个人简介

李亚兵，研究员，博士生导师。中国农业科学院棉花研究所栽培室副主任，国家棉花产业技术体系栽培生理岗位科学家，国家棉花产业技术体系栽培与土肥功能研究室主任，中国农科院创新工程轻简化植棉团队首席科学家。现担任中国棉花学会理事，《中国棉花》编委，《棉花科学》编委，塔里木大学“中美棉花产业合作研究中心”副主任，山东省棉花栽培生理重点实验室学术委员会委员。

研究方向

作物栽培理论与技术

主要科研项目

1. 黄河流域棉区棉花化肥农药减施技术集成与示范，国家重点研发计划课题，2017-2020，945万元；

2. 基于光能利用的棉花株型的标准构建与调控机理，国家自然科学基金面上项目，2014-2017，86万元；

3. 华北棉区棉花全程机械化关键技术及其农艺技术研究与示范，行业专项，2014-2016，240万元；

4. 经济作物农机农艺关键技术集成研究与示范，科技部支撑计划，2013-2017，50万元；

5. 现代农业产业技术体系，棉花栽培生理岗位科学家，2020-2024，350万元。

代表性论文(著)

1. Huang, W., Wu, F., Zhang, Z., Meng, Y., Wang, J., Li, Q., Han, Y., Feng, L., Li, X., Wang, G., Lei, Y., Fan, Z., Yang, B., Xiong, S., Xin, M., Li, Y.*, Wang, Z.*, 2023. The nitrogen footprint and reactive nitrogen reduction potential of cotton production in China. J. Clean Prod. 136808.

2. Zhang, S., Han, Y., Wang, G., Feng, L., Lei, Y., Wang, Z., Xiong, S., Yang, B., Du, W., Zhi, X., Xin, M., Jiao, Y., Li, X.*, Li, Y.*, 2023. Long-term assessments of cotton fiber quality in response to plant population density: Reconciling fiber quality and its temporal stability. Ind Crops Prod 198.

3. Zhang, Z., Wang, J., Xiong, S., Huang, W., Li, X., Xin, M., Han, Y., Wang, G., Feng, L., Lei, Y., Yang, B., Li, Y.*, Wang, Z.*, 2023. Orychophragmus violaceus/cotton relay intercropping with reduced N application maintains or improves crop productivity and soil carbon and nitrogen fractions. Field Crops Res. 291, 108807.

4. Han, W., Liu, S., Lei, Y., Zhang, Y., Han, Y., Wang, G., Feng, L., Li, X., Li, Y.*, Wang, Z.*, 2023. Climate warming accelerates cotton growth while cultivar shifts extend the growth period. Field Crops Res. 293, 108850.

5. Guo, X., Zhang, Z., Sun, G., Xiong, S., Han, Y., Wang, G., Li, C., Li, Y.*, Zhang, Y.*, Wang, Z.*, 2023. Relay intercropping cover crop combined with reduced nitrogen application improves subsequent cotton agronomic traits while maintaining yield and quality. Crop Sci.

6. Li, Q., Huang, W., Wang, J., Zhang, Z., Li, Y., Han, Y., Feng, L., Li, X., Yang, B., Wang, G., 2023. Quantitative evaluation of variation and driving factors of the regional water footprint for cotton production in China. Sustainable Production and Consumption 35, 684-696.

7. Wang, Y., Chen, J., Wu, F., Yang, B., Han, Y., Feng, L., Wang, Z., Li, X., Lei, Y., Xiong, S., Wang, G., Zhi, X.*, Li, Y.*, 2023. Optimizing plant type structure to adjust the temporal and spatial distribution of water consumption and promote the growth and yield formation of cotton. Eur. J. Agron. 147.

8. Sultana, F., Dev, W., Xin, M., Han, Y., Feng, L., Lei, Y., Yang, B., Wang, G., Li, X., Wang, Z., Xing, F., Xiong, S., Li, Y.*, 2023. Competition for Light Interception in Different Plant Canopy Characteristics of Diverse Cotton Cultivars. Genes (Basel) 14.

9. An, J., Z.G. Zhang, X.F. Li, F.F. Xing, Y.P. Lei, B.F. Yang, Wang, Z., Han, Y., Chen, H., Wang, G., Feng, L., Du, W., Li, Y.*, 2022. Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception. Arch Agron Soil Sci 920-933.

10. Huang W, Wu F, Han W, Li Q, Han Y, Wang G, Feng L, Li X, Yang B, Lei Y, Fan Z., Xiong, S., Xin, M., Li, Y.*, Wang, Z.*, 2022. Carbon footprint of cotton production in China: Composition, spatiotemporal changes and driving factors. Sci Total Environ 821.

科技奖励及成果评价

1. 基于数量化栽培的轻简化植棉技术及产品研制与示范，2020，河南省人民政府科学技术进步奖二等奖；

2. 中国棉花生产预警监测技术研究与应用，2008，河南省人民政府科学技术进步奖二等奖；

3. 新疆绿洲棉花连作障碍的形成机制及调控关键技术，2019，新疆建设兵团科学技术进步奖一等奖；

4. 南疆农果间作的互作调控技术与应用，2019，新疆维吾尔自治区科学技术进步奖二等奖。