Personal profile

　　Name:Zhang Qingfeng

　　Degree title:Ph.D Professor

　　Phone:13909269783

　　E-mail:zhqf@nwsuaf.edu.cn

　　Address:Taicheng Road No.3  Yangling, Shaanxi Province 712100  P.R.China

　　Research Interests

　　Land resources and spatial information technology

　　Soil erosion and soil and water conservation

　　Professional Experience

　　1993.09-1997.07 Department of Soil and Water Conservation, Northwest A&F University, Bachelor of Agriculture, Soil and Water Conservation

　　1998.09-2002.07 School of Resources and Environment, Northwest A&F University, Master of Science in Environmental Science

　　2003.09-2008.07 College of Natural Resources and Environment, Northwest A&F University, received a Ph.D. in Agriculture and Agronomy from Soil and Water Conservation and Desertification Control

　　2006.01-2007.01 Visiting Scholar, School of Computing Science, George Mason University, USA

　　2010.01-2017.12 Associate Professor, School of Resources and Environment, Northwest A&F University

　　2014.10-2015.10 Visiting Scholar, Auburn University Agricultural College, USA

　　2018.01-now Professor, College of Natural Resources and Environment, Northwest A&F University

　　Main academic achievements

　　Soil erosion is a very complex multi-scale geographic interface process. Taking the loess agricultural farming slope as the research object, the systematic in-depth research work at the micro scale was carried out. The method of 3D numerical simulation of micro-topography was established and a high-precision map database was constructed. The spatial heterogeneity of loess micro-topography during water erosion development was clarified, and the soil-soil retention effect of loess micro-topography was revealed.

　　There are regional differences in agricultural water and soil resources and ecological environment. Based on the agricultural water and soil resources utilization/ecological economic division in the northwest dryland (Loess Plateau), the research on the evaluation and optimal allocation of agricultural water and soil resources utilization potential is carried out. The zoning index system of agricultural water and soil resources utilization in large, medium and small scales in the northwestern arid area was established, and a zoning method based on geographic grid-principal component analysis + neural network was established to explore the agriculture in the northwest dryland (Loess Plateau). Water and soil resources matching and eco-economic coupling characteristics.

　　In the past five years, he has undertaken 14 projects involving various science and technology projects. He has published more than 100 papers, including 23 papers in SCI/EI, 10 papers in the first/communication authors, and 7 invention patents and software copyright registrations. Participated in the publication of 2 monographs and participated in the compilation of 1 local standard in Shaanxi Province.

　　Major research projects undertaken in recent years

　　Analysis of soil erosion changes and typical county (point) characteristics in Shaanxi Province, Shaanxi Provincial Soil and Water Conservation Bureau, 2010-2012

　　Numerical simulation of soil erosion morphological evolution during the water erosion process of loess slope, Shaanxi Natural Science Foundation Project, 2011-2013

　　Agricultural water and soil resources utilization zoning and application of water-saving agricultural technology screening in Northwest China, National Science and Technology Support Program sub-project, 2011-2015

　　Construction of soil nutrient information inquiry and management system in apple orchard in Huangling County, Huangling County Fruit Industry Bureau, 2012-2014

　　Study on the influence of surface roughness on the sediment yield of loess slope farmland, National Natural Science Foundation of China, 2013-2016

　　Three-dimensional numerical simulation and mechanism study on the water erosion development process of loess tillage slope under micro-topography conditions, National Natural Science Foundation of China, 2014-2017

　　Thematic map analysis of soil loss based on the general soil loss equation (USLE), Guangxi Zhuang Autonomous Region Water Resources and Electric Power Survey and Design Institute, 2016-2018

　　Ecological Monitoring of Qinling National Botanical Garden, Qinling National Botanical Garden, 2017-2018

　　Study on micro-topographic hydraulic connectivity and infiltration mechanism of sloping farmland, National Natural Science Foundation of China, 2018-2021

　　Representative

　　He Feng, Zhang Qingfeng*, Wang Li, et al. County-level ecological sustainability assessment based on improved ecological footprint model[J].  Transactions of the CSAE , 2011, 27(5): 320-328.

　　Zhang Qingfeng, Wu Faqi, Wang Li, Yuan Lifeng, Zhao Longshan. Application of PCA integrated with CA and GIS in Eco-economic Regionalization of Chinese Loess Plateau [J]. Ecological Economics,  2011,70(6):1051-1056

　　Zhang Qingfeng, Wang Li, Wu Faqi, Yuan Lifeng, Zhao Longshan. Quantitative Evaluation for Coupling Coordinated Development between Ecosystem and Economic System—Case Study of Chinese Loess Plateau. Journal of Urban Planning and Development , 2012, 138(4): 328-334.

