方怒放

基本信息

      方怒放，博士，博导，研究员。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委员等。是西北农林科技大学“土壤侵蚀与水土保持”创新团队负责人，入选学校高层次人才发展支持计划。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、土壤侵蚀模型等。先后主持国家自然科学基金项目3项、重点项目课题1项等。

工作经历

      2012年7-2015年12月，西北农林科技大学，助理研究员；

      2016年1-2018年12月，西北农林科技大学，副研究员；

      2019年1月至今，西北农林科技大学，研究员。

荣誉获奖

      1. 方怒放（5/11）, 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.

科学研究

1. 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.

2. 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.

3. 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.

4. 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.

5. 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.

6. 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.

7. 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.

8. 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.

9. 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.

10.  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.

11.  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.

12.  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.

13.  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.

14.  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.

15.  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.

16.  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.

17.  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.

18.  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.

19.  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.

20.  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.

21.  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.

22.  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.

23.  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.

24.  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.

25.  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.

26.  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.

27.  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.

28.  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.

30.  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.

31.  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.

32.  张含玉, 方怒放*, 史志华, 2016. 黄土高原植被覆盖时空变化及其对气候因子的响应. 生态学报. 36: 3960-3968.

33.  陈方鑫, 张含玉, 方怒放*, 史志华. 2016. 利用两种指纹因子判别小流域泥沙来源. 水科学进展. 11.01: 1-10.

34.  时亚坤, 曾奕, 郭金金, 方怒放*. 2022. 黄土高原新一轮退耕还林草工程对粮食生产的影响. 水土保持研究. 29(03): 419-425.

35.  郭金金, 方怒放*, 刘前进, 张含玉. 2021. 小麦秸秆粉碎还田配施氮肥与多酚对土壤侵蚀阻力的影响. 水土保持学报. 35(04): 122-128.

36.  林俊秋, 杨大明, 方怒放*, 史志华. 2021. 坡面细沟侵蚀过程中的水动力特性变化. 水土保持研究. 29(01): 1-7.

37.  史玮玥, 岳荣, 方怒放*. 2019. 黄土高原地区泥沙来源复合指纹示踪研究进展. 水土保持通报. 39(03): 276-285.

38.  岳荣, 史红岩, 冉立山, 方怒放*, 2020. 融冰期与非融冰期水库co2逸出昼夜变化及co2分压影响因素研究. 环境科学学报. 40: 678-86.

39.  倪玲珊, 岳荣, 方怒放*. 2020. 基于中红外漫反射光谱法预测黄土碳酸钙含量, 水土保持研究. 27(02):142-148.

发明专利：

1. 方怒放, 倪玲珊, 史志华. 2024. 一种土壤样品自动化制备系统, CN 116380578 B

2. 方怒放, 倪玲珊, 曾奕, 戴伟, 袁晨佳, 史志华. 2023. 一种模拟土壤侵蚀过程的碳排放监测装置以及方法, CN 116296627 B

3. 方怒放, 倪玲珊, 曾奕, 孟祥冬, 史志华. 2023. 淤地坝泥沙淤积量的测量方法、装置、计算机及存储介质, CN 114299136 B

4. 方怒放, 倪玲珊. 2019. 一种土壤饱和导水率自动测定装置, ZL201510110231.2.

5. 方怒放, 倪玲珊. 2018. 一种利用离心机法测量土壤水分特征曲线的系统及测量方法, ZL201510113276.5.