郑粉莉，女，1960年10月生于陕西省西安市蓝田县，九三学社社员，博士二级教授，博士生导师。1983年毕业于西北大学地理系本科生，获理学学士；1986和1997年在中国科学院水土保持研究所硕士研究生，分别获硕士和博士学位；1990-1991：参加UNEP/UNESCO在德国举办的环境管理研究生培训班，获学位证。1999-2001：美国国家土壤侵蚀研究实验室（普度大学）读博士后。现任中国科技部与美国农业部水土保持与环境研究中心主任，曾任第十届和第十一届全国人大代表、国务院学位委员会第六届学科评议组（农业资源利用）成员，第八届全国青联委员和陕西省政协常委，享受国务院政府特殊津贴，入选国家首批新世纪百千万人才工程、陕西省“三五”人才工程以及农业领域全球前2%顶尖科学家和中国高被引学者，获全国三八红旗手、全国“巾帼建功标兵”、中国青年科技奖、钱宁泥沙科技奖、陕西省三八红旗手、陕西省优秀留学回国人员，中国科学院“朱李月华优秀老师”等多种荣誉，以及美国USDA-ARS-NSERL重要贡献奖２次。主要从事土壤侵蚀及其影响评估研究，主持国家重点研发计划项目和国家基金委重点基金项目及国际合作项目等30余项，在土壤侵蚀过程机理与预报模型、土壤侵蚀对土壤生产力影响评价、气候变化与流域水沙等方面取得了重要成果，主持国家重点研发计划项目和国家基金委重点基金项目及国际合作项目等30余项，获省部级一等奖和国家级学会奖7项，国家教学成果二等奖和省级教学成果一等奖各1项，出版专著12部和教材1部，发表论文400余篇，培养研究生近百名。担任《International Soil and Water Conservation Research》副主编、《International sediment Research》编委和《中国水土保持科学》副主编。

Zheng Fenli, female, born in Oct., 1960 in Lantian County, Shaanxi Province, Ph.D., a second-level professor and Doctoral Supervisor. She graduated from the Department of Geography at Northwest University in 1983, obtained bachelor degree, graduated from the Institute of Soil and Water Conservation (ISWC), Chinese Academy of Sciences (CAS) in 1986, obtained master degree. From 1990 to 1991, she participated in a postgraduate training program on environmental management organized by UNEP/UNESCO in Germany. In 1997, she received Ph.D. from the ISWC, CAS. From 1999 to 2001, she completed postdoctoral research at the National Soil Erosion Research Laboratory (NSERL) of the USDA at Purdue University, USA. Currently, she is the Director of the Sino-U.S. Joint Center for Soil and Water Conservation and Environmental Protection. During the past times, she had a deputy to the 10th and 11th National People's Congress and was a member of the 6th Academic Degree Review Panel (Agricultural Resources Utilization) of the State Council, was a member of the 8th Youth Federation and a standing committee member of Shaanxi Provincial CPPCC. She is a recipient of the State Council Special Government Allowance. She was selected for the first cohort of the National New Century Talents Project, the Shaanxi Provincial “Three-Five” Talent Project, the global top 2% of scientists in the field of agriculture. She has been honored with numerous awards, including National March 8th Red Banner Holder and National “Pacesetter for Women’s Achievements,” and the China Youth Science and Technology Award, the Qian Ning Sediment Science and Technology Award, the Shaanxi Province March 8th Red Banner Holder, the Excellent Returned Overseas Scholar of Shaanxi Province, and the "Zhu Li Yuehua Excellent Teacher Award" from the CAS. She has also received the USDA-ARS-NSERL Significant Contribution Award twice. She focuses on the main researches of soil erosion and its impacts assessment. She has led over 30 national major research projects and her outstanding achievements include the soil erosion process, mechanisms and prediction model, impacts assessment of soil erosion on soil productivity and climate change with river runoff and sediment. She has gotten seven provincial and ministerial first prizes and national society awards, one National Teaching Achievement Second Prize, and one Provincial Teaching Achievement First Prize. She has published 12 academic monographs, 1 textbook, and over 400 papers and she has cultivated about 100 students of master degree and Ph.D. She is the Associate Editor of International Soil and Water Conservation Research, an Editorial Board Member of International Sediment Research, and Associate Editor of Science of Soil and Water Conservation in China.
She was recognized as a Highly Cited Researcher in Agricultural Resources and Environment in China for 2021, 2022, and 2023. Her outstanding achievements have been reported by CCTV-7, Shaanxi TV, Science Times, Scientific Chinese, ScienceNet.cn, and other media.

