硕士生导师简介

 

符冠富 专业学科：作物栽培学与耕作学 研究方向：稻作生理生态

 

符冠富（1981年-），副研究员，稻作逆境与调控课题组负责人。本团队主要从事水稻逆境生理及调控技术研究。围绕全球气候变暖背景下，极端灾害气候频繁发生影响水稻生产，危害国家粮食安全的现实问题，开展极端灾害气候预警、灾害损失评估，抗逆水稻品种筛选鉴定，非生物胁迫抗性机理及其调控技术研究。近年来，在Journal of advanced research, Plant cell and environment, Rice等期刊发表论文30余篇，授权发明专利20余项，主持及参与国家重点研发计划项、国家自然科学基金及浙江省自然科学基金重点项目等20余项。

主要研究方向

1.水稻智慧生产决策系统研发及应用。聚焦全球气候变化，融合物联网、大数据与人工智能技术，构建水稻生产全流程监测、智能分析与科学防灾增产决策体系；

2.水稻非生物胁迫抗性机理研究。构建水稻耐热抗旱品种/种质鉴选平台，从糖信号、激素及能量代谢方面阐明高温热害、低温寡照及干旱胁迫等逆境胁迫干扰“源-库-流”关系，限制水稻产量品质形成的生理生态机制；

3.绿色靶向新型化学调控物质的研发。基于能量代谢理论，研发能改善水稻植株能量状态，协同提高产量品质及抗逆性的肽类激素、碳点纳米材料等新型化学调控物质及其高效生产工艺。

主持及参与项目

1.国家重点研发计划项目：“南方水稻品质提升与丰产增效技术研发及集成示范”子课题（2023-2025年）

2.国家重点研发计划项目：“东北黑土区稻田地力保育与水资源高效利用的机械化栽培技术”子课题（2022-2026年）

3.国家重点研发计划项目：“多年生稻品种鉴选及耕作栽培技术研发及应用”子课题（2023-2027）

4.国家自然科学基金青年基金项目：“高质量水稻群体产量品质形成机理研究及利用”（2024-2026）

5.浙江省自然科学基金重点项目：“高温下水稻花粉管伸长受阻的能量代谢调控机制”（2023-2025）

6.浙江省自然科学基金重点项目：“旱作水稻产量品质协同形成障碍的能量代谢调控机制”（2024-2026）

发表论文

1.Li HB, Xu YQ, Lin J, Feng BH, Zhu AK, Zhao X, Wang DY, Zeng YX, Yang HN, Wang SM, Fu GF. Acetate prevents pistil dysfunction in rice under heat stress by inducing methyl jasmonate and quercetin synthesis. Journal of Advanced Research. 2025. https://doi.org/10.1016/j.jare.2025.02.015.

2.Li GY, Wang HR, Li HB, Feng BH, Fu WM, Ma JY, Li JC, Wu ZH, Islam MR, Chen TT, Zhang HC, Wei HY, Tao LX, Fu GF. GRAIN SIZE ON CHROMOSOME 2 orchestrates phytohormone, sugar signaling and energy metabolism to confer thermal resistance in rice. Physiologia Plantarum, 2025b, 177(1), p.e70113.

3.Lu TT, Li GY, Ma JY, Huang HZ, Fu WM, Chen TTT, Wang WT, Zeng YX, Chen MJ, Fu GF, Feng BH ATP utilization efficiency plays a key role in determining rice quality under high-temperature conditions. Plant Physiology and Biochemistry, 2025. doi: 10.1016/j.plaphy.2025.109582.

4.许用强，姜宁，奉保华，肖晶晶，陶龙兴，符冠富. 水稻开花期高温热害响应机理及其调控技术研究进展. 中国水稻科学，2024a，(02)：111-126.

5.许用强，徐军，奉保华，肖晶晶，王丹英，曾宇翔，符冠富. 水稻花粉管生长及其对非生物逆境胁迫的响应机理研究进展. 中国水稻科学, 2024b，(05)：495-506.

