方怒放博士为西北农林科技大学、中国科学院水利部水土保持研究所研究员，博士生导师，现任黄土高原土壤侵蚀与旱地农业国家重点实验室副主任、中国水保学会土壤侵蚀专委会副主任、中国土壤学会土壤侵蚀与水土保持专委会副主任等。主要研究领域包括流域水沙非线性变化、泥沙来源复合指纹示踪等。以第一或通讯作者在Communications Earth & Environment、Earth’s Future、Agricultural and Forest Meteorology、Water Resource Research等期刊发表论文50余篇，第一完成人获批发明专利5项，参编专著5部。是科技部重点领域创新团队“水土流失过程与生态调控”团队核心成员，曾获教育部自然科学二等奖、中国土壤学会优秀青年学者奖等。

2012年7-2015年12月，水土保持研究所，助理研究员；
2016年1-2018年12月，水土保持研究所，副研究员；
2019年1月至今，水土保持研究所，研究员。

土壤侵蚀与水土保持

国家自然科学基金、国家重点研发专题、中国科学院西部之光A类等项目10余项。

1. Wang Q., Fang N.F.*, Zeng Y., Yuan C.J., Dai W., Fan R., Chang H. 2025. Optimizing UAV-SfM photogrammetry for efficient monitoring of gully erosion in high-relief terrains. Measurement, 256, 118154.
2. Zhang Y., Zhang H.Y., Li J.J., Li X., Zhang Y.Y., Zeng Y., Dai W., Fan R., Liu Q.J.*, Fang N.F.* 2025. Dramatical variation in rill erosion resistance during two-year continuous straw incorporation on sloping farmland. Agriculture, Ecosystems & Environment, 382: 109500.
3. Dai W., Dang T.M., Zeng Y., Wang N.Q., Zong R.J., Ni L.S., Fang N.F.*, Shi Z.H. 2025. A quantitative basis for intersource differences in tracer concentrations for accurate sediment source fingerprinting. Land Degradation & Development, 36(7): 2203-2216.
4. Li J.J., Zhang H.Y., Zhao Y.J., Sun W.J., Xia J.B., Liu Q.J.*, Fang N.F.* 2025. Temporal variation and multiscale correlation between runoff and sediment on sloping farmland under straw incorporation in the northern rocky mountainous area of China. Journal of Hydrology, 657, 133069.
5. Fan R., Fang N.F.*, Zeng Y., Zong R.J., Wang Q., Zhang Y., Shi Z.H. 2025. Machine learning-assisted check dam planning on the Chinese Loess Plateau. Journal of Hydrology, 656, 133015.
6. Zong R.J., Fang N.F.*, Zeng Y., Lu X.X., Wang Z., Dai W., Shi Z.H. 2025. Soil conservation benefits of ecological programs promote sustainable restoration. Earth’s Future, 13(1), e2024EF005287.
7. Jing T.G., Zeng Y., Fang N.F.*, Dai W., Shi Z.H. 2025. A review of suspended sediment hysteresis. Water Resources Research, 61(1), e2024WR037216.
8. Zhang Y., Zeng Y., Zong R.J., Fang N.F.* 2024. Soil erosion under climate and land use changes in China: incorporating ecological policy constraints. Land Degradation & Development, 36(1): 184-196.
9. Wang Z.X., Yang D.M., Peng X., Chang H., Dai W., Zeng Y., Ni L.S., Deng L., Fang N.F.* 2024. Mechanical terracing regulates soil physicochemical properties and infiltration processes in the Loess Hilly Region of China. Land Degradation & Development, 35(9): 3181-3190.
10. Jing T.G., Fang N.F.*, Ni L.S., Zhang F.B., Zeng Y., Dai W., Shi Z.H. 2024. Hydrological dynamics in response to vegetation restoration in a typical wind-water erosion crisscross catchment. Hydrological Processes, 38(11), e70009.
11. Zeng Y., Jing T.G., Xu B.D., Yang X.K., Jian J.S., Zong R.J., Wang B., Dai W., Deng L., Fang N.F.*, Shi Z.H. 2024. Vectorized dataset of silted land formed by check dams on the Chinese Loess Plateau. Scientific Data, 11: 348.
12. Dai W., Zeng Y., Jing T.G., Wang Z.X., Zong R.J., Ni L.S., Fang N.F.* 2023. Estimation of rainfall erosivity on the Chinese Loess Plateau: A new combination of the ERA5 dataset and machine learning. Journal of Hydrology, 624: 129892.