土壤侵蚀及其影响评估

[1]国家重点研发计划项目“黑土侵蚀防治机理与调控技术”（2016YFE0202900，2017-2020），主持人。
[2]国家自然科学基金重点项目“黄土高原小流域分布式水蚀预报模型研究（40335050，(2004-2007)，主持人。
[3]国家‘973’计划项目课题“不同类型区土壤侵蚀过程与机理“（2007CB407201，2007-2012），主持人。
[4]农业部948项目“土壤侵蚀及其环境效应评价模型”（2003-Z572003-2005），主持人。
[5]农业部“948”项目“引进英国气候变化模型，评估未来气候变化对黄土高原的潜在影响（2010-S16，2010-2011），主持人
[6]国家自然科学基金面上项目“黑土区多种外营力互作的坡面侵蚀过程与机制”（41571263，2016-2019），主持人。
[7]国家自然科学基金面上项目“黑土区多种外营力互作的坡面侵蚀过程与机制（41571263，2016-2019），主持人。
[8]国家自然科学基金面上项目“典型黑土区地表径流、壤中流和土壤管道流驱动的浅沟侵蚀过程机制”（42177326，2022-2025），主持人。
[9]国家自然科学基金面上项目“黄土丘陵区切沟发育过程与形态模拟（41271299，2013-2016），主持人。
[10]国家自然科学基金面上项目“黄土丘陵区发育活跃期切沟侵蚀过程研究“（40871137，2009-2011），主持人。
[11]国家自然科学基金西部重大计划项目“近140年子午岭地区植被-侵蚀-土壤互动作用及机理”（90302001，2004-2006），主持人。
[12]国家自然科学基金面上项目“黄土坡面侵蚀－搬运过程研究”（40071058，2001-2003），主持人。
[13]国家自然科学基金面上项目“坡面土壤侵蚀与养分流失过程响应关系及模型”（49871050，1999-2001），主持人。
[14]国家自然科学基金面上项目“黄土坡面水蚀过程动力机制与预报模型（49671051，1997-1999），主持人。
[15]中国科院重要方向项目“水蚀预报模型研究”（KZCX3-SW-422，2004-2006 ），主持人。
[16]中国科学院国际合作局对外合作重点项目“气候变化对中国黄河中游和塞尔维亚萨瓦河流域农业水土环境影响评估及适应对策”（161461KYSB20170013，2018-2020），主持人。
[17]国家重点研发计划项目子课题“农用土壤质量退化对作物产量影响研究”（2022YFD150010204，2022-2027），主持人。
[18]中国科学院战略性先导科技专项“典型黑土区风力-水力-冻融驱动的复合侵蚀过程（XDA28010201，2021-2026）专题，主持人，经费70万元。
[19]国家基金委黄河重点项目“水土保持措施配置对流域水沙过程的影响和作用”(U214320029，2022-2025)，课题主持人。
[20]国家自然科学基金委员会项目“中国和南非小流域泥沙来源示踪及其调控”课题“浅沟和切沟侵蚀过程量化”（41761144060，2018-2020），主持人。
[21]水利部公益专项课题：坡沟系统侵蚀耦合机制之泥沙输移比研究（201201083-04，2012-2014），主持人。
[22]水利部第一次全国水利普查水土保持情况普查项目（IV标段）（2011-2012），主持人。
[23]黄河水利委员会治黄专项课题“流域水蚀模型构建”（2008-2010），主持人。
[24]水利部公益专项课题“坡沟系统水沙传递关系研究”（2012-2014），主持人。
[25]西北农林科技大学创新团队建设计划项目（2008-2010），主持人。
[26]中国科学院西部行动计划项目（二期）专题（2006~2010），主持人。
[27]西北农林科技大学拔尖人才支持计划项目（2006-2009），主持人。
[28]中国科学院知识创新重要项目专题（2005-2006），主持人。
[29]中法国际合作项目（PFCC2009）“Assessment of Soil Erodibility”（2009-2010），主持人。
[30]中奥国际合作项目“细沟间侵蚀过程研究”（2008-2010），主持人。
[31]中美国际合作项目：Erosion process, control and assessment at steep loess hillslopes（ARS-533，2006-2009），主持人。
[32]中德合作项目（2003-2006），主持人。

1.出版专著
[1]郑粉莉, 高学田.黄土坡面土壤侵蚀过程及其模拟, 西安: 陕西人民出版社, 2001.
[2]郑粉莉, 江忠善, 高学田. 水蚀过程与预报模型. 北京: 科学出版社, 2008.
[3]郑粉莉, 肖培青, 等. 黄土高原沟蚀演变过程与侵蚀产沙. 北京: 科学出版社, 2009.
[4]郑粉莉, 张勋昌, 王建勋. WEPP模型及其在黄土高原的应用评价. 北京: 科学出版社, 2009.
[5]郑粉莉, 沈海鸥, 覃超. 坡面细沟侵蚀过程量化研究. 北京：科学出版社, 2019
[6]郑粉莉等. 东北黑土区复合土壤侵蚀特征及其防治. 北京：科学出版社, 2020
[7]郑粉莉, 徐锡蒙, 韩勇. 浅沟和切沟侵蚀研究. 北京：科学出版社, 2023
[8]崔鹏, 郑粉莉, 张国涛, 周公旦等. 国家野外科学观测研究站观测技术规范-第四卷：地球物理与地表动力灾害-水力型灾害. 北京: 科学出版社, 2025.
[9] 景可, 王万忠, 郑粉莉. 中国土壤侵蚀与环境, 北京: 科学出版社, 2005.
2. 代表性论文， 其中SCI原刊论文62篇，EI论文23篇，学报论文60篇
[1]Zheng Fenli, Tang Keli. Rill erosion processes on steep slope land of the Loess Plateau. International Journal of Sediment Research.1997, 12: 52-59.
[2]Zheng Fenli, Huang Chihua, Norton L. D. Vertical hydraulic gradient and run-on water and sediment effects on erosion processes and sediment regimes. Soil Science Society of America Journal, 2004, 64(1), 4-11.
[3]Zheng Fenli, Xiao Peiqing, Gao Xuetian. Rill erosion process and rill flow hydraulic parameters. International Journal of Sediment Research, 2004, 19 (2): 130-141.
[4]Zheng Fenli, Merrill S. D., Huang C. H., Tanaka D. L., Darboux F., Liebig M. A., Halvorson A. D. Runoff, soil erosion, and erodibility of conservation reserve program land under crop and hay production. Soil Science Society of America Journal, 2004, 68(4): 1332-1341.
