: p. 1-17.
[6] Galoie, M., et al., Experimental assessment of the impact of fine dust and sand storm on the physico-chemical quality of drinking water. Natural Hazards, 2024. 120(4): p. 3253-3269.
[7] Deji, Y., et al., Impact of large dam reservoirs on slight local season shifting (case study: Three Gorges Dam). International Journal of Hydrology Science and Technology, 2024. 18(2): p. 186-200.
[8] 项巧, 范继辉, and 杨紫滟, 1991-2020年西藏水源涵养时空演变特征. 草业科学, 2024. 41(11): p. 2495-2507.
[9] Galoie, M., et al., Prediction of water quality under the impacts of fine dust and sand storm events using an experimental model and multivariate regression analysis. Environmental Pollution, 2023. 336: p. 122462.
[10] Fan, J., M. Galoie, and A. Motamedi, Quantitative assessment of the variations in monthly precipitation trends induced by the impact of three gorges dam. Environmental Monitoring and Assessment, 2023. 195(12): p. 1477.
[11] Ma, S., et al., Studying greenhouse gas emissions through interactions between phospholipid fatty acid content and soil properties of alpine grassland soil in Northern Tibet, China. Global Ecology and Conservation, 2021. 27: p. e01558.
[12] Liao, Y., et al., Spatiotemporal Variations of Freezing and Thawing Indices During the Past Four Decades in Tibet. Frontiers in Ecology and Evolution, 2021. 9(675).
[13] Fan, J., A. Motamedi, and M. Galoie, Impact of downstream lakes on dam break wave attenuation. Natural Hazards, 2021. 106(1): p. 595-612.
[14] Fan, J., A. Motamedi, and M. Galoie, Impact of C factor of USLE technique on the accuracy of soil erosion modeling in elevated mountainous area (case study: the Tibetan plateau). Environment, Development and Sustainability, 2021. 23(8): p. 12615-12630.
[15] Fan, J., et al., Distinguishing Stoichiometric Homeostasis of Soil Microbial Biomass in Alpine Grassland Ecosystems: Evidence From 5,000 km Belt Transect Across Qinghai–Tibet Plateau. Frontiers in Plant Science, 2021. 12(2684).
[16] Fan, J., et al., Rainwater Conservation Practices in China, in Handbook of Water Harvesting and Conservation. 2021. p. 261-281.
[17] Fan, J., et al., Assessment of land cover resolution impact on flood modeling uncertainty. Hydrology Research, 2021. 52(1): p. 78-90.
[18] 廖莹, et al., 1978-2017年西藏高原冻融指数时空变化特征. 草业科学, 2021. 38(06): p. 1035-1046.
[19] 黄菁, 范继辉, and 何晓蓉, 基于InVEST模型的张家口地区水源涵养功能研究. 山地学报, 2021. 39(03): p. 327-337.
[20] Fan, J., M. Galoie, and A. Motamedi, Mitigation of the amplitude and celerity of dam break shock wave using combination of groyne and vertical pier. Journal of Mountain Science, 2020. 17(6): p. 1452-1461.
[21] 李怡颖, 范继辉, and 廖莹, 基于InVEST模型的张家口市水源涵养功能时空差异分析. 草业科学, 2020. 37(07): p. 1313-1324.[22] 李怡颖, 范继辉, and 廖莹, 近60年来嘉陵江流域水沙变化特征. 山地学报, 2020. 38(03): p. 339-348.
[23] 冉洪伍, 范继辉, and 黄菁, 冻融过程土壤水热力耦合作用及其模型研究进展. 草业科学, 2019. 36(04): p. 991-999.
[24] 冉洪伍, 范继辉, and 黄菁, 藏北高寒草地土壤冻融过程水热变化特征. 草业科学, 2019. 36(04): p. 980-990+923.
[25] Zhang, X.-k., J.-h. Fan, and G.-w. Cheng, Modelling the effects of land-use change on runoff and sediment yield in the Weicheng River watershed, Southwest China. Journal of Mountain Science, 2015. 12(2): p. 434-445.
1. 中科院STS计划项目:长江上游水库群建设运行对三峡水库水沙环境的影响,执行时间:2014.05-2017.12;
2. 国家自然科学基金面上项目:冻融作用下藏北高寒草地多年冻土活动层土壤剖面CO2排放特征研究,执行时间:2019.11-2022.12;
3. 国家自然科学基金长江水科学联合基金课题:陡坡汇流与致灾山洪形成机理研究,执行时间:2022.01-2025.12;
4. 国家自然科学基金青年项目:贡嘎山暗针叶林云雾截留机制及其水文效应研究研究,执行时间:2011.01-2013.12;
5. 国家自然科学基金科技活动项目:探秘神奇湿地 守护生态环境,执行时间:2025.01-2025.12;
6. 重点研发子课题:西南“叠加区”水土涵养功能分区与生态空间格局优化技术,执行时间:2024.01-2028.12;
7. 中科院先导专项子课题:西藏农田土壤固碳潜力与速率研究,执行时间2011.01-2015.12;
8. 水专项子课题:张家口水源生态涵养功能的评估、区划与保持技术,2018.05-2021.12;
9. 第二次污染源普查专项子课题:西南诸河区第四亚区农业源污染物入水体负荷核算方法及系数体系构建,执行时间:2018.09-2020.03;
10. 水利部公益性行业专项子课题:藏东南典型区洪山灾害发生机理研究,执行时间,2013.01-2016.12;
11. 四川省重点研发国际合作项目:梯级水库连溃风险分析与洪水演进模拟,执行时间:2024.01-2025.12
12. 科技部国际人才交流项目(4项):执行时间:2018.05-2020.12;
13. 中国科学院国际人才计划访问学者:动态CN曲线在水文模型中的应用,执行时间:2023.03-2023.12
14. 大中型企业委托项目:长江上游流域水文预报系统,执行时间2015.05-2017.12
15. 西藏自治区财政专项项目:亚东县“绿水青山就是金山银山”转化技术体系与模式研究,执行时间:2023.03-2024.06;
16. 四川省发改委重点项目课题:水资源承载力评价,执行时间:2017.07-2022.06;