土壤侵蚀过程及其环境效应、侵蚀退化土壤改良。

1.国家自然科学基金国际（地区）合作与交流项目（42361144707），200万  2024.1-2026.12，主持

2.国家自然科学基金面上项目（42177338），57万，2022.1-2025.12，主持

3.国家重点研发计划子课题，60万，2022.09-2026.08，主持

4.宁夏回族自治区农业科技自主创新资金项目子课题 (NJSB2021-8-5), 75万，2021.1-2025.12，主持

5.国家自然科学基金面上项目（41877080），61万，2019.1-2022.12，主持

6.国家自然科学基金面上项目(41371283)， 75万，2014.1-2017.12， 主持

7.国家自然科学基金青年项目 (40901127)， 20万，2009.1-2012.12， 主持

8.国家重点研发计划子课题（2016YFC0402406），40万，2016.06-2020.12，主持

9.国家重点研发计划子课题（2018YFC0507001）：36万，2018.7-2021.12，主持

10.国家自然基金国际(地区)合作与交流项目(中英)子课题(41571130082)，50万，2016.01-2019.12，主持。

11.博士后基金 (20080440387)，博士后基金，3万，2008.11-2010.7， 主持

12.陕西省自然科学基金（S2012JC6612），4万，2013.1-2014.12， 主持

13.水利部黄土高原水土流失过程与控制重点实验室开放基金（201202），4万，2012.6-2013-12，主持

14.平湖丰瑞农业科技服务有限公司委托项目25万，2021.8-2022.8，主持。

以第一和通讯作者发表学术论文80余篇，其中SCI论文38篇（中科院一二区31篇），EI 论文6篇， 2019年至今发表论文如下：

2025年

1.Li, Y., Y. Yuan, J. Zhao, J. Yang, C. Yan, M. Yang, B. Wang and F. Zhang* (2025). "Biochar addition enhances silt loam soil resistance to rill flow: A study based on three years of field monitoring data on China’s Loess Plateau." Soil and Tillage Research 245: 106320.

2. Yang, J., F. Zhang*, Y. Li, J. Gao, L. Deng, W. Shi, N. Shen and M. Yang (2025). "Moisture conditions trigger different response patterns of soil respiration to biochar-induced changes in soil vertical water content and temperature based on a three-year field observation study." Agriculture, Ecosystems & Environment 378: 109328.

2024年

3.Su, N*. and F. Zhang* (2024). "Random fractional kinematic wave equations of overland flow: The HPM solutions and applications." Journal of Hydrology 645: 132234.

4.Li, Xuantian, Jiaru Luo, Zijian Zhao, Mingyi Yang, and Fengbao Zhang*（2024）. 'The effect of dynamic changes in vegetation coverage on the mechanism of organic carbon loss in inter-rill erosion', Journal of Hydrology, 642: 131848.

5.Xu, Wangwang, Hongbing Li, Qianqian Ma, Shumin Mu, Zijian Zhao, JingXia Gao, Fengbao Zhang*, and Hua Xie. (2024). 'Exploring the mitigation effect of microbial inoculants on the continuous cropping obstacle of capsicum', Scientia Horticulturae, 338: 113507.

6.Gao, J., W. Xu, W. Xi, R. Huang, Z. Zhao, H. Xie and F. Zhang* (2024). "Oats Intercropping and Biochar Amendment Modify Soil Nutrients and Microbiota Structure to Enhance the Quality of Continuous Cropping Peppers." HortScience 59(9): 1396-1406.

7.Qilin He, Binbin Li, Fengbao Zhang*, Nan Shen, Mingyi Yang (2024). "Exploring the relationship between soil erosion and hydraulic parameters on slopes with clipped herbaceous vegetation through Bayesian network modeling." Land Degradation & Development 35(9): 3048-3061.