[5]Zheng Fenli, Huang Chihua, Norton, L. D. Effects of near-surface hydraulic gradients on nitrate and phosphorus losses in surface runoff. Journal of Environmental Quality, 2004, 33(6): 2174-2182.
[6]Zheng Fenli. Effect of Vegetation Changes on Soil Erosion on the Loess Plateau. Pedosphere, 2006, 16(4):420-427.
[7]Zheng Fenli*, He Xiubin, Gao Xuetian, Zhang Chang’e, Tang Keli. Effects of erosion patterns on nutrient loss following deforestation on the Loess Plateau of China. Agriculture Ecosystems & Environment, 2005, 108(1):85-97.
[8]An Shaoshan, Zheng Fenli*(通讯作者), Zhang Feng, Scott Van Pelt, Ute Hamer, Franz Makeschin. Soil quality degradation processes along a deforestation chronosequence in the Ziwuling area, China. Catena, 2008, 75(3):248-256.
[9]Li Zhi, Zheng Fenli, Liu Wenzhao, Flanagan Dennis C. Spatial distribution and temporal trends of extreme temperature and precipitation events on the Loess Plateau of China during 1961-2007. Quaternary International, 2010, 226:92-100.
[10]An Juan, Zheng Fenli*, Lu Jia, Li Guifang. Investigating the Role of Raindrop Impact on Hydrodynamic Mechanism of Soil Erosion Under Simulated Rainfall Conditions. Soil Science, 2012, 177(8):517-526.
[11]Qiu Linjing, Zheng Fenli*, Yin Runsheng. SWAT-based runoff and sediment simulation in a small watershed, the loessial hilly-gullied region of China: capabilities and challenges. International Journal of Sediment Research, 2012, 27(2): 226-234.
[12]An Juan, Zheng Fenli*, Roemkens Mathias J M, Li Guifang, Yang Qingsen, Wen Leilei, Wang Bin. The role of soil surface water regimes and raindrop impact on hillslope soil erosion and nutrient losses. Natural Hazards, 2013, 67(2): 411-430.
[13]Wang Bin., Zheng Fenli*, Romkens, M.J.M. Soil erodibility for water erosion: A perspective and Chinese experiences. Geomorphology, 2013, 187: 1-10.
[14]An Juan, Zheng Fenli*, Wang Bin. Using 137Cs technique to investigate the spatial distribution of erosion and deposition regimes for a small catchment in the black soil region, Northeast China. Catena, 2014, 123:243-251.
[15]Shen Hai-ou, Zheng Fenli*, Wen Leilei, Lu Jia, Jiang Yiliang. An experimental study of rill erosion and morphology. Geomorphology, 2015, 231: 193-201.
[16]Wen Leilei, Zheng Fenli*, Shen Hai’ou, Bian Feng, Jiang Yiliang. Rainfall intensity and inflow rate effects on hillslope soil erosion in the Mollisol region of Northeast China. Natural Hazards, 2015, 79: 381-395.
[17]Guan Yinghui, Zheng Fenli*, Zhang Peng, Qin Chao. Spatial and temporal changes of meteorological disasters in China during 1950-2013. Natural Hazards, 2015, 75(3): 2607-2623.
[18]Guan Yinghui, Zhang Xunchang, Zheng Fenli*, Wang Bin. Trends and variability of daily temperature extremes during 1960-2012 in the Yangtze River Basin, China. Global and Planetary Change, 2015, 124: 79-94.
[19]Li Guifang, Zheng Fenli*, Lu jia, Xu Ximeng, Hu Wei, Han Yong. Inflow rate impact on hillslope erosion processes and flow hydrodynamics. Soil Science Society of America Journal, 2016, 80(3): 711-719.
[20]Hu Wei, Zheng Fenli*, Bian Feng. The Directional Components of Splash Erosion at Different Raindrop Kinetic Energy in the Chinese Mollisol Region. Soil Science Society of America Journal, 2016, 80(5): 1329-1340.
[21]Lu Jia, Zheng Fenli*, Li Guifang, Bian Feng, An Juan. The effects of raindrop impact and runoff detachment on hillslope soil erosion and soil aggregate loss in the Mollisol region of Northeast China. Soil and Tillage Research, 2016, 161:79-85.
[22]Shen Hai’ou, Zheng Fenli*, Wen Leilei, Han Yong, Hu Wei. Impacts of rainfall intensity and slope gradient on rill erosion processes at loessial hillslope. Soil and Tillage Research, 2016, 155: 429-436 (高被引论文，进入ESI 1%).
[23]Xu Ximeng, Zheng Fenli*, Glenn V.W., Wu Min. Upslope inflow, hillslope gradient, and rainfall intensity impacts on ephemeral gully erosion. Land Degradation and Development, 2017, 28(8):2623-2635.
[24]Zhong Keyuan, Zheng Fenli*, Wu Hongyan, Qin Chao, Xu Ximeng. Dynamic changes in temperature extremes and their association with atmospheric circulation patterns in the Songhua River Basin, China. Atmospheric Research, 2017, 190:77-88.
[25]Xu Ximeng, Zheng Fenli, Qin Chao, Wu Hongyan, Wilson Glenn V. Impact of cornstalk buffer strip on hillslope soil erosion and its hydrodynamic understanding. Catena, 2017, 149: 417-425.
[26]Guan Yinghui, Zheng Fenli*, Zhang Xunchan, Wang Bin. Trends and variability of daily precipitation and extremes during 1960-2012 in the Yangtze River Basin, China. International Journal of Climatology, 2017, 37:1282-1298.
