Personal Information
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Current position |
Full Professor |
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University |
Northwest A&F University |
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flzh@ms.iswc.ac.cn |
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Office Phone |
+86 29 87013205 |
Educational background
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From |
To |
University/Institution |
Degree and Major |
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1994 |
1997 |
Institute of Soil and Water Conservation,Chinese Academy of Sciences and Ministry of Water Resources, China |
PhD in Soil science |
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1990 |
1991 |
UNEP/UNESCO International Postgraduate Course in Environment Management for Developing Countries, Dresden University of Technology, Germany |
Diploma and Certification in Environmental management |
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1983 |
1986 |
Institute of Soil and Water Conservation,Chinese Academy of Sciences and Ministry of Water Resources |
M.S. in Soil science |
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1979 |
1983 |
Department of Geography,Northwest University |
B.S. in Geography |
Main Research Projects
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From |
To |
Title of Project |
Position |
Project Description |
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2018 |
2020 |
Impacts of climate change on agricultural soil and water environment in the midstream of the Yellow River and the Sava River of Serbia |
PI |
International Cooperation Key Projects of Chinese Academy of Science |
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2018 |
2020 |
Sediment source tracing and regulation strategies in Chinese Loess Plateau and typical watershed of South Africa: Rill and ephemeral gully development process |
PI |
National Natural Science Foundation of China |
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2017 |
2020 |
Erosion control mechanisms and regulation techniques in the Chinese Mollisol region |
PI |
National Key R&D Program of China |
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2016 |
2019 |
Interaction effects of multi-external erosion agency on hillslope soil erosion process and mechanisms in Chinese mollisol region |
PI |
National Natural Science Foundation of China |
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2013 |
2016 |
Gully development process and its morphology simulation on the loessial hilly-gully region |
PI |
National Natural Science Foundation of China |
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2012 |
2014 |
A study on sediment delivery ratio on the hillslope-gully catchment |
PI |
Ministry of Water Resources of China (Non-profit Industry Financial Program) |
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2010 |
2012 |
Potential impact assessment of Climate change on the Loess Plateau |
PI |
Ministry of Agriculture Foundation of China (948 Program) |
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2009 |
2011 |
Active gully erosion study on the Loess Plateau of China |
PI |
National Natural Science Foundation of China |
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2009 |
2010 |
Assessment of Soil Erodibility |
PI |
China-France international cooperation project |
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2008 |
2011 |
Erosion environment evolution in recent ten thousand years |
PI |
State Key Laboratory Foundation of China |
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2007 |
2012 |
Hillslope soil erosion processes and their mechanisms in the main water erosion regions of China (subproject) |
PI |
National Basis Research Program (973 project) |
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2006 |
2009 |
Erosion process, control and assessment at steep loess hillslopes |
PI |
China-US international cooperation project |
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2006 |
2006 |
Interactions among vegetation, soil erosion and soil quality and their mechanisms |
PI |
National Natural Science Foundation of China (Major research plan) |
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2004 |
2006 |
Research of rill/interrill erosion on slope cropland |
PI |
China-Austria international cooperation project |
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2004 |
2006 |
Soil N dynamics as affected by different land use in Western and Southern China |
PI |
China-Germany international cooperation project |
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2003 |
2007 |
Water erosion prediction model at watershed scale on the Loess Plateau |
PI |
National Natural Science Foundation of China (key program) |
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2003 |
2006 |
Water erosion prediction model |
PI |
Chinese Academy of Sciences (Innovation Project) |
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2003 |
2005 |
Soil erosion and its impacts assessment |