　　Wang Li, Zhang Qingfeng, Shao Ming’an, Wang Quanjiu. Rainfall Interception in a Robinia pseudoacacia Forest Stand: Estimates Using Gash’s Analytical Model [J].  Journal of Hydrologic Engineering . 2013, 18: 474-479.

　　Geng Qingling, Wu Pute , Zhang Qingfeng, Zhao Xining, Wang Yubao. Dry/wet climate zoning and delimitation of arid areas of Northwest China based on a data-driven fashion. Journal of Arid Land , 2014, 6(3): 287–299

　　Zhang Qingfeng, Zhao Longshan, Wang Jian, Wu Faqi. Spatiotemporal variability and simulation of tillaged loess microtopography in water erosion [J]. Journal of Soil and Water Conservation ,  2014, 69(4): 343-351

　　Zhang Qingfeng, Wang Jian, Zhao Longshan, Wu Faqi, Zhang  Zhiyi , Allen H. Torbert. Spatial heterogeneity of surface roughness during different erosive stages of tilled loess slopes under a rainfall intensity of 1.5 mm min-1 [J].  Soil & Tillage Research . 2015, 153: 95-103

　　Zhang Huihui, Ta Na, Zhang Qingfeng*. Spatial heterogeneity of loess contour tilled microtopographic slope in rainfall erosion[J]. Soil Science and Plant Nutrition , 2016, 62(5-6): 409-415

　　Zhang Qingfeng, Wang Jian, Wu Faqi. Spatial heterogeneity of surface roughness on tilled loess slopes in erosion stages. Soil & Water Research , 2018, 13: 90−97.

　　Jiang Yun, Zhang Qingfeng*, Zhao Xining, Wang Li, Zhang Xiang. A Geogrid-based framework of Agricultural Zoning for Planning and Management of Water & Land Resources: A Case Study of Northwest Arid Region of China[J]. Ecological Indicators , 2018. 89: 874-879

　　Zhang Li, Zhang Qingfeng*, Zhao Longshan, Wang Jian, Wu Faqi. Spatial Heterogeneity of Surface Roughness in Loess Slope Farmland[J]. Scientia Agricultura Sinica, 2014, 47(12): 2363-2374

　　Zhang Qingfeng, Zhang Xiang, Tian Long. Construction Scheme of Regional Agricultural Land and Water Resources Utilization Zoning Index System——Taking the Arid Region of Northwest China as an Example[J]. Chinese Journal of Agricultural Resources and Regional Planning, 2016,37(9): 117-124

　　Zhang Huihui, Tana, Zhang Hui, Dong Yan, Tian Long, Zhang Qingfeng*. Simulation of Runoff Hydraulic Parameters and Erosion and Sediment Yield in Loess Slope Farmland[J]. Journal of Soil and Water Conservation, 2016,30(5): 112-118

　　Zhang Hui, Dong Yan, Zhang Huihui, Zhang Qingfeng*. Spatial variability of major climate resources in arid northwestern China[J]. Journal of Arid Land Resources and Environment, 2017, 31(8): 129-135

　　Zhang Huihui, Zhang Hui, Dong Yan, Zhang Qingfeng*. Study on the variation of aeolian sediment yield in loess sloping land based on remarking range (R/S) and wavelet analysis[J]. Acta Metall Sinica, 2017, 54(6): 1345-1356

　　Main teaching results

　　Undergraduate/postgraduate courses such as Principles of Geographic Information Systems, Spatial Analysis and Digital Terrestrial Models, and Progress in Land Science and 3S Technology. Among them, "Principles of Geographic Information System" is a bilingual course at the school level, a course taught in English and a course of MOOC. The "Progress in Land Science and 3S Technology" is a brand course for postgraduate English teaching. Presided over the geography knowledge subject competition, guiding 11 college students' science and technology projects; guiding more than 40 undergraduate graduates, 4 postgraduate excellent undergraduate thesis, 1 excellent undergraduate thesis, 20 graduate students, many times National scholarships, outstanding graduate students, outstanding graduates; hosted 5 school-level educational reform projects, proposed "infiltration bilingual education teaching theory system", won the second prize of school-level teaching achievements (ranked 1st); editor-in-chief teaching materials 8 . He was awarded the advanced individual of the summer social practice activities of the students from the colleges and universities in Shaanxi Province, the outstanding guidance teacher of the 2014 college students in social practice of the Northwest A&F University, and the honorary title of the 2016 Excellent Teacher of the Northwest Agriculture and Forestry University.