[27]Qin Chao, Zheng Fenli*, Wells R R., Xu Ximeng, Wang Bin, Zhong KeyuanA laboratory study of channel sidewall expansion in upland concentrated flows. Soil and Tillage Research, . 2018, 178, 22-31.
[28]Feng Zhizhen, Zheng Fenli*, Hu Wei, Li Guifang, Xu Ximeng. Impacts of mollic epipedon thickness and overloaded sediment deposition on corn yield in the Chinese Mollisol region. Agriculture, Ecosystems and Environment, 2018, 257:175-182.
[29]Qin Chao, Zheng Fenli*, Zhang Xunchang J., Xu Ximeng, Liu Gang. A simulation of rill bed incision processes in upland concentrated flows. Catena, 2018, 165: 310-319.
[30]Qin Chao, Zheng Fenli*, Xu Ximeng, Wu Hongyan, Shen Hai’ou. A laboratory study on rill network development and morphological characteristics on loessial hillslope. Journal of Soils and Sediments, 2018, 18: 1679-1690.
[31]Wu Hongyan, Xu Ximeng, Zheng Fenli, Qin Chao, He Xu. Gully Morphological Characteristics in the Loess Hilly-gully Region Based on 3D Laser Scanning Technique. Earth Surface Processes and Landforms, 2018, 43(8):1701-1710
[32]Zhong Keyuan, Zheng Fenli*, Xu Ximeng, Qin Chao, Discriminating the Precipitation Phase Based on Different Temperature Thresholds in the Songhua River Basin, China. Atmospheric Research, 2018, 205:48-59.
[33]Xu, X., Zheng Fenli*, Wilson, G. V., Zhang, X. J., Qin, C., He, X. Quantification of upslope and lateral inflow impacts on runoff discharge and soil loss in ephemeral gully systems under laboratory conditions. Journal of Hydrology, 2019, 579, 124174.
[34]Liu Gang, Zheng Fenli*, Lu Jia, Jia Yafei, Zhang Xun-chang (John), Hu Feinan, Zhang Jiaqiong. Interactive effects of raindrop impact and groundwater seepage on soil erosion. Journal of Hydrology, 2019, 578: 124066.
[35]Qin Chao, Wells Robert R., Momm Henrique G., Xu Ximeng, Wilson Glenn V., Zheng Fenli* Photogrammetric analysis tools for channel widening quantification under laboratory conditions. Soil & Tillage Research, 2019, 191: 306-316.
[36]Qin Chao, Zheng Fenli*, Wilson Glenn V., Zhang Xunchang (John), Xu Ximeng. Apportioning contributions of individual rill erosion processes and their interactions on loessial hillslopes. Catena, 2019, 181, 104099。
[37]Jiang Yiliang, Zheng Fenli*, Wen Leilei, Shen Hai’ou. Effects of sheet and rill erosion on soil aggregates and organic carbon losses for a Mollisol hillslope under rainfall simulation. Journal of Soils and Sediments, 2019, 19(1): 467-477.
[38]Shen Hai-ou, Zheng Fenli*, Zhang Xunchang J., et al. Rill network development on loessial hillslopes in China. Earth Surface Processes of Landforms, 2020, 45(13): 3178-3184
[39]Zheng Fenli, Zhang X-C (John), Wang JX. Assessing applicability of the WEPP hillslope model to steep landscapes in the northern Loess Plateau of China. Soil & Tillage Research, 2020, 197, 104492
[40]Wang L, Zheng Fenli*, Zhang XC John, Wilson GV, Qin C, He C, Liu G, Zhang JQ. Discrimination of soil losses between ridge and furrow in longitudinal ridge-tillage under simulated upslope inflow and rainfall. Soil & Tillage Research, 2020, 198, 104541.
[41]Wang L, Zuo XF, Zheng Fenli*, Zhang XC John, Wilson GV, Wang YF, Fu H. The effects of freeze-thaw cycles at different initial soil water contents on soil erodibility in Chinese Mollisol region. Catena 2020, 193:104615.
[42]Shen Hai-ou, Zheng Fenli*, Zhang Xunchang J., et al. Rill network development on loessial hillslopes in China. Earth Surface Processes of Landforms, 2020, 45(13): 3178-3184
[43]Xu XM, Wilson, GV, Zheng Fenli*, Tang QH. The role of soil pipe and pipeflow in headcut migration processes in loessic soils. Earth Surface Processes and Landforms, 2020, 45, 1749-1763.
[44]Shen HO, Zheng FL*, Zhang X-C John. Rill network development on loessial hillslopes in China. Earth Surface Processes and Landforms, 2020, 45, 1-7.
[45]Zhong KY, Zheng FL*, Zhang XC, Qin C, Xu XM, Lalic B, Cupina B. Dynamic Changes in Snowfall Extremes in the Songhua River Basin, Northeastern China. International Journal of Climatology, 2021, 41(1): 423-438.
[46]Wang Lei, Zheng Fenli*, Liu Gang, Zhang Xunchang J., Wilson GV, Shi Hongqiang, Liu Xujun.. Seasonal changes of soil erosion and its spatial distribution on a long gentle hillslope in the Chinese Mollisol region. International Soil and Water Conservation Research, 2021, 9(3): 394-404.
[47]Liu G, Zheng Fenli*, Wilson GV, Xu XM, Liu C. Three decades of ephemeral gully erosion studies. Soil and Tillage Research, 2021, 212:105046.
[48]Xu Ximeng, Zheng Fenli*, Wilson Glenn V. Flow hydraulics in an ephemeral gully system under different slope gradients, rainfall intensities and inflow conditions. Catena, 2021, 203:105359.