6.Wen FT, Gao Yu, Zeng YX, Li GY, Feng BH, Li HB, Chen TT, Wang DY, Tao LX, Xiong J, Fu GF. MiR408 balances plant growth and heat response in rice. Environmental and Experimental Botany. 2024; 221: 105717

7.Li HB, Feng BH, Li JC, Fu WM, Wang WT, Chen TT, Liu LM, Wu ZH, Peng SB, Tao LX, Fu GF. RGA1 alleviates low-light-repressed pollen tube elongation by improving the metabolism and allocation of sugars and energy. Plant Cell and Environment. 2023; 46(4):1363-1383.

8.Feng BH, Xu YQ, Fu WM, Li HB, Li GY, Li JC, Wang WT, Tao LX, Chen TT. Fu GF. RGA1 negatively regulates thermo-tolerance by affecting carbohydrate metabolism and the energy supply in rice. Rice. 2023, 16(1), 32.

9.Ma JY, Chen TT, Lin JC, Fu WM, Feng BH, Li GY, Li HB, Li JC, Wu ZH, Tao LX, Fu GF. Functions of nitrogen, phosphorus and potassium in energy status and their influences on rice growth and development. Rice Science. 2022; 29(2):166-178.

10.Jiang N, Yu PH, Fu WM, Li GY, Feng BH, Chen TT, Li HB, Tao LX, Fu GF. Acid invertase confers heat tolerance in rice plants by maintaining energy homoeostasis of spikelets. Plant Cell and Environment. 2020; 43(5):1273–1287.

11.Li GY, Zhang CX, Zhang GH, Fu WM, Feng BH, Chen TT, Peng SB, Tao LX, Fu GF. Abscisic acid negatively modulates heat tolerance in rolled leaf rice by increasing leaf temperature and regulating energy homeostasis. Rice. 2020; 13(1):18.

12.Yu PH, Jiang N, Fu WM, Zheng GJ, Li GY, Feng BH, Chen TT, Ma JY, Li HB, Tao LX, Fu GF. ATP hydrolysis determines cold tolerance by regulating available energy for glutathione synthesis in rice seedling plants. Rice. 2020; 13(1):23. 

13.Chen TT, Li GY, Islam MR, Fu WM, Feng BH, Tao LX, Fu GF. Abscisic acid synergizes with sucrose to enhance grain yield and quality of rice by improving the source-sink relationship. BMC Plant Biology. 2019; 19(1):525. 

14.Islam MR, Feng BH, Chen TT, Fu WM, Zhang CX, Tao LX, Fu GF. Abscisic acid prevents pollen abortion under high-temperature stress by mediating sugar metabolism in rice spikelets. Physiologia Plantarum. 2019; 165(1):644-663. 

15.Zhang CX, Li GY, Chen TT, Feng BH, Fu WM, Yan JX, Islam MR, Jin QY, Tao LX, Fu GF. Heat stress induces spikelet sterility in rice at anthesis through inhibition of pollen tube elongation interfering with auxin homeostasis in pollinated pistils. Rice. 2018a; 11(1):14. 

16.Feng BH, Zhang CX, Chen TT, Zhang XF, Tao LX, Fu GF. Salicylic acid reverses pollen abortion of rice caused by heat stress. BMC Plant Biology. 2018; 18(1):245. 

17.Zhang CX, Feng BH, Chen TT, Fu WM, Li HB, Li GY, Jin QY, Tao LX, Fu GF. Heat stress-reduced kernel weight in rice at anthesis is associated with impaired source-sink relationship and sugars allocation. Environmental and Experimental Botany. 2018b; 155(1):718-733.

 

通讯地址：浙江省杭州市富阳区水稻所路28号 中国水稻研究所 311400

电　　话：0571-63370264

电子邮箱：fugf1981@sina.com，fuguanfu@caas.cn

 

（内容更新于2025年12月20日）