康健

康健，男，1990年11月出生，哲学博士，中国农业大学水利与土木工程学院副教授。2012年6月毕业于武汉大学生物学专业基地班，获理学学士学位。2019年7月毕业于美国密苏里大学植物、昆虫、微生物学专业，获哲学博士学位。2019年10月至2022年10月在美国密苏里大学从事博士后研究。2022年11月至2023年5月在中国农业大学水利与土木工程学院访问交流。2023年5月以引进“优秀人才”入职中国农业大学。从事以根系为主要研究对象的作物表型性状、抗氧化机制、代谢机制、遗传机制在不同干旱胁迫下的变化规律及调控的研究。主持国家自然科学基金面上项目“玉米根系表型响应水分亏缺的监测模拟与高水效靶向调控机制研究”（No. 52579052，51万元）、青年科学基金项目（C类）“棉花根系响应干旱胁迫的多组学驱动机制及表型调控”（No. 52309067，30万元）、“十四五”国家重点研发计划项目子课题“主要粮经作物生物多组学水平的高水效响应特征”（No. 2023YFD2301102，180万元），作为骨干成员完成了美国国家科学基金植物基因组研究项目（National Science Foundation, Plant Genome Research Program）“Physiological genomics of maize nodal root growth under drought”（No.1444448，400万美元），作为主要执行人完成了美国棉花联合会农业研究项目(Cotton Incorporated, Agricultural Research Program)“Improvement of drought tolerance in cotton–understanding root growth responses to water deficit stress”（No. 13-472，45万美元），另参加国家其它部委和事业单位委托科研项目3项。在《Agricultural Water Management》、《Field Crops Research》、《Frontiers in Plant Science》、《Environmental and Experimental Botany》等本领域国际重要期刊以第一或通讯作者发表多篇SCI论文，发表的论文被《Nature Communications》、《The Plant Cell》、《Plant, Cell & Environment》、《PNAS nexus》等国际著名期刊引用。参编高等学校农业水利工程专业核心课程教材《农业水利学》第三章。获国家发明专利3件。参加完成的“西北旱区典型作物节水抑盐机理与协同调控技术”与“覆膜滴灌节水增效新理论、技术与推广应用”成果均获全国农业节水科技奖一等奖（均为第5完成人）。先后参加“中国植物生理与分子生物学学会(CSPB) 学术年会”、“亚洲大洋洲地球科学学会（AOGS）”、“美国植物生物学会 (ASPB) 学术年会”、“Crops PSI Group Webinar美国中部高校植物学博士后线上联合研讨比赛”等10余次国际国内学术会议，并作口头报告和墙报展示。获2020年度美国中部高校植物学联合研讨比赛第三名，第七届全国高校混合式教学设计创新大赛三等奖。受邀担任《植物学报》青年编委，《Plant Physiology》、《Journal of Experimental Botany》、《Frontiers in Plant Science》等期刊审稿人。