[49]Xu Ximeng, Zheng Fenli*, Tang Qiuhong, Wilson Glenn V., Wu Min, Han Yong, Xiao Peiqing, Zhang Xunchang J. Upslope sediment-laden flow impacts on ephemeral gully erosion: Evidences from field monitoring and laboratory simulation. Catena, 2022, 209: 105802.
[50]Zhang Jiaqiong, Zheng Fenli*, Li Zhi, Feng Zhizhen. A novel optimal data set approach for erosion‐impacted soil quality assessments—A case study of an agricultural catchment in the Chernozem region of Northeast China, Land Degradation & Development. 2022:1-14.
[51]Hongqiang Shi, Hai Xiao, Gang Liu*, Mohamed A. M. Abd Elbasit, Fenli Zheng, Qiong Zhang, Yang Zhang, Zhen Guo. Identifying interrill, rill, and ephemeral gully erosion evolution by using rare earth elements as tracers. Journal of Hydrology, 2022, 612: 128271.
[52]Xu Ximeng, Zheng Fenli*, Tang Qiuhong, Wilson Glenn V., Wu Min, Han Yong, Xiao Peiqing, Zhang Xunchang J. Upslope sediment-laden flow impacts on ephemeral gully erosion: Evidences from field monitoring and laboratory simulation. Catena, 2022, 209: 105802.
[53]Zhang Jiaqiong, Zheng Fenli*, Li Zhi, Feng Zhizhen. A novel optimal data set approach for erosion-impacted soil quality assessments-A case-study of an agricultural catchment in the Chernozem region of Northeast China. Land Degradation and Development, 2022, 33(07): 1062-1075.
[54]Zhao, Yajun; Zheng, Runhe; Zheng, Fenli*; Zhong, Keyuan; Fu, Jinxia; Zhang, Jiaqiong; Flanagan, Dennis C.; Xu, Ximeng; Li, Zhi. Spatiotemporal distribution of agrometeorological disasters in China and its impact on grain yield under climate change. International Journal of Disaster risk, 2023, 95, 103823.9
[55]Zhong, Keyuan; Zheng, Fenli*; Liu, Gang; Zhang, Xunchang; Qin, Chao; Xu, Ximeng. Effects of variations in precipitation extremes on sediment load in the Second Songhua River Basin, Northeast China. JOURNAL OF SOILS AND SEDIMENTS, 2023, 3, 971-1984.
[56]Zhang, Jiaqiong*; Shang, Yueting; Bai, Ruru; Yin, Minfeng; Wang, Xiaotong; Zheng, Fenli*. Sediment source determination for a series of connected check dams in an agricultural catchment in the Chinese Mollisol region. Journal of Hydrology, 2023, 617, 129045.
[57]Wang, Lun; Zheng, Fenli*; Hu, Wei; Zhang, Xunchang J.; Shi, Hongqiang. Interactive effects of rainfall intensity, kinetic energy and antecedent soil moisture regime on splash erosion in the Ultisol region of South China. CATENA, 2023, 222, 106863.
[58]Zhao, LY; Qin, QS; Geng, HJ; Zheng, FL*; Zhang, XJ; Li, GF; Xu, XZ; Zhang, JQ. Effects of upslope inflow rate, tillage depth, and slope gradients on hillslope erosion processes and hydrodynamic mechanisms. CATENA, 2023, 228, 107189.
[59]Shi H, Zheng Fenli*, Zhao T et al. Impacts of straw mulching in longitudinal furrows on hillslope soil erosion and deposition in the Chinese Mollisol region. Soil & Tillage Research, 2024, 243, 106178:1-11
[60]Hongqiang Shi; Gang Liu; Xiaobing An; Yajun Zhao; Fenli Zheng*; Hairu Li; Xunchang (John) Zhang; Xuncheng Pan; Binglong Wu; Xuesong Wan. Tracing soil erosion with Fe3O4 magnetic powder: Principle and application. International Soil and Water Conservation Research, 2024,12, 419-431
[61]Lun Wang, Zheng Fenli*, Xinyue Yang et al. An experimental study on the responses of spring snowmelt erosion to driving factors in a Chinese Mollisol soil. International Soil and Water Conservation Research 2025, 13, 526-535
[62]莫帅豪,王雪松,郑粉莉*等.典型黑土区坡面侵蚀-沉积对土壤微生物养分限制的影响[J].中国环境科学, 2023, 43(06):3023-3033. 9
[63]左小锋, 郑粉莉*(通讯作者)，张加琼等. 典型薄层黑土区前期坡面水蚀对土壤风蚀的影响. 农业工程学报, 2021, 37(12):45-53
[64]王磊, 师宏强, 刘刚, 郑粉莉*等. 黑土区宽垄和窄垄耕作的顺坡坡面土壤侵蚀对比. 农业工程学报, 2019, 35(19): 176-182.
[65]徐锡蒙, 郑粉莉*, 覃超等. 黄土丘陵沟壑区浅沟发育动态监测与形态定量研究. 农业机械学报, 2019, 50(4): 274-282.
[66]覃超, 何超, 郑粉莉*, 韩林峰等. 黄土坡面细沟沟头溯源侵蚀的量化研究. 农业工程学报, 2018, 34(6):160-167.
[67]王磊, 何超, 郑粉莉*等. 黑土区坡耕地横坡垄作措施防治土壤侵蚀的土槽试验. 农业工程学报, 2018, 34(15): 141-148.
