姓名:邓飞
职称:副教授
学历:博士研究生
专业:作物栽培学与耕作学
师资类型:教学科研系列
招生专业:作物栽培学与耕作学(科硕)、农艺与种业(专硕)
邮箱:ddf273634096@163.com
电话:18782967582
主研方向:主要开展水稻弱光逆境生理与栽培调控技术研究。
(1)水稻弱光逆境生理研究。研究聚焦颖花结实与籽粒淀粉积累等水稻产量与品质形成的关键环节,从基因调控、生理代谢和表型特征等维度系统解析弱光逆境对水稻产量和品质的影响机制。
(2)弱光稻区高光效栽培调控技术。针对西南稻区典型的弱光寡照气候特点,研究肥料运筹、田间配置等栽培措施对水稻冠层结构、群体质量等的调控效机制,构建弱光条件下水稻优质高产高效栽培技术理论体系。先后主持国家自然科学基金(面上、青年项目)、重点研发计划子课题等省部级项目9项。累计发表学术论文近60篇。其中,以第一作者在《Field Crops Research》《Agricultural and Forest Meteorology》《Food Hydrocolloids》《作物学报》《中国农业科学》等国内外期刊发表论文近20篇。主研全国和四川省农业主推技术各1项,制定地方标准1项,参编学术专著1部,授权专利5项,获省部级科技进步三等奖1项,获2017年中国作物学会优秀博士论文奖。
教育背景:
2013.09—2016.06 澳门新葡平台网址8883作物栽培学与耕作学专业,农学博士
2010.09—2013.06 澳门新葡平台网址8883作物栽培学与耕作学专业,农学硕士
2006.09—2010.06 澳门新葡平台网址8883农学专业,农学学士
工作经历:
2022.12至今 澳门新葡平台网址8883,澳门新葡平台网址8883,副教授,硕士研究生导师
2020.01—2022.12 澳门新葡平台网址8883,澳门新葡平台网址8883,讲师,硕士研究生导师
2016.07—2019.12 澳门新葡平台网址8883,新农村发展研究院,讲师,硕士研究生导师
部分参与项目:
弱光胁迫下脱落酸介导籽粒蔗糖卸载调控稻米垩白形成的生理机制,国家自然科学基金面上项目(国家自然科学基金委),在研,主持。
优质丰产协同的健康群体塑造理论与途径,国家重点研发计划子课题(科学技术部),在研,主持。
弱光抑制籽粒淀粉合成提高稻米垩白的生理生化机制研究,青年科学基金项目(国家自然科学基金委),结题,主持。
弱光胁迫抑制水稻受精结实的生理生化机制研究,四川省科技厅项目,在研,主持。
弱光胁迫下水稻花药(粉)发育特征解析,西南作物基因资源发掘与利用国家重点实验室“生物育种”揭榜挂帅项目,在研,主持。
稻田温室气体排放对气候变化的响应机制及减排栽培途径,国家重点研发计划子课题(科学技术部),结题,主持。
四川省水稻提质高效集成技术推广应用,四川省农业厅项目,结题,主持。
四川盆地弱光条件下水稻品质产量形成与栽培调控机理研究,科学基金联合基金项目(国家自然科学基金委),在研,主研。
聚天门冬氨酸(PASP)促进水稻氮素吸收利用的机理研究,科学基金面上项目(国家自然科学基金委),结题,主研。
部分发表论文:
Deng, F., Lu, H., Yuan, Y., Chen, H., Li, Q., Wang, L., Tao, Y., Zhou, W., Cheng, H., Chen, Y., Lei, X., Li, G., Li, M., Ren, W., 2023. Accurate prediction of the eating and cooking quality of rice using artificial neural networks and the texture properties of cooked rice. Food Chemistry 407, 135176.(中科院分区1区TOP)
Deng, F., He, L.H., Chen, D., Zhang, C., Tian, Q.L., Wu, Z.Y., Li, Q.P., Zeng, Y.L., Zhong, X.Y., Chen, H., Wang, L., Ren, W.J., 2022. Growth characteristics and grain yield of machine-transplanted medium indica hybