EROSION

作品数:815被引量:1745H指数:17
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Exploring coupling effects of rainfall and surface roughness on the sheet flow velocity
《International Soil and Water Conservation Research》2025年第1期164-176,共13页Enshuai Shen Gang Liu Qiong Zhang Chenxi Dan Chang Liu Hairu Li Ya Liu Xueming Qu Xiaolin Xia Dandan Liu Zhen Guo Xining Zhao 
jointly supported by the National Natural Science Foundation of China(No.42277344 and U22A20613);the Natural Science Basic Research Plan in Shaanxi Province(No.2024JC-JCQN-39);the Natural Science Foundation of Anhui Province(No.2308085US14);the Foundation of Anhui Province Key Laboratory of Water Conservancy and Water Resources(No.2023SKJ03).
Accurately describing the path of sheet flow(SF)is crucial in soil erosion.Raindrop impact and underlying surface conditions can affect the SF velocity by changing the velocity profile.However,since this information i...
关键词:RUNOFF Erosion assessment Correction factor Hillslope hydrology Hydraulic parameter 
Wind and rainfall erosion energy in large sediment generating and coarse sediment class areas of the middle Yellow river
《International Soil and Water Conservation Research》2025年第1期67-79,共13页Tao Yang Jianzhi Niu Dengxing Fan Di Wang Yubo Miao Miao Wang Chunguang Zhao Linus Zhang Xiongwen Chen Ronny Berndtsson 
supported by the National Key R&D Project of China(Grant No.2022YFF1300804).
Joint action by strong winds and high-intensive rainfall leads to serious soil erosion problems in large sediment generating and coarse sediment class areas of the middle Yellow River.Investigating the variation of tr...
关键词:Erosion energy Compound erosion of wind and water Mann-kendall test Middle yellow river Trend analysis 
Comment on“Assessing gully erosion and rehabilitation using multi temporal LiDAR DEMs:Case study from the Great Barrier Reef catchments,Australia”by Khan et al.,2023被引量:1
《International Soil and Water Conservation Research》2024年第2期481-486,共6页James S.Daley Andrew P.Brooks John R.Spencer 
supported by the National Environmental Science Program(NESP)projects 3.1.7 and 5.10;funded by the Great Barrier Reef Foundation to optimise the raw data for terrain analyses.
Geomorphic change detection(GCD)using high resolution topographic data can provide important insights into geomorphological systems.However,considerations must first be given to the mechanisms and dynamics producing l...
关键词:EROSION stated discussions 
Field experimental study on the effect of thawed depth of frozen alpine meadow soil on rill erosion by snowmelt waterflow被引量:1
《International Soil and Water Conservation Research》2024年第1期54-63,共10页Ying Zheng Xiaonan Shi Fan Zhang Tingwu Lei Chen Zeng Xiong Xiao Li Wang Guanxing Wang 
This study is financially supported by the National Natural Science Foundation of China(Grant No.42271142,42101130);the Belt and Road Special Foundation of the State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering(2020490311).
Soil erosion by snow or ice melt waterflow is an important type of soil erosion in many high-altitude and high-latitude regions and is further aggravated by climate warming.The snowmelt waterflow erosion process is af...
关键词:Snowmelt waterflow erosion Hillslope erosion process Soil freeze and thaw Runoff generation In situ experimental method 
Advances in soil erosion research:Mechanisms,modeling and applications-A special issue in honor of Dr.Mark Nearing
《International Soil and Water Conservation Research》2023年第4期589-591,共3页Viktor Polyakov Claire Baffaut Vito Ferro Scott Van Pelt 
1.Introduction Long-term sustainability of soils is one of the critical challenges facing humanity.Soil erosion is an intrinsic geomorphological pro-cess,which if accelerated can threaten natural ecosystems and agri-c...
关键词:soil EROSION driving 
Novel sediment source fingerprinting quantifying erosion-induced total nitrogen and total phosphorus outputs from an intensive agricultural catchment,North China被引量:2
《International Soil and Water Conservation Research》2023年第3期494-506,共13页Hanqing Yu Joseph Adu-Gyamfi Suarau Odutola Oshunsanya Adrian Chappell Wenxiang Liu Yu Zheng Tingting Xue Lee Heng 
supported by the International Atomic Energy Agency through coordination research projects(CRP)under Research Contract No.23008 and technical cooperation project(TCP)RAS 5084,and the Central Public-interest Scientific Institution Basal Research Fund(No.BSRF202004);Funding for AC to collaborate on this work was provided by the High-end Foreign Experts Recruitment Program from State of Administration of Foreign Experts Affairs of China;This work was partly supported by the Science and Technology Major Project of Guangxi(Guike AA17204078).