13. Li J.J., Liu Q.J.*, Wang Y., Zhang H.Y., Li J.Q., Wang K.L., Geng J.B., Wang L.Z., Fang N.F.* 2023. Systematic evaluation of the effects of the length, depth, and amount of incorporated maize straw on rill flow velocity. Journal of Hydrology, 621: 129550.
14. Fang N.F., Zeng Y., Ran L.S., Wang Z., Lu X.X.*, Wang Z.G., Yang X.K., Jian J.S., Yu Q., Ni L.S., Liu C., Yue C., Shi Z.H*. 2023. Substantial role of check dams in sediment trapping and carbon sequestration on the Chinese Loess Plateau. Communications Earth & Environment, 2023, 4(1): 65.
15. Yuan C.J., Lin J.Q., Wang B., Yang D.M., Fang N.F.*, Ni L.S., Shi Z.H. 2023. Variable response of particles and inorganic carbon of two different soils during splash erosion. Catena, 224: 106958.
16. Zeng Y., Meng X.D., Zhang Y., Dai W., Fang N.F.*, Shi Z.H. 2022. Estimation of the volume of sediment deposited behind check dams based on UAV remote sensing. Journal of Hydrology, 612: 128143.
17. Zong R.J., Zeng Y., Fang N.F.*, Shi Z.H. 2022. Spatially optimized cropland distribution promotes sustainable farming and vegetation restoration in mountainous regions. Land Degradation & Development, 33(18): 3954-3964.
18. Yang D.M., Fang N.F.*, Shi Z.H.*, Lin J.Q., Zong R.J. 2022. Modeling sediment transport and flow velocity of thawed soil with straw returning. Journal of Hydrology, 610: 127805.
19. Zeng Y., Ran L.S., Fang N.F.*, Wang Z., Xu Z.C., Lu X.X., Yu Q., Wang L., Yu S.X., Shi Z.H*. 2022. How to balance green and grain in marginal mountainous areas? Earths Future, 10(5): e2021EF002552.
20. Ran L.S., Yue R., Shi H.Y., Meng X.D., Chan C.N., Fang N.F.*, Shi Z.H. 2022. Seasonal and diel variability of CO2 emissions from a semiarid hard-water reservoir. Journal of Hydrology, 608: 127652.
21. Lin J.Q., Fang N.F.*, Zhang Y., Zeng Y., Yang D.M., Dai W., Wang L., Shi Z.H. 2022. Dynamics of soil organic carbon in different-sized aggregates under splash erosion. Journal of Soils and Sediments, 22(6): 1713-1723.
22. Jing T.G., Fang N.F.*, Zeng Y., Huang X., Shi Z.H. 2022. Catchment properties controlling suspended sediment transport in wind-water erosion crisscross region. Journal of Hydrology-Regional Studies, 39: 100980.
23. Zeng Y., Fang N.F.*, Shi Z.H*. 2020. Effects of human activities on soil organic carbon redistribution at an agricultural watershed scale on the Chinese Loess Plateau. Agriculture Ecosystems & Environment, 303: 107112.
24. Zeng Y., Yang X.K., Fang N.F.*, Shi Z.H. 2020. Large-scale afforestation significantly increases permanent surface water in China’s vegetation restoration regions. Agricultural and Forest Meteorology, 290: 108001.
25. Zeng Y., Fang N.F.*, Shi Z.H., Lu X.X., Wang Z.G. 2020. Soil organic carbon redistribution and delivery by soil erosion in a small catchment of the Yellow River basin. Journal of Geophysical Research-Biogeosciences, 125(5): e2019JG005471.
26. Ni L.S., Fang N.F.*, Shi Z.H., Tan W.F. 2019. Mid-infrared spectroscopy tracing of channel erosion in highly erosive catchments on the Chinese Loess Plateau. Science of the Total Environment, 687: 309-318.
