樊经纬 主要从事农业生态学和植物-土壤微生物相互作用研究。理学博士(生态学,兰州大学)、理学学士(生态学、兰州大学)、联合培养博士(西澳大利亚大学)
个人简历
科研&成果
教学情况
论文&专著
更多信息
所在部门: 干旱农业生态研究所
办公室:
联系电话:
传真号码:
电子邮件: fanjw@
个人主页:
学习经历2008-2015年,兰州大学生命科学学院,生态学专业,理学博士 (导师:李凤民教授和Lynette Abbotte教授)
2014-2015年,西澳大利亚大学,土壤生态学专业,联合培养博士(导师:Lynette Abbotte教授)
2004-2008年,兰州大学生命科学学院,生物技术国家级基地班,理学学士
工作经历2020年至今,兰州大学生命科学学院,青年研究员
2016-2020年,兰州大学生命科学学院,师资博士后
社会工作
研究方向草地生态学、土壤生态学
项目成果
荣誉、获奖
教学及指导研究生情况
发表论文及专著Jing-Wei Fan, Xiao-Wei Yang, Tao Wang,Yuan Li, Hong Zhao, Yan-Lei Du*. 2020. Contrasting growth, photosynthesis, antioxidant responses and water use efficiency in two Medicago sativa L. genotypes under different phosphorus and soil water conditions. Agronomy 10, 1534
Jing-Wei Fan*, Zakaria M. Solaiman, Bede S. Mickan, Yan-Lei Du, Feng-Min Li, Lynette K. Abbott.2019. Sequential defoliation impacts on colonisation of root of Lolium rigidum by arbuscular mycorrhizal fungi were primarily determined by root responses. Biology and Fertility of Soils 55. 789-800
Jing-Wei Fan, Yan-Lei Du, Bing-ru Wang, Neil C. Turner, Tao Wang, Lynette K. Abbott, Katia Stefanova, Kadambot H.M. Siddique, Feng-Min Li*. 2016. Forage yield, soil water depletion, shoot nitrogen and phosphorus uptake and concentration of young and old stands of alfalfa in responses to nitrogen and phosphprus fertilisation in a semiarid environment. Field Crops Research 198, 247-257
Jing-Wei Fan, Yan-Lei Du. Neil C. Turner, Bing-Ru Wang. Yan Fang, Yue Xi, Xiao-Ran Guo, Feng-Min Li. 2015. Changes in root morphology and physiology to limited phosphorus and moisture in a locally-selected cultivar and an introduced cultivar of Medicago sativa L. growing in alkaline soil. Plant and Soil 392, 215-226.
Jing-Wei Fan, Yan-Lei Du, Neil C. Turner, Feng-Min Li, Jin He. 2012. Germination characteristics of switchgrass and its seedling establishement with different agricultural practices in the semiarid Loess Plateau of China. Crop Science 52, 2341-2350
Yan-Lei Du, Zhen-Yu Wang, Jing-Wei Fan, Neil C. Turner, Jin He, Tao Wang, Feng-Min Li* 2013. Exogenous abscisic acid reduces water loss and improves antioxidant defense, desiccation tolerance and transpiration efficiency in two spring wheat cultivars subjected to a soil water deficit. Functional Plant Biology 40, 494-506.
Ysn-Lei Du, Zhen-Yu Wang, Jing-Wei Fan, Tao Wang, Feng-Min Li* 2012. β-aminobutyric acid increases abscisic acid accumulation, desiccation tolerance and decreases water use but fails to improve grain yield in two spring wheat cultivars under soil drying.Journal of Experimental Botany63, 4849-4860.
其它信息