PI |
Ministry of Agriculture Foundation of China (948 Program) |
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2001 |
2003 |
Detachment and transport on the lossialhillslope |
PI |
National Natural Science Foundation of China |
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1999 |
2001 |
Soil nutrient loss response to soil erosion on hillslope after deforestation |
PI |
National Natural Science Foundation of China |
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1997 |
1999 |
Water erosion dynamitic processes and prediction model |
PI |
National Natural Science Foundation of China |
Selected Publications
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Year |
Selected books |
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2015 |
Mathias J. M. Römkens, Wells R R, Wang B, ZhengFenli,Hickey C J. Chapter 8. Soil Erosion on Upland Areas by Rainfall and Overland Flow. Springer, 2015. |
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2014 |
ZhengFenli, Wang Bin. Chapter 6. Restoration and development of degraded Loess Plateau. Springer, 2014. |
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2012 |
ZhengFenli. Chaper 5. Hillslope runoff and soil erosion process in T. S. W. Wong (Ed). Overland flow and surface runoff. Nova Science Publishers, Inc. 2012. |
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2009 |
ZhengFenli, Zhang X.C. and Wang J.X. WEPP Model and Its Application in the Loess Plateau. Beijing: Science Press, 2009.(Chinse) |
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ZhengFenli, et al. Gully Erosion and Sediment Yield in the Loess Plateau. Beijing: Science Press, 2009. (Chinse) |
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2008 |
ZhengFenli, Jiang Z.S. and Gao X.T. Water Erosion Process and Prediction Model. Beijing: Science Press, 2008. (Chinse) |
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2005 |
Jing Ke, Wang Wan-zhong, ZhengFenli. Soil Erosion and Environment in China. Beijing: Science Press, 2005. (Chinse) |
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2001 |
ZhengFenli, Gao X.T. Soil erosion process and its simulation on loeessialhillslope. Xian: Shaanxi Renmin Press, 2001.(Chinse) |
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Year |
SCI academic papers (*corresponding author) |
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2018 |
Feng Z, ZhengFenli*, Hu W, Li G, Xu X. Impacts of mollicepipedon thickness and overloaded sediment deposition on corn yield in the Chinese Mollisol region. Agriculture, Ecosystems & Environment. 2018, 257:175-182. |
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Jiang Y, ZhengFenli*, Wen L, Shen H. Effects of sheet and rill erosion on soil aggregates and organic carbon losses for a Mollisolhillslope under rainfall simulation. Journal of Soils and Sediments.2018,DOI: 10.1007/s11368-018-2043-y. |
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Qin C, ZhengFenli*, Wells R R, Xu X, Wang B, Zhong K. A laboratory study of channel sidewall expansion in upland concentrated flows. Soil & Tillage Research.2018,178:22-31. |
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Qin C, ZhengFenli*, Zhang J X, Xu X, Liu G. A simulation of rill bed incision processes in upland concentrated flows. Catena. 2018, 165:310-319. |
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Wu H, Xu X, ZhengFenli*, Qin C, He X. 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. |
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Xu X, ZhengFenli*, Wilson G V, He C, Lu J, Bian F. Comparison of runoff and soil loss in different tillage systems in the Mollisol region of Northeast China. Soil & Tillage Research. 2018,177:1-11. |
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Zhong K, ZhengFenli*,Xu X, Qin C. Discriminating the precipitation phase based on different temperature thresholds in the Songhua River Basin, China. Atmospheric Research. 2018,205:48-59. |
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P.I.A. Kinnella, Wang Jianxun, ZhengFenli. Comparison of the abilities of WEPP and the USLE-M to predict event soil loss on steep loessal slopes in China.Catena. 2018,171:99-106. |
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Zhang Xunchang, Liu Gang, `Fenli. Understanding erosion processes using rare earth element tracers in a preformed interrill-rill system. Science of the Total Environment. 2018, 625: 920-927. |
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Xiao Hai, Liu Gang, Zhang Qiong, ZhengFenli, Zhang Xunchang, Liu Puling, Zhang Jiaqiong, Hu Feinan, Mohamed A. M. Abd-Elbasit. Quantifying contributions of slaking and mechanical breakdown of soil aggregates to splash erosion for different soils from the Loess plateau of China. Soil & Tillage Research. 2018,178: 150-158 |
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Liu Gang, Hu Feinan, Mohamed A. M. Abd-Elbasit, ZhengFenli, Liu Puling, Xiao Hai, Zhang Qiong, Zhang Jiaqiong. Holocene erosion triggered by climate change in the central Loess Plateau of China. Catena. 2018,160: 103-111. |