《植物学报》青年编委

（1）作物水分逆境生理

（2）作物表型监测与诊断

（3）作物逆境响应多组学机制

（4）作物根区水分-微生物互作机制

研究生课程：近十年课程数据

纵向项目 横向项目

论文题目	刊物名称	收录类别	发表年月	第一作者或全部作者	第一作者单位	排名
The proliferation of maize deep root systems is beneficial for enhancing the water use efficiency of the maize-soybean intercropping system	Field Crops Research	SCI	2026	Shiming Duan, Xiangyu Li, Jian Kang, Xiuwei Liu, Shichao Chen, Bin Du, Taisheng Du	中国农业大学	3/7(通讯作者)
Subsoiling increases soil carbon and wheat yields by altering the deep soil and the hydrolase to oxidase ratio under saline water irrigation	Agricultural Water Management	SCI/EI	2026	Fengli Jiao, Zhiduo Dong, Jingxiang Hou, Jia Gao, Xinlong Li, Shaozhong Kang, Taisheng Du, Ling Tong, Jian Kang, Wanli Xu, Guangmu Tang, Risheng Ding	中国农业大学	9/12
Wheat water productivity under saline irrigation in Northern China: a meta-analysis of effects and management practices	Frontiers in Plant Science	SCI	2026	Xiaohe Jiang, Heli Cao, Ruopu Wang, Xinlong Li, Taisheng Du, Ling Tong, Jian Kang, Jia Gao, Risheng Ding	中国农业大学	7/9
Alleviating drought and heat stress: a root-canopy coordination irrigation strategy synergistically elevating grapevine yield, quality, and water productivity	Agricultural and Forest Meteorology	SCI	2026	Yudong Chen, Jinliang Chen, Jian Kang, Taisheng Du, Risheng Ding, Zhanwu Dai, Junhua Kong, Zhijie Li, Shaozhong Kang	中国农业大学	3/9
Crop root system phenotyping with high water-use efficiency and its targeted precision regulation: Present and prospect	Agricultural Water Management	SCI/EI	2025	Jian Kang, Risheng Ding, Jinliang Chen, Siyu Wu, Weichen Gao, Zilu Wen, Ling Tong, Taisheng Du	中国农业大学	1/8
Trends in rhizosheath research: Formation, functions and methods	Environmental and Experimental Botany	SCI	2025	Yinan Huang, Moxian Chen, Junhao Xu, Menglei Zhang, Jianhua Zhang, Mehtab Muhammad Aslam, Jian Kang, Tianming Hu, Tie-Yuan Liu	西北农林科技大学	7/9(通讯作者)
Developing high water use efficiency agriculture in China toward food security (Ⅰ): Definition, characteristics, current challenges and advancements	Advances in Agronomy	专著	2025	Jian Kang, Risheng Ding, Sufen Wang, Ling Tong, Jinliang Chen, Hongna Lu, Taisheng Du, Shaozhong Kang	中国农业大学	1/8
White film cover improves water productivity and reduces carbon emissions of spring wheat farmland in the arid region of Northwest China	Agricultural Water Management	SCI/EI	2025	Fengli Jiao, Xianqi Wang, Jia Gao, Zhiduo Dong, Xinlong Li, Shaozhong Kang, Taisheng Du, Ling Tong, Jian Kang, Wanli Xu, Guangmu Tang, Risheng Ding	中国农业大学	9/12
Agronomic measures improve crop yield and water and nitrogen use efficiency under brackish water irrigation: A global meta-analysis	Agricultural Systems	SCI	2025	Ruopu Wang, Heli Cao, Shaozhong Kang, Taisheng Du, Ling Tong, Jian Kang, Jia Gao, Risheng Ding	中国农业大学	6/8
Composite microbial agent improves cotton yield and resource use efficiency under mild salt stress by optimizing plant resource allocation	Agricultural Water Management	SCI/EI	2025	Xiao Zhao, Panpan Guo, Xiong Wu, Meng Zhu, Shaozhong Kang, Taisheng Du, Jian Kang, Jinliang Chen, Ling Tong, Risheng Ding, Wanli Xu, Guangmu Tang	中国农业大学	7/12
Grain yield and water productivity of maize under deficit irrigation and salt stress: Evidences from field experiment and literatures	Agricultural Water Management	SCI/EI	2025	Jia Gao, Lin Li, Risheng Ding, Shaozhong Kang, Taisheng Du, Ling Tong, Jian Kang, Wanli Xu, Guangmu Tang	中国农业大学	7/9
Quantifying the differences in the effects of management practices on maize yield and water use efficiency in the North China Plain and Northwest China: A meta-analysis	Field Crops Research	SCI	2025	Boyue Zhang, Ziyi Yang, Ruopu Wang, Shaozhong Kang, Taisheng Du, Ling Tong, Jian Kang, Jia Gao, Risheng Ding	中国农业大学	7/9
Trade-Offs Between Hydraulic Efficiency and Safety in Cotton (Gossypium hirsutum L.) Stems Under Elevated CO2 and Salt Stress	Plants	SCI	2025	Qing Zhao, Jinliang Chen, Jian Kang, Shaozhong Kang	中国农业大学	3/4
Multi-growth stage regulated deficit irrigation improves maize water productivity in an arid region of China	Agricultural Water Management	SCI/EI	2024	Fengli Jiao, Risheng Ding, Taisheng Du, Jian Kang, Ling Tong, Jia Gao, Jie Shao	中国农业大学	4/7
A new 3D vision-based leaf rolling index (LRI) and its application as a stable indicator of cotton drought stress	Agricultural Water Management	SCI/EI	2024	Hangxing Huang, Jian Kang, Jinliang Chen, Risheng Ding, Hongna Lu, Siyu Wu, Shaozhong Kang	中国农业大学	2/7
Reinforcement learning-based assimilation of the WOFOST crop model	Smart Agricultural Technology	ESCI	2024	Haochong Chen, Xiangning Yuan, Jian Kang, Danni Yang, Tianyi Yang, Xiang Ao, Sien Li	中国农业大学	3/7
Optimizing cotton growth in saline soil: Compound microbial agent modulates indigenous bacteria to enhance photosynthesis and vegetative-reproductive balance	Industrial Crops and Products	SCI/EI	2024	Xiao Zhao, Panpan Guo, Xiong Wu, Meng Zhu, Shaozhong Kang, Taisheng Du, Jian Kang, Jinliang Chen, Ling Tong, Risheng Ding	中国农业大学	7/10
Comparative transcriptomics reveal metabolic rather than genetic control of divergent antioxidant metabolism in the primary root elongation zone of water-stressed cotton and maize.	Antioxidants	SCI	2023	Jian Kang, Sidharth Sen, Melvin J. Oliver, Robert E. Sharp	University of Missouri	1/4
Crop root responses to drought stress: molecular mechanisms, nutrient regulations, and interactions with microorganisms in the rhizosphere.	International Journal of Molecular Sciences	SCI	2022	Jian Kang, Yunfeng Peng, Weifeng Xu	University of Missouri	1/3(通讯作者)
Antioxidant metabolism underlies different metabolic strategies for primary root growth maintenance under water stress in cotton and maize.	Antioxidants	SCI	2022	Jian Kang, Priyamvada Voothuluru, Elizabeth Hoyos-Miernyk, Danny Alexander, Melvin J. Oliver, Robert E. Sharp	University of Missouri	1/6
Responses of root system architecture to water stress at multiple levels: A meta-analysis of trials under controlled conditions.	Frontiers in Plant Science	SCI	2022	Xinyue Kou, Weihua Han, Jian Kang	中国农业科学院	3/3(通讯作者)
An integrated strategy for improving water use efficiency by understanding physiological mechanisms of crops responding to water deficit: Present and prospect.	Agricultural Water Management	SCI/EI	2021	Jian Kang, Xinmei Hao, Huiping Zhou, Risheng Ding	University of Missouri	1/4

软件著作 专利