Intensive farming is a primary cause of increased sediment and associated nitrogen(N)and phosphorus(P)loads in surface water systems.Determining their contributing sources,pathways and loads present major challenges i...
关键词:Sediment sources Land use N and P loads Compound-specific stable isotope Falloutradionuclides 
An improved method that incorporates the estimated runoff for peak discharge prediction on the Chinese Loess Plateau被引量:1
《International Soil and Water Conservation Research》2023年第2期290-300,共11页Wenhai Shi Miaomiao Wang Donghao Li Xianwei Li Mengying Sun 
supported by the National Natural Science Foundation of China(42107351);China Postdoctoral Science Foundation(2019M663917XB);Natural Science Fund of Shaanxi Province(2021JQ-227);Fundamental Research Funds for the Central Universities,CHD(300102291104 and 300102291507);Programme of Introducing Talents of Discipline to Universities(B08039).
An accurate prediction of peak discharge in watersheds is critical not only for water resource manage-ment,but also for understanding the complex relationships of hydrological processes.In this study,a modified peak d...
关键词:Chemicals Runoff and Erosion from agricultural management systems (CREAMS) NRCS-CN Peak discharge Surface runoff Rainfall intensity 
Hydrological and sediment connectivity under freeze-thaw meltwater compound erosion conditions on a loessal slope
《International Soil and Water Conservation Research》2023年第2期402-411,共10页Tian Wang Jingsi Li Jingming Hou Yongyong Ma Peng Li Yu Tong Jing Li Zhanbin Li 
supported by the National Key Research and Development Program of China(No.2022YFF1300801);the National Natural Science Foundation of China(Nos.52009104,U2040208,42107087);the Sin0-German Mobility Programme(No.M-0427);the Shaanxi Province Innovation Talent Promotion Plan Project Technology Innovation Team(No.2020TD-023);the Natural Science Foundations of Shaanxi Province(No.2022JQ-509);Shaanxi Province Water Conservancy Science and Technology Project(2022slkj-04).
Freeze-thaw processes can influence hydrology,soil erosion,and morphological development by altering the connectivity between active pathways of water and sediment transport.Concentrated flow experi-ments were conduct...
关键词:FREEZE-THAW RUNOFF EROSION Structureand functional connectivity Loessal slope 
Exploring the factors influencing the hydrological response of soil after low and high-severity fires with post-fire mulching in Mediterranean forests
《International Soil and Water Conservation Research》2023年第1期169-182,共14页Manuel Esteban Lucas-Borja Pedro Antonio Plaza-Alvarez Xiangzhou Xu Bruno Gianmarco Carra Demetrio Antonio Zema 
the Open Research Fund Program of State Key Laboratory of Water Resources and Hydropower Engineering Science-Wuhan University(2019HLG02).
Despite ample literature,the influence of the individual soil properties and covers on the hydrological response of burned soils of forests has not clearly identified.A clear understanding of the surface runoff and er...
关键词:Wildhre Prescribed fire Soil cover Soil properties Soil water repellency Infiltration rate Surface runoff Soil loss EROSION 
Runoff-and erosion-reducing effects of vegetation on the loess hillslopes of China under concentrated flow被引量:1
《International Soil and Water Conservation Research》2022年第4期662-676,共15页Wenzhao Guo Li Luo Hongwei Li Wenlong Wang Yun Bai 
The work was funded by the Natural Science Basic Research Program of Shaanxi Province(2021JQ-165);China Postdoctoral Science Foundation(2020M683591);Key National Research and Development Program of China(2016YFC0501604).
Evaluating the effects of revegetation on runoff and erosion reduction is essential for studying soil and water conservation on the Loess Plateau after implementation of China's Grain for Green Project.However,quantif...
关键词:Soil erosion Concentrated runoff China's grain for green project VEGETATION Hydraulic parameters Chinese loess plateau 
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