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Qin Wei,GuoQiankun,CaoWenhong,YinZhe,YanQinghong, Shan Zhijie, ZhengFenli. A new RUSLE slope length factor and its application to soil erosion assessment in a Loess Plateau watershed. Soil & Tillage Research. 2018, 182: 10-24. |
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2017 |
Xu X, ZhengFenli*, Wilson G V, Wu M. Upslope inflow, hillslope gradient, and rainfall intensity impacts on ephemeral gully erosion. Land Degradation & Development.2017. |
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Qin C, ZhengFenli*, Xu X, Wu H, Shen H. A laboratory study on rill network development and morphological characteristics on loessialhillslope. Journal of Soils and Sediments. 2017,18(7):1-12. |
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ZhongKeyuan, ZhengFenli*, Wu Hongyan, Qin Chao, XuXimeng. Dynamic changes in temperature extremes and their association with atmospheric circulation patterns in the Songhua River Basin, China. Atmospheric Research. 2017, 77-88. |
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XuXimeng, ZhengFenli*, Qin Chao, Wu Hongyan, Glenn V. Wilson. Impact of cornstalk buffer strip on hillslope erosion and its hydrodynamic understanding. Catena. 2017, 149, 417-425. |
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Han Yong, ZhengFenli*, XuXimeng. Effects of rainfall regime and its character indices on soil loss at loessialhillslope with ephemeral gully. Journal of Mountain Science. 2017, 14 (3): 527-538. |
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Wang Bin, Steiner J,ZhengFenli,Gowda P. Impact of rainfall pattern on interrill erosion process. Earth Surface Processes and Landforms. 2017, 42(12):1833-1846. |
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Zhang Xunchang, Liu Gang,ZhengFenli. A simple enrichment correction factor for improving erosion estimation using rare earth oxide tracers. Vadose Zone Journal. 2017, 16(12). |
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Xiao Hai, Liu Gang, Liu Puling, ZhengFenli, Zhang Jiaqiong, Hu Feinan. Developing equations to explore relationships between aggregate stability and erodibility in Ultisols of subtropical China. Catena. 2017, 157: 279-285. |
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Xiao Hai, Liu Gang, Liu Puling, ZhengFenli, Zhang Jiaqiong, Hu Feinan. Response of soil detachment rate to the hydraulic parameters of concentrated flow on steep loessial slopes on the Loess Plateau of China. Hydrological Processes. 2017, 31: 2613-2621. |
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Xiao Hai, Liu Gang, Mohamed A. M. Abd-Elbasit, Zhang Xunchang, Liu Puling,ZhengFenli, Zhang Jiaqiong, Hu Feinan. Effects of slaking and mechanical breakdown on disaggregation and splash erosion. European Journal of Soil Science. 2017, DOI: 10.1111/ejss.12482. |
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2016 |
Hu W, ZhengFenli*,Bian F. 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. |
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Li G, ZhengFenli*, Lu J, Xu X, Hu W, Han Y. Inflow Rate Impact on Hillslope Erosion Processes and Flow Hydrodynamics. Soil Science Society of America Journal. 2016, 80(3):711-719. |
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Lu J, ZhengFenli*, Li G, Bian F, An J. The effects of raindrop impact and runoff detachment on hillslope soil erosion and soil aggregate loss in the Mollisol region of Northeast China. Soil & Tillage Research. 2016, 161:79-85. |
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Shen H, ZhengFenli*, Wen L, Han Y, Hu W. Impacts of rainfall intensity and slope gradient on rill erosion processes at loessialhillslope. Soil & Tillage Research. 2016, 155:429-436. |
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2015 |
Guan Yinghui, Zhang Xunchang, ZhengFenli*, Wang Bin. Trends and variability of daily temperature extremes during 1960-2012 in the Yangtze River Basin, China. International Journal of Climatology. 2015, 124(3): 79-94. |
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Guan Yinghui, ZhengFenli*, Zhang Peng, Qin Chao. Spatial and temporal changes of meteorological disasters in China during 1950–2013. Natural Hazards. 2015, 75: 2607-2623. |
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Wen Leilei, ZhengFenli*, ShenHaiou, BianFeng, JiangYiliang. Rainfall intensity and inflow rate effects on hillslope soil erosion in the mollisol region of northeast china. Natural Hazards. 2015, 79(1):381-395. |
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ShenHaiou, ZhengFenli*, Wen Leilei, Lu Jia, Jiang Yiliang. An experimental study of rill erosion and morphology. Geomorphology. 2015, 231:193-201. |
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2014 |
An Juan, ZhengFenli*, 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. |
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An Juan, ZhengFenli*, Han Yong. Effects of rainstorm patterns on runoff and sediment yield processes. Soil Science. 2014, 179(6), 293-303. |