8.Yang, J., Lei, J., Zhang, F. *, Li, Y., Gao,J., Deng, L., & Yang, M. (2024). Biochar application induces different responses of bacterial and fungal communities to metabolic limitation. Land Degradation & Development, 35(5): 1888-1901.

9.Li, Y., Yang, J., Yang, M., & Zhang, F*. (2024). Exploring biochar addition impacts on soil erosion under natural rainfall: A study based on four years of field observations on the Loess Plateau. Soil and Tillage Research, 236, 105935.

10.Shi, F., Zhang, F. *, Shen, N., & Yang, M. (2024). Quantifying interactions between slope gradient, slope length and rainfall intensity on sheet erosion on steep slopes using Multiple Linear Regression. Science of The Total Environment, 908, 168090.

11.He, Q., Li, B., Zhang, F.*, Shen, N., & Yang, M. (2024). Runoff and Infiltration responses of revegetated slopes to clipping management on the northern Loess Plateau. International Soil and Water Conservation Research. 12: 171-183.

12.李潼亮，李斌斌，张风宝*，史方颖，杨明义，何庆. (2024). 应用机器学习研究土壤侵蚀的文献计量分析. 人民长江, 2024,55（1）:82-90.

13. 李潼亮，赵梓鉴，李斌斌，张风宝*，郭正，何琪琳，何庆，杨明义(2024). 基于梯度提升树模型的坡耕地土壤水蚀模拟与分析. 水土保持学报，2024,38（3）

14. 赵梓鉴, 许旺旺, 高晶霞, 张风宝*, 李红兵, 谢华(2024). '宁南拱棚辣椒连作对土壤养分、酶活性及微生物量的影响. 北方园艺, 16：73-79.

15.李舒畅, 郭正, 张风宝*, 罗佳茹, 李玄添, 申楠, 杨明义. 基于多源数据融合产品的黄河中游多沙粗沙区耕地时空动态变化, 水土保持学报, 2024. 38 (5): 139-150.

16.王庆妮，曹晓娟，刘颖，张风宝*(2024). 沙盖黄土坡面产流产沙对坡长和覆沙厚度的响应. 北京林业大学学报， 46（10）：81-90.

2023年

17.Li, X., Zhang, F*., Yang, J., & Yang, M. (2023). The response of organic carbon fractions in sediment to rainfall characteristics and slope lengths: Based on four-years on-site monitoring data. CATENA, 233, 107518.

18.He, Q., Li, B., Zhang, F. *, Shen, N., & Yang, M. (2023). Optimal Clipping Intensity for Balancing Soil Erosion Control and Runoff Production on Revegetated Slopes. Journal of Hydrology, 620：129470.

19.Liu, Y., Walling, D. E., Yang, M., & Zhang, F. * (2023). Sediment source fingerprinting and the temporal variability of source contributions. Journal of Environmental Management, 338, 117835.

20. He, Y., Zhang, F. *, Yang, M., Li, X., & Wang, Z. (2023). Insights from size fractions to interpret the erosion-driven variations in soil organic carbon on black soil sloping farmland, Northeast China. Agriculture, Ecosystems & Environment, 343, 108283.

21. Li, X., Zhang, F. *, He, Q., & Yang, M. (2023). Correspondence analysis between vegetation cover and sheet erosion rate on an abandoned farmland slope based on 7Be measurement. CATENA, 222, 106886.

22.Shen, N., Wang, Z., Zhang, F. *, & Zhou, C. (2023). Response of Soil Detachment Rate to Sediment Load and Model Examination: A Key Process Simulation of Rill Erosion on Steep Loessial Hillslopes. International Journal of Environmental Research and Public Health, 20(4), 2839.

23. Gao, J., & Zhang, F. * (2023). Influence of Companion Planting on Microbial Compositions and Their Symbiotic Network in Pepper Continuous Cropping Soil. Journal  Microbiol Biotechnol, 33(6), 1-11.

