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本实验室以作物光合与产量生理、营养生理、环境生理、激素生理及生长模拟为理论基础,围绕作物栽培生理及生长调控原理开展应用基础及高新技术研究,为农作物高产高效持续生产提供理论、方法、技术与新产品。实验室涵盖南京农业大学的植物生理学、作物营养与施肥学、作物栽培学与耕作学3个学科,设有1个博士后流动站、3个博土学位点。其中,植物生理学和作物栽培学与耕作学为农业部重点学科。实验室内设有3个校级研究室:植物生理研究室,作物营养研究室,作物生态研究室。实验室现有研究人员32人,其中,教授11人(其中博士生导师9人),副教授13人,讲师8人。博士学位获得者8人,硕士学位获得者9人,国家教委跨世纪优秀人才1人,作出突出贡献的中国博士学位获得者1人,霍英东基金会青年教师奖1人,另有8人出国攻读博士学位。 实验室主任:曹卫星教授,副主任:沈其荣教授;实验室学术委员会主任:张荣铣教授。 本室主要研究成果:(1)作物光合作用与产量生理:包括主要农作物光合特性的调节与控制,小麦光合生理特性的基因型变异,作物光合功能衰退,棉花高产优质成铃规律与调控。其中,有关小麦光合叶源量及光合功能可逆衰退与不可逆衰退的生理生化调节机制研究被列入“当代科学技术前沿百科全书”。(2)作物营养与调控:养分?
Based on the theory of crop photosynthesis and yield physiology, nutrition physiology, environmental physiology, hormone physiology and growth simulation, this lab conducts basic and high-tech research on the principles of crop cultivation physiology and growth regulation to provide theory, Methods, technologies and new products. Laboratory covers Nanjing Agricultural University, plant physiology, crop nutrition and fertilization, crop cultivation and farming three disciplines, with a post-doctoral station, three Bo soil sites. Among them, plant physiology and crop cultivation and farming are the key disciplines of the Ministry of Agriculture. Laboratory has three school-level laboratory: plant physiology laboratory, crop nutrition laboratory, crop ecology laboratory. The existing laboratory staff of 32 people, including 11 professors (including 9 doctoral tutors), 13 associate professors, 8 lecturers. 8 doctoral degree winners, 9 master’s degree winners, 1 state excellent person of cross-century of the State Education Commission, 1 Chinese Ph.D. candidate who made outstanding contributions, 1 Fok Young Tung Foundation Young Teacher Award and 8 other people to study abroad PhD. Laboratory director: Professor Cao Weixing, deputy director: Professor Shen Qirong; Laboratory Academic Committee: Professor Zhang Rong milling. The main research results are as follows: (1) Crop photosynthesis and yield physiology: including regulation and control of photosynthetic characteristics of main crops, genotypic variation of photosynthetic physiological characteristics of wheat, decline of photosynthetic function of crops, regulation and regulation of high yielding and quality cotton bolls. Among them, the physiological and biochemical regulatory mechanisms related to reversible and irreversible recession of photosynthetic photosynthetic capacity in wheat are listed in the Encyclopedia of Contemporary Science and Technology. (2) crop nutrition and regulation: nutrients?