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教授

李凤民

发布人:     发布日期: 2022-04-01    浏览次数:


电子邮件:fmli@njau.edu.cn

个人主页:https://www.researchgate.net/profile/Feng-Min_Li/

李凤民,196210月生于河北省新乐县,南京农业大学农学院教授,主要研究领域为耕作学与农田生态学,农业生态学,作物生态学。

1983年内蒙古大学植物生态学本科,1989年西北植物研究所-西北大学植物生态学专业硕士,1992年华东师范大学生态学专业博士,1994年兰州大学博士后,一直在兰州大学工作至202111月,此后调至南京农业大学农学院。

担任干旱农业生态国家重点实验室副主任(1995-2002),干旱和草地生态教育部重点实验室主任(2005-2011),生命学院副院长(1999-2002, 2006-2008),草地农业生态系统国家重点实验室副主任(2014-2019),2007牵头建立旱寒生态学创新引智基地 (现为2.0)2007-2011旱区农业与生态修复教育部工程研究中心创始期主任;2006教育部特聘教授和国家杰出青年科学基金, 2007教育部创新团队。

建立了以生活史生态学为基础的作物群体抗旱性理论框架,开展小麦育种理论和实践研究。系统研究了旱作农业集水补灌、田间微集水、作物生产力和土壤质量演变关系、以及苜蓿草地与作物轮作等,提出了旱地生态农业理论与技术体系。近年来总结提出深碳农业理念,推进生产生态相融合的现代生态农业发展。

牵头获教育部自然科学一等奖与科技进步二等奖各1项,发展中国家科学院农业科学奖和中国产学研合作创新奖。发表论文380余篇,其中SCI收录250余篇,综合H指数71

兼任第六、七届国务院学位委员会学科评议组成员,教育部第三、四、五届科技委生物学()学部委员,中国生态学会农业生态学专委会副主任,咨询工作委员会副主任,中国环境科学学会生态农业专业委员会副主任。先后任Agron JAgr Ecosyst EnvironField Crop ResAgroecol Sust Food等国外学术期刊和多个国内学术期刊编委会成员。

还担任中国民主促进会第十三、十四届中央委员会委员,第十、十一、十二届甘肃省政协常委等。

 

近期主要发表论文(*通讯作者)

1. Du, Y.-L., Xi, Y., Cui, T., Anten, N. P., Weiner, J., Li, X., Turner, N. C., Zhao, Y.-M., and Li, F.-M*. (2020). Yield components, reproductive al lometry and the tradeoff between grain yield and yield stability in dryland spring wheat. Field Crops Research 257.

2.Gu, Y.-J., Han, C.-L., Fan, J.-W., Shi, X.-P., Kong, M., Shi, X.-Y., Siddique, K. H. M., Zhao, Y.-Y., and Li, F.-M*. (2018a). Alfalfa forage yield, soil water and P availability in response to plastic film mulch and P fertilization in a semiarid environment. Field Crops Research 215, 94-103.

3. Gu, Y.-J., Han, C.-L., Kong, M., Shi, X.-Y., Zdruli, P., and Li, F.-M*. (2018b). Plastic film mulch promotes high alfalfa production with phosphorus-saving and low risk of soil nitrogen loss. Field Crops Research 229, 44-54.

4. Li, F.-M*, Li, X. G., Javaid, M. M., Ashraf, M., and Zhang, F. (2020). Ridge-furrow plastic film mulching farming for sustainable dryland agriculture on the Chinese loess plateau. Agronomy Journal 112, 3284-3294.

5. Wang, D., Xi, Y., Shi, X.-Y., Han, Y.-N., Zhang, N., Ahmad, F., and Li, F.-M*. (2021a). Reduction effects of solar radiation, mechanical tension, and soil burial on phthalate esters concentrations in plastic film and soils. Science of the Total Environment 778.

6. Wang, D., Xi, Y., Shi, X.-Y., Zhong, Y.-J., Guo, C.-L., Han, Y.-N., and Li, F.-M*. (2021b). Effect of plastic film mulching and film residues on phthalate esters concentrations in soil and plants, and its risk assessment. Environmental Pollution 286.

7. Weiner, J., Du, Y.-L., Zhao, Y.-M., and Li, F.-M*. (2021). Allometry and Yield Stability of Cereals. Frontiers in Plant Science 12.

8. Yuan, Z.-Q., Fang, C., Zhang, R., Li, F.-M*, Javaid, M. M., and Janssens, I. A. (2019). Topographic influences on soil properties and aboveground biomass in lucerne-rich vegetation in a semi-arid environment. Geoderma 344, 137-143.

9. Zhang, F., Eldoma, I. M., Li, M., Kong, M., Siddique, K. H. M., and Li, F.-M*. (2019). Integrated model and field experiment to determine the optimum planting density in plastic film mulched rainfed agriculture. Agricultural and Forest Meteorology 268, 331-340.

10. Zhang, F., Zhang, W., Qi, J., and Li, F.-M*. (2018). A regional evaluation of plastic film mulching for improving crop yields on the Loess Plateau of China. Agricultural and Forest Meteorology 248, 458-468.

11. Zhang, L., Qin, R., Chai, N., Wei, H., Yang, Y., Wang, Y., Li, F.-M*, and Zhang, F. (2022a). Optimum fertilizer application rate to ensure yield and decrease greenhouse gas emissions in rain-fed agriculture system of the Loess Plateau. Science of the Total Environment 823.

12. Zhang, L., Qin, R., Wei, H., Zhang, K., Yu, C., Li, F.-M*, and Zhang, F. (2022b). Optimum plastic mulching application to reduce greenhouse gas emissions without compromising on crop yield and farmers' income. Science of the Total Environment 809.

13. Zhang, X.-L., Zhao, Y.-Y., Gao, W.-J., Song, X., Zhang, X.-T., Shi, X.-Y., and Li, F.-M*. (2021). Converting alfalfa pasture into annual cropland achieved high productivity and kept soil organic carbon in a semiarid area. Land Degradation & Development 32, 1478-1486.

14. Zheng, K., Wei, J.-Z., Pei, J.-Y., Cheng, H., Zhang, X.-L., Huang, F.-Q., Li, F.-M*, and Ye, J.-S. (2019). Impacts of climate change and human activities on grassland vegetation variation in the Chinese Loess Plateau. Science of the Total Environment 660, 236-244.

15. Zhu, Y.-H., Weiner, J., Yu, M.-X., and Li, F.-M*. (2019). Evolutionary agroecology: Trends in root architecture during wheat breeding. Evolutionary Applications 12, 733-743.