24.郭凯, 李玄添, 张风宝*等(2023). 雨型和坡长对侵蚀泥沙粒径特征的影响. 水土保持研究, 30(02): 56-63+72

25. 张风宝*，李玄添，申 楠，杨明义(2023). 黄土坡面细沟间和细沟侵蚀对有机碳流失贡献的定量分析[J]. 土壤学报, 60(5):1398-1408.

26.何庆, 张风宝*, 李潼亮, 罗佳茹, 李玄添, & 杨明义 (2023). 露天煤矿复垦区土壤有机碳含量变化归因解析. 干旱区资源与环境, 37(03), 62-67.

27. 伍林, 张风宝*, 申楠, 李玄添, 刘颖, 何琪琳,杨明义(2023). 自然降雨雨型变化对坡面细沟间侵蚀的影响. 水土保持学报, 37（4）：31-37,46.

28.马凌云, 张风宝* , 杨佳燕  ,李元元 ,杨明义(2023), 生物炭添加对黄绵土水分补给和消退的影响，水土保持通报， 43（3）:25-33.

2022年

29. Li, X., Zhang, F. *, He, Y. et al., (2022). Variations of 7Be concentration in plants and its significance for 7Be in soil on the Loess Plateau, China: Based on three-year monitoring data . Plant and soil. 477,725-741  https://doi.org/10.1007/s11104-022-05453-x.

30. Ninghu Su* and Fengbao Zhang*(2022), Anomalous overland flow on hillslopes: A fractional kinematic wave model, its solutions and verification with data from laboratory observations. Journal of Hydrology, 604,127202.

31. Liu, Y., Walling, D. E., Yang, M., Zhang, F. *, Zhang, J., Xie, Y., Yang. M*(2022). Using check dam deposits to reconstruct changes in the sediment response of a small catchment on the Loess Plateau in China, during the period 1960 to 1990. Hydrological Processes, 36(11), e14754.

32.史方颖，张风宝*，杨明义(2022).基于文献计量分析的土壤有机碳矿化研究进展与热点.土壤学报, 59(2)381-392.

33.周春红， 张风宝*， 刘宝元，申楠(2022). 细沟间侵蚀影响因子交互作用定量分析.土壤学报， 59(2):420-429. (通讯作者)

34.黄悦, 张风宝*, 高晶霞,申楠，杨明义(2022). 基于高能水分特性法的土壤团聚体结构稳定性研究进展. 水土保持研究, 29(6):431-437/443

2021年

35. Zhang, F. *, Wang, M., Yang, M.*, (2021). Successful application of the Taguchi method to simulated soil erosion experiments at the slope scale under various conditions. CATENA, 196, 104835. (SCI)

36.Shen, Nan，Wang, Zhanli*，Guo, Qi，Zhang, Qingwei，Wu, Bing，Liu, June，Ma, Chunyan，Delang, Claudio O.，Zhang, Fengbao* (2021). Soil detachment capacity by rill flow for five typical loess soils on the Loess Plateau of China. Soil and Tillage Research, 213, 105159.

37.Hu, Feinan, Xu, Chenyang, Ma, Rentian, Tu, Kun,Yang, Jiayan, Zhao, Shiwei, Yang, Mingyi, Zhang, Fengbao*(2021). Biochar application driven change in soil internal forces improves aggregate stability: Based on a two-year field study. Geoderma, 403, 115276.

38.Xuantian Lia, Puxia Wu, Claudio O. Delangc, Qilin Hed, Fengbao Zhang*(2021). Spatial-temporal variation, ecological risk and source identification of nutrients and heavy metals in sediments in the peri-urban riverine system. Environmental Science and Pollution Research, 28(45): 64739-64756.

39.何琪琳， 张风宝*， 吴普侠， 杨明义， 赵国平(2021). 渭河陕西段河道沉积物中碳氮磷时空变化分析及评价. 水土保持研究， 28(3) : 88-93+100.