[68]徐锡蒙, 郑粉莉*, 武敏. 雨强和坡度对黄土陡坡地浅沟形态特征影响的定量研究. 农业工程学报, 2017, 33(11):124-132.
[69]钟科元, 郑粉莉*, 吴红艳等. 松花江流域极端降雨变化对流域输沙量的影响. 农业机械学报, 2017, 48(8):245-252+321.
[70]郑粉莉, 边锋, 卢嘉等. 雨型对东北典型黑土区顺坡垄作坡面土壤侵蚀的影响. 农业机械学报, 2016, 47(2): 90-97.
[71]郑粉莉, 徐锡蒙, 覃超. 沟蚀过程研究进展. 农业机械学报, 2016, 47(8):48-59+116.
[72]覃超, 吴红艳, 郑粉莉*, 徐锡蒙等 黄土坡面细沟侵蚀及水动力学参数的时空变化特征. 农业机械学报, 2016, 47(8):146-154+207.
[73]沈海鸥, 郑粉莉*, 温磊磊等. 降雨强度和坡度对细沟形态特征的综合影响. 农业机械学报, 2015, 46(7):162-170.
[74]沈海鸥, 郑粉莉*, 温磊磊等. 雨滴打击对黄土坡面细沟侵蚀特征的影响. 农业机械学报, 2015, 46(8):104-112+89.
[75]徐锡蒙, 郑粉莉*, 覃超等. 沟蚀发育的黄土坡面上秸秆覆盖防蚀效果研究. 农业机械学报, 2015, 46(8):130-137.
[76]徐锡蒙, 郑粉莉*, 吴红艳等 玉米秸秆覆盖缓冲带对细沟侵蚀及其水动力学特征的影响. 农业工程学报, 2015, 31(24):111-119.
[77]付金霞, 张鹏, 郑粉莉*等. 河龙区间近55a降雨侵蚀力与河流输沙量动态变化分析. 农业机械学报, 2016, 47(2):185-192+207.
[78]覃超, 郑粉莉*, 徐锡蒙等. 基于立体摄影技术的细沟与细沟水流参数测量. 农业机械学报, 2016, 47(11):150-156.
[79]李桂芳, 郑粉莉*, 卢嘉等. 降雨和地形因子对黑土坡面土壤侵蚀过程的影响. 农业机械学报, 2015, 46(4):147-154+182.
[80]王彬, 郑粉莉*, 王玉玺. 东北典型薄层黑土区土壤可蚀性模型适用性分析. 农业工程学报, 2012, 28(6):126-131.
[81]温磊磊, 郑粉莉*, 杨青森等 雨型对东北黑土区坡耕地土壤侵蚀影响的试验研究. 水利学报, 2012, 43(9):1084-1091.
[82]肖培青, 郑粉莉, 姚文艺. 坡沟系统坡面径流流态及水力学参数特征研究. 水科学进展, 2009, 20(2):236-240.
[83]张玉斌, 郑粉莉*, 武敏. 土壤侵蚀引起的农业非点源污染研究进展. 水科学进展, 2007, 18(1):123-132.
[84]贾媛媛, 郑粉莉*, 杨勤科. 黄土高原小流域分布式水蚀预报模型. 水利学报, 2005, 36(3):328-332.
[85]高晓玉, 郑粉莉*, 胡文韬等. 1960—2020年东北黑土区水蚀动力因子时空格局及其对主要大气海洋环流模式的响应. 水土保持学报, 2024, 38(04):63-71
[86]安小兵, 郑粉莉*, 王雪松, 等. 2024. 冻融作用对东北黑土区坡耕地土壤微生物养分限制的影响. 应用生态学报, 35(10):2744-2754
[87]耿华杰, 郑粉莉*, 赵录友等. 降雨、汇流和坡度对黑土浅沟坡面侵蚀影响的试验研究. 水土保持学报, 2024, 38(02):57-67+75.
[88]赵娅君, 郑粉莉*, 毋冰龙等. 冻融作用对黑土坡面融雪、风力和降雨侵蚀的影响研究. 水土保持学报, 2024, 38(04):63-71
[89]胡文韬, 郑粉莉, 高晓玉, 等.近61年东北黑土区风蚀气候指标时空格局及其对大气海洋环流模式的响应. 水土保持学报, 2024, 38(05):1-13
[90]秦琪珊, 郑粉莉*, 赵录友等. 典型黑土区坡面上方汇流和土壤管道崩塌对坡面水蚀的影响. 生态学报, 2023, 34(10):2703-2712.
[91]赵娅君, 郑粉莉*, 安小兵等. 典型黑土区坡耕地融雪、风力、降雨复合侵蚀效应. 用生态学报, 2023, 34(09):2421-2428
[92]耿华杰, 郑粉莉*, 莫帅豪等. 典型黑土区农业流域土壤侵蚀—沉积对土壤养分和酶活性的影响.水土保持学报, 2023, 37(04):47-53.
[93]魏晗梅, 郑粉莉*, 赵苗苗等. CO2浓度升高、增温和冬小麦种植对土壤酶活性的影响.应用生态学报, 2022, 33(11):2971-2978.
[94]赵娅君, 郑粉莉*,姚亚庆等. 1978-2018年我国农业气象灾害时空变化特征.自然灾害学报, 2022, 31(01):198-207.
[95]莫帅豪,郑粉莉*,冯志珍等.典型黑土区侵蚀-沉积对土壤微生物数量空间分布的影响[J].应用生态学报, 2022, 33(03):685-693.
[96]桑琦明, 郑粉莉*等. 东北不同黑土厚度区多营力作用的坡面土壤侵蚀试验研究. 水土保持学报, 2021, 35(1): 1-8.