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Baptiste Algayer, Wang Bin, HocineBourennane,ZhengFenli, Olive Duval, Y LeBissonnais, FrédéricDarboux. Aggregate stability of a crusted soil: differences between crust and sub-crust material, and consequences for interrillerodibility assessment. An example from the Loess Plateau of China. European Journal of Soil Science. 2014, 65(3):325-335. |
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2013 |
An Juan, ZhengFenli*, Römkens Mathias J.M, Li Guifang. The role of soil surface water regimes and raindrop impact on hillslope soil erosion and nutrient losses. Natural Hazards. 2013, 67(2): 411-430. |
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ZhengFenli*, Wang Bin. Soil Erosion in the Loess Plateau Region of China. Ecohydrology. 2013, 5:77-92. |
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Wang Bin, ZhengFenli*, Frederic Darboux, M.J.M. Romkens. Soil Erodibility in Erosion by Water: A Perspective and the Chinese Experience. Geomorphology. 2013, 187:1-10. |
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2012 |
Qiu Lin-jing, ZhengFenli*, Yin Run-sheng. 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. |
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An J, ZhengFenli*, Lu J, Li G. Investigating the Role of Raindrop Impact on Hydrodynamic Mechanism of Soil Erosion Under Simulated Rainfall Conditions. Soil Science. 2012, 177(8):517-526. |
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Wang B, ZhengFenli*, Römkens M J M. Comparison of soil erodibility factors in USLE, RUSLE2, EPIC and Dg models based on a Chinese soil erodibility database. ActaAgriculturaeScandinavica, Section B - Soil & Plant Science. 2012, 63(1):69-79. |
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Li Z, ZhengFenli, Liu W Z, Jiang D J. Spatially downscaling GCMs outputs to project changes in extreme precipitation and temperature events on the Loess Plateau of China during the 21st Century.Global and Planetary Change. 2012, 82-83: 65-73. |
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Li Z, ZhengFenli, Liu W Z. Spatiotemporal characteristics of reference evapotranspiration during 1961-2009 and its projected changes during 2011-2099 on the Loess Plateau of China. Agricultural and Forest Meteorology. 2012, 154-155: 147-155.. |
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2010 |
Li Zhi, Liu Wenzhao, Zhang Xunchang, ZhengFenli. Assessing and regulating the impacts of climate change on water resources in the Heihe watershed on the Loess Plateau of China. Science China (Earth Sciences). 2010,(05):710-720. |
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2009 |
Hamer, U, Makeschin F, An S,ZhengFenli. Microbial activity and community structure in degraded soils on the Loess Plateau of China. Journal of Plant nutrition and soil science. 2007, 172(1): 118-126. |
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Li Z, Liu W, Zhang X, ZhengFenli. Impacts of land use change and climate variability on hydrology in an agricultural catchment on the Loess Plateau of China. Journal of Hydrology. 2009, 377(1):35-42. |
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2008 |
AnShaoshan, ZhengFenli*, ZhangZhangFeng, Van Pelt S, Hamer U, Makeschin F. Soil quality degradation processes along a deforestation chronosequence in the Ziwuling area, China. Catena. 2008, 75(3): 248-256. |
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2005 |
ZhengFenli*, He Xiubin, GaoXuetian, Zhang Chang-e, Tang Keli. Effects of erosion patterns on nutrient loss following deforestation on the Loess Plateau of China. Agriculture, Ecosystem & Environment. 2005, 108: 85-97. |
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ZhengFenli*. Effects of accelerated soil erosion on soil nutrient loss after deforestation on the Loess Plateau. Peodephere. 2005, 15(6):707-715. |
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2004 |
ZhengFenli*, Xiao P, Gao X. Rill erosion process and rill flow hydraulic parameters. International Journal of Sediment Research. 2004, 19(2): 130-141. |
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ZhengFenli*, Huang C., Norton L.D. Effects of near-surface hydraulic gradients on nitrate and phosphorus losses in surface runoff. Journal of Environment Quality. 2004, 33(6): 2174-2182. |
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ZhengFenli*, Merrill S D, Huang C, Tanaka D, Darboux F,Liebig M,Halvorson A. 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. |
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2000 |
ZhengFenli*, Chi-hua Huang, L.D. Norton. Vertical hydraulic gradient and run-on water and sediment effects on erosion processes and sediment regimes. Soil Science Society of America Journal. 2000, 64(1): 4-10. |
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1997 |
ZhengFenli*, Tang Keli. Rill erosion process on steep slope land of the Loess Plateau. International Journal of Sediment Research. 1997, 12(1): 52-59. |
