Wenqing Chen

　　 　　

　　Wenqing Chen, Ph D, Associate Professor

　　E-mail: chen_wq@nwsuaf.edu.cn

　　Education:

　　2006/09-2010/07 Department of Grassland Science, College of Natural Resources and Environment, Shandong Agricultural University, BS.

　　2010/09-2015/07 Department of Grassland Science, College of Animal Science and Technology, China Agricultural University, Ph.D.

　　Work Experience:

　　2015/07-2018/01  Lecturer, Department of Grassland Science, College of Animal Science and Technology, Northwest A&F University

　　2018/02-2018/08  Associate Professor, Department of Grassland Science, College of Animal Science and Technology, Northwest A&F University

　　2018/09-       Associate Professor, Department of Grassland Science, College of Grassland Agriculture, Northwest A&F University

　　Research Interests:

　　Research Interests: Grassland Ecology and Management; Fungal Ecology.

　　Teaching Courses:

　　Grassland Management Science;  Weed Science.

　　Grants:

　　Project director:

　　[1] National Natural Science Foundation of China (31802127), 2019/01-2021/12.

　　[2] National Natural Science Foundation of Shaanxi province (2018JQ3015), 2018/01-2019/12.

　　[3] China Postdoctoral Science Foundation (2016M602879), 2017/01-2018/12.

　　[4] The Fundamental Research Funds for the Central Universities (2452017084), 2017/01-2018/12

　　[5] Ph.D Research Start-up Foundation of Northwest A&F University (2452015275), 2015/09-2018/12.

　　[6] Programs Foundation for Incoming Postdoctoral faculty of Shaanxi Province (A279021834).

　　Project participants:

　　[1] National Natural Science Foundation of China (31802127), 2015/01-2018/12.

　　Professional Memberships:

　　[1] Member of Chinese Grassland Society

　　Publications:

　　Peer-reviewed journal articles:

　　[1] Wenqing Chen*, Ran Xu, Jun Chen, Xianping Yuan, Lei Zhou, Tianyuan Tan, Jinrui Fan, Yingjun Zhang*, Tianming Hu*, Consistent responses of surface- and subsurface soil fungal diversity to N enrichment are mediated differently by acidification and plant community in a semi-arid grassland, Soil Biology & Biochemistry, 2018, 127:110-119 (Top Journal)

　　[2] Wenqing Chen*, Ran Xu, Yuntao Wu, Jun Chen, Yingjun Zhang, Tianming Hu*, Xianping Yuan, Lei Zhou, Tianyuan Tan, Jinrui Fan, Plant diversity is coupled with beta not alpha diversity of soil fungal communities following N enrichment in a semi-arid grassland, Soil Biology & Biochemistry, 2018,116:388-398 (Top Journal)

　　[3] Wenqing Chen*, Ran Xu, Tianming Hu, Jun Chen,Yingjun Zhang, Xinlong Cao, Di Wu, Yuntao Wu, Yue Shen, Soil-mediated effects of acidification as the major driver of species loss following N enrichment in a semi-arid grassland, Plant and soil, 2017, 419(1):541-556 (Top Journal)

　　[4] Wenqing Chen*, Yingjun Zhang, Xiaohu Mai, YueShen, Multiple mechanisms contributed to the reduced stability of Inner Mongolia grassland ecosystem following nitrogen enrichment, Plant and soil, 2016, 409(1):283-296 (Top Journal)

　　[5] Wenqing Chen, Ding Huang, Nan Liu, Yingjun Zhang*, Warwick B. Badgery,Xiaoya Wang, YueShen, Improved grazing management may increase soil carbon sequestration in temperate steppe, Scientific Reports, 2015, 5:10892

　　[6] Wenqing Chen, Xiaoya Wang, Yingjun Zhang*, Ding Huang, Effects of the vertical and horizontal availability of food resources: the diet selection of sheep grazing on natural grassland, Journal of Agricultural Science, 2014, 153(2): 322-334

　　[7] 陈文青, 张英俊*, 天然羊草草地绵羊采食的季节变化, 草业科学, 2012, 30(2): 266 ~273

　　[8] Yanping Guo, Hao Zhang, Wenqing Chen, Yingjun Zhang*, Herbivore-Diet Analysis Based on Illumina MiSeq Sequencing: The Potential Use of an ITS2-Barcoding Approach to Establish Qualitative and Quantitative Predictions of Diet Composition of Mongolian Sheep, Journal of Agricultural and Food Chemistry, 2018, 66, 9858-9867.

　　[9] Yue Shen, Xin Yang, Xiao Sun, Wenqing Chen, Gaowen Yang, Nan Liu, Jishan Chen, Yingjun Zhang *, Increased precipitation modulates the influence of nitrogen and litter inputs on the nutrient resorption proficiency rather than efficiency of Leymus   chinensis , Plant Ecology, doi.org/10.1007/s11258-017-0790-2

　　[10] Yue Shen , Wenqing Chen, Gaowen Yang, Xin Yang, Nan Liu, Xiao Sun, Jishan Chen, Yingjun Zhang *, Can litter addition mediate plant productivity responses to increased precipitation and nitrogen deposition in a typical steppe? Ecological research, 2016, 31:579-587

　　[11] Yingjun Zhang*, Ding Huang, Warwick B. Badgery, David R. Kemp, Wenqing Chen, Xiaoya Wang, Nan Liu, Reduced grazing pressure delivers production and environmental benefits for the typical steppe of north China, Scientific Reports, 2015,5: 16434

　　[12] Xiaoya Wang, Ding Huang, Yingjun Zhang*, Wenqing Chen, Chengjie Wang, Wei Luo, Dynamic changes of CH4 and CO2 emission from grazing sheep urine and dung patches in typical steppe, Atmospheric Environment, 2013, 79: 576-581

　　[13] Wenjun Zhang, Yingjun Zhang*, Juanjuan Sun, Wenqing Chen, Gaowen Yang, Clonal integration for the L. chinensis  in a heterogeneous alkaline stress environment. Journal of animal and veterinary Advances, 2012, 11(20): 3796-3799

　　Patent:

　　[1] China. Patent No. CN201510109014.1–A new method for estimating sheep diets intake. Issued 2015.10.