[97]左小锋, 郑粉莉*, 张加琼等. 典型薄层黑土区前期地表风蚀作用影响坡面水蚀的试验研究. 土壤学报, 2021, 1-13.
[98]桑琦明, 郑粉莉*, 王一菲等. 东北黑土区冻融、风力水交互作用对坡面侵蚀的影响研究. 水土保持学报, 2021, 35(2).
[99]王伦, 郑粉莉*, 师宏强等, 王伦等. 壤中流和土壤解冻深度对黑土坡面融雪侵蚀的影响. 应用生态学报, 2021, 32(12): 4177-4185.
[100]魏晗梅, 郑粉莉*, 冯志珍等. 薄层黑土区流域尺度土壤养分对侵蚀—沉积的响应. 水土保持学报, 2021.
[101]桑琦明, 王磊, 郑粉莉*等. 东北黑土区坡耕地斜坡垄作与顺坡垄作土壤侵蚀的对比分析.水土保持学报, 2020,34(03): 73-78
[102]王一菲, 郑粉莉*, 张加琼等. 冻融作用对典型黑土土壤风蚀影响的试验研究. 水土保持学报, 2020, 34(5):34-41
[103]左小锋, 王磊, 郑粉莉*等. 冻融循环和土壤性质对东北黑土抗剪强度的影响. 水土保持学报, 2020,34(02): 30-35+42.
[104]富涵, 郑粉莉*, 覃超等. 东北薄层黑土区作物轮作防治坡面侵蚀的效果与C值研究. 水土保持学报, 2019, 33(1): 14-19.
[105]何超, 王磊, 郑粉莉*等. 垄作方式对薄层黑土区坡面土壤侵蚀的影响. 水土保持学报, 2018, 32(5): 24-28.
[106]沈海鸥, 郑粉莉*, 温磊磊. 细沟发育与形态特征研究进展. 生态学报, 2018, 38(19): 6818-6825.
[107]覃超, 郑粉莉*, 刘沛峰等. 玉米秸秆汁土壤改良剂对黄绵土抗侵蚀能力的影响. 土壤学报, 2017, 54(2):367-378.
[108]钟科元, 郑粉莉*. 1960-2014年松花江流域降雨侵蚀力时空变化研究. 自然资源学报, 2017, 32(2):278-291.
[109]姜义亮, 郑粉莉*, 温磊磊等. 降雨和汇流对黑土区坡面土壤侵蚀影响的试验研究. 生态学报, 2017, 37(24):8207-8215
[110]边锋, 郑粉莉*, 徐锡蒙等. 东北黑土区顺坡垄作和无垄作坡面侵蚀过程对比. 水土保持学报, 2016, 36(1):11-16.
[111]卢嘉, 郑粉莉*, 安娟等. 降雨侵蚀过程中黑土团聚体流失特征. 生态学报, 2016, 36(8): 2264-2273.
[112]杨维鸽, 郑粉莉*, 王占礼等. 地形对黑土区典型坡面侵蚀—沉积空间分布特征的影响. 土壤学报, 2016, 53(3): 572-581.
[113]韩勇, 郑粉莉*, 徐锡蒙等. 子午岭林区浅层滑坡侵蚀与植被的关系—以富县“7·21”特大暴雨为例. 生态学报,  2016, 36(15):4635-4643.
[114]胡伟, 郑粉莉*, 边锋. 降雨能量对东北典型黑土区土壤溅蚀的影响. 生态学报, 2016, 36(15):4708-4717.
[115]盛贺伟, 郑粉莉*, 蔡强国等. 降雨强度和坡度对粘黄土坡面片蚀的影响. 水土保持学报, 2016, 30(6):13-17+23.
[116]吴红艳, 郑粉莉*, 徐锡蒙等. 不同分辨率DEM提取切沟形态特征参数的转化研究. 水土保持学报, 2016, 30(6):147-152+161.
[117]温磊磊, 郑粉莉*, 沈海鸥等. 东北典型黑土区农耕土壤团聚体流失特征. 土壤学报, 2015, 52(3):489-498.
[118]沈海鸥, 郑粉莉*, 温磊磊等. 黄土坡面细沟侵蚀形态试验. 生态学报, 2014, 34(19):5514-5521.
[119]温磊磊, 郑粉莉*, 沈海鸥等. 沟头秸秆覆盖对东北黑土区坡耕地沟蚀发育影响的试验研究. 泥沙研究, 2014, 59(6):73-80.
[120]姜义亮, 郑粉莉*, 王彬等. 东北黑土区片蚀和沟蚀对土壤团聚体流失的影响. 生态学报, 2013, 33(24):7774-7781.
[121]邱临静, 郑粉莉*, Yin Runsheng. DEM栅格分辨率和子流域划分对杏子河流域水文模拟的影响. 生态学报, 2012, 32(12):3754-3763.
[122]安娟, 郑粉莉*, 李桂芳等. 不同近地表土壤水文条件下雨滴打击对黑土坡面养分流失的影响. 生态学报, 2011, 31(24):7579-7590.
[123]邱临静, 郑粉莉*, 尹润生. 1952-2008年延河流域降水与径流的变化趋势分析. 水土保持学报, 2011, 25(3):49-53.
[124]郑粉莉, 张锋, 王彬. 近100年植被破坏侵蚀环境下土壤质量退化过程的定量评价. 生态学报, 2010, 30(22):6044-6051.
[125]郭曼, 郑粉莉, 和文祥等. 黄土丘陵区不同退耕年限植被多样性变化及其与土壤养分和酶活性的关系. 土壤学报, 2010, 47(5):979-986.