27. Fang N.F., Zeng Y., Ni L.S., Shi Z.H.* 2019. Estimation of sediment trapping behind check dams using high-density electrical resistivity tomography. Journal of Hydrology, 568: 1007-1016.
28. Wang W.D., Fang N.F.*, Shi Z.H., Lu X.X. 2018. Prevalent sediment source shift after revegetation in the Loess Plateau of China: Implications from sediment fingerprinting in a small catchment. Land Degradation & Development, 29(11): 3963-3973.
29. Wang Y.X., Ran L.S., Fang N.F.*, Shi Z.H.* 2018. Aggregate stability and associated organic carbon and nitrogen as affected by soil erosion and vegetation rehabilitation on the Loess Plateau. Catena, 167: 257-265.
30. Fang N.F., Wang L., Shi Z.H.* 2017. Runoff and soil erosion of field plots in a subtropical mountainous region of China. Journal of Hydrology, 552: 387-395.
31. Wang Y.X., Fang N.F.*, Tong L.S., Shi Z.H. 2017. Source identification and budget evaluation of eroded organic carbon in an intensive agricultural catchment. Agriculture Ecosystems & Environment, 247: 290-297.
32. Ni L.S., Fang N.F.*, Shi Z.H., Chen F.X., Wang L. 2017. Validating a basic assumption of using Cesium-137 method to assess soil loss in a small agricultural catchment. Land Degradation & Development, 28(5): 1772-1778.
33. Chen F.X., Fang N.F.*, Shi Z.H. 2016. Using biomarkers as fingerprint properties to identify sediment sources in a small catchment. Science of the Total Environment, 557: 123-133.
34. Chen F.X., Zhang F.B., Fang N.F.*, Shi Z.H. 2016. Sediment source analysis using the fingerprinting method in a small catchment of the Loess Plateau, China. Journal of Soils and Sediments, 16(5): 1655-1669.
35. Fang N.F., Chen F.X., Zhang H.Y., Wang Y.X., Shi Z.H.* 2016. Effects of cultivation and reforestation on suspended sediment concentrations: a case study in a mountainous catchment in China. Hydrology and Earth System Sciences, 20(1): 13-25.
36. Fang N.F., Shi Z.H.*, Chen F.X., Zhang H.Y., Wang Y.X. 2015. Discharge and suspended sediment patterns in a small mountainous watershed with widely distributed rock fragments. Journal of Hydrology, 528: 238-248.
37. Fang N.F., Shi Z.H.*, Chen F.X., Wang Y.X. 2015. Partial least squares regression for determining the control factors for runoff and suspended sediment yield during rainfall events. Water, 7(7): 3925-3942.
38. Fang N.F., Shi Z.H.*, Yue B.J., Wang L. 2013. The characteristics of extreme erosion events in a small mountainous watershed. Plos One, 8(10): e76610.
39. Fang N.F., Shi Z.H.*, Li L., Guo Z.L., Liu Q.J., Ai L. 2012. The effects of rainfall regimes and land use changes on runoff and soil loss in a small mountainous watershed. Catena, 99: 1-8.
40. Fang N.F., Shi Z.H.*, Li L., Jiang C. 2011. Rainfall, runoff, and suspended sediment delivery relationships in a small agricultural watershed of the Three Gorges area, China. Geomorphology, 135(1-2): 158-166.

1. 方怒放（1/1）, 第十四届中国水土保持学会科学技术二等奖, 2022.
2. 方怒放（1/1）, 第七届中国土壤学会优秀青年学者奖, 2020.
3. 方怒放（2/6）, 复杂景观环境下土壤水蚀机理与过程模拟, 教育部高等学校科学研究优秀成果自然科学奖二等奖, 2019.
4. 方怒放（8/9）, 水土流失过程与生态调控创新团队, 科技部创新人才推进计划重点领域创新团队, 2018.