40. 杨茹珍， 张风宝*， 杨明义， 李占斌(2021). 数据去噪处理在土壤侵蚀模拟分析中的应用. 泥沙研究， 46(02): 47-53+14.

41.黄悦， 张风宝*， 杨明义， 李玄添(2021). 渭河陕西段沉积物中重金属污染综合评价. 人民黄河， 43(12):80-85+99

42.罗佳茹，李斌斌，张风宝*，丛佩娟，王海燕，杨明义(2021). 黄丘区特色治理开发小流域土壤侵蚀变化对景观格局演变的响应. 应用生态学报， 32(12):4165-4176.

2020年

43. Li, Yuanyuan, Feng, Gary,Tewolde, Haile,Yang, Mingyi, Zhang, Fengbao*(2020). Soil, biochar, and nitrogen loss to runoff from loess soil amended with biochar under simulated rainfall. Journal of Hydrology, 591, 125318.

44.杨茹珍， 张风宝*， 杨明义， 张加琼(2020). 急陡黄土坡面细沟侵蚀的水动力学特性试验研究, 水土保持学报， 34（4）:31-36,42. (通讯作者)

45. 梁馨月; 徐梦珍; 吕立群; 崔一飞; 张风宝*(2020).基于地貌特征的青藏高原边缘泥石流沟分类, 地理学报， 75(7) : 1373-1384.

46.何琪琳，张风宝*，杨明义(2020), 渭河陕西段河道沉积物中碳氮磷来源分析及污染评价. 水土保持学报， 34（2）: 50-55.

47.李玄添，张风宝*，杨明义(2020). 渭河陕西段沉积物重金属空间分布及来源解析.应用生态学报，33（12）:4225-4234

2019年

48. Zhang FB*, Huang CH, Yang MY, Zhang JQ, Shi WY(2019). Rainfall simulation experiments indicate that biochar addition enhances erosion of loess‐derived soils. Land Degradation & Development, 30, 2272-2286. (SCI)

49. Li Y#, Zhang F#, Yang M, Zhang J(2019). Effects of adding biochar of different particle sizes on hydro-erosional processes in small scale laboratory rainfall experiments on cultivated loessial soil. CATENA  173: 226-233.

50. Li Y, Zhang F*, Yang M, Zhang J, Xie Y(2019). Impacts of biochar application rates and particle sizes on runoff and soil loss in small cultivated loess plots under simulated rainfall. Science of The Total Environment 2019; 649: 1403-1413.

51.曹晓娟，谢林妤，张风宝*，杨明义，李占斌(2019). 沙层特性对沙盖黄土坡面产流产沙变化贡献的定量分析. 地理学报，2019,74(5):962-974.

参编的论著：

1.史志华，张风宝等，土壤侵蚀动力过程调控，2015年，科学出版社

2.李占斌等，小流域淤地坝坝系防洪风险评价技术，2018年，科学出版社.

3.李斌斌，张风宝等等，黄土高原水土流失生态治理技术挖掘、配置及评价，2021年，黄河水利出版社。

4. Luis Felipe Mazadiego, Eduardo De Miguel Garcia, Fernando Barrio-Parra and Miguel Izquierdo-Díaz 主编， Applied Geochemistry with Case Studies on Geological Formations, Exploration Techniques and Environmental Issues，Published in London, UK。

荣获陕西省科学技术进步二等奖（4/9）

荣获第十二届中国水土保持学会青年科技奖

荣获2013年中国生态系统研究网络十佳青年优秀论文，第一作者。

荣获第二届全国核农学青年学术论坛二等奖

荣获《土壤学报》2017年年度优秀论文奖，通讯作者。

荣获《土壤学报》2018年年度优秀论文奖，通讯作者

荣获《水土保持通报》2018年优秀编委

荣获《水土保持学报》2023年度优秀审稿人

2021年建党百年之际被评为水土保持研究所优秀共产党员