[126]张锋, 郑粉莉*, 安韶山. 近100年植被破坏加速侵蚀下土壤养分和酶活性动态变化研究. 植物营养与肥料学报, 2008, 14(4):666-672.
[127]肖培青, 郑粉莉, 汪晓勇等. 黄土坡面侵蚀方式演变与侵蚀产沙过程试验研究. 水土保持学报, 2008, 22(1):24-27.
[128]王建勋, 郑粉莉*, 江忠善等. WEPP模型坡面版在黄土丘陵沟壑区的适用性评价——以坡度因子为例. 泥沙研究, 2008, 53(6):52-60.
[129]肖培青, 郑粉莉, 姚文艺. 坡沟系统侵蚀产沙及其耦合关系研究. 泥沙研究, 2007(2):30-35.
[130]张锋, 郑粉莉*, 安韶山等. 子午岭地区林地破坏加速侵蚀对土壤养分流失和微生物的影响研究. 植物营养与肥料学报, 2006, 12(6):826-833.
[131]江忠善, 郑粉莉, 武敏. 中国坡面水蚀预报模型研究. 泥沙研究, 2005, 50(4):1-6.
[132]郑粉莉, 高学田. 坡面汇流汇沙与侵蚀-搬运-沉积过程. 土壤学报, 2004, 41(1):134-139.
[133]江忠善, 郑粉莉. 纸坊沟流域水土流失综合治理减沙效益评. 泥沙研究,  2004(2):56-61
[134]肖培青, 郑粉莉. 上方来水来沙对细沟侵蚀泥沙颗粒组成的影响. 泥沙研究, 2003, 48(5):64-68.
[135]肖培青, 郑粉莉. 上方汇水汇沙对坡面侵蚀过程的影响. 水土保持学报, 2003, 17(3):25-27+41.
[136]肖培青, 郑粉莉. 上方来水来沙对细沟水流水力学参数的影响. 泥沙研究, 2002, 48(4):69-74.
[137]郑粉莉, 张成娥. 林地开垦后坡面侵蚀过程与土壤养分流失的研究. 水土保持学报, 2002, 16(1):44-46.
[138]肖培青, 郑粉莉, 张成娥. 细沟侵蚀过程与细沟水流水力学参数的关系研究. 水土保持学报,2001,15(1):54-57+125.
[139]郑粉莉, 张成娥. 加速侵蚀对土壤腐殖酸动态变化的影响. 生态学报,1999, 19(2):52-57.
[140]郑粉莉,康绍忠. 黄土坡面不同侵蚀带侵蚀产沙关系及其机理. 地理学报, 1998(5):40-46.
[141]郑粉莉. 黄土区坡耕地细沟间侵蚀和细沟侵蚀的研究. 土壤学报, 1998, 35(1):95-103.
[142]郑粉莉, 唐克丽, 张科利等. 自然侵蚀和人为加速侵蚀与生态环境演变. 生态学报, 1995, 15(3):251-259.
[143]郑粉莉, 唐克丽, 白红英等. 子午岭林区不同地形部位开垦裸露地降雨侵蚀力的研究. 水土保持学报, 1994, 8(1):26-32.
[144]郑粉莉, 唐克丽, 周佩华. 坡耕地细沟侵蚀影响因素的研究. 土壤学报, 1989, 26(2):109-116.
[145]郑粉莉, 唐克丽, 周佩华. 坡耕地细沟侵蚀的发生、发展和防治途径的探讨. 水土保持学报, 1987, 1(1):36-48.

获奖
[1]黄土区水—土-作物关系及其最优调控机制研究，2004度陕西省科学技术一等奖
[2]典型黑土侵蚀退化机制，2016年度黑龙江省科学技术１等奖（自然）
[3] “知华友华”农科高素质来华留学研究生教育模式探索与实践，2023年获国家级教学成果二等奖
[4]“知华友华”农科高素质来华留学研究生教育模式探索与实践，2022年获陕西省教学成果一等奖
[5]东北黑土区复合土壤侵蚀机理及调控技术，2023年度第十五届中国水土保持学会科学技术一等奖
[6]第十五届钱宁泥沙科学技术技奖，2022
[7]黄土高原沟坡系统植被减蚀机制及其空间优化配置关键技术，获2021年度第十三届中国水土保持学会科学技术二等奖
[8]典型黑土区土壤侵蚀退化过程及其调控，2020年度第十二届中国水土保持学会科学技术一等奖
[9]土壤侵蚀定量估算的新技术与新方法研究，获2018年度第十二届中国水土保持学会科学技术二等奖
[10]黑土侵蚀过程与土壤质量退化机理，获2018年度中国土壤学会科学技术二等奖
荣誉
[1] 国务院政府津贴证书
[2] 全国三八红旗手
[3] 新世纪百千万人才工程
[4] 第三届中国青年科技奖证书
[5] 全国“巾帼建功”标兵荣誉称号
[6] 国务院第六届学科评议组成员（农业资源环境）
[7] 入选农业领域全球前2%顶尖科学家
[8] 2021，2022和2023年入选爱思唯尔中国高被引学者
[9] 陕西省“三五”人才工程第一层次
[10] 陕西省三八红旗手
[11] 陕西省优秀留学回国人员等荣誉称号
[12] 中国科学院“朱李月华优秀老师”奖
[13] 中国水土保持学会先进工作者
[15] 2001年USDA-ARS-NSERL重要贡献奖
[16] 2002年USDA-ARS-NSERL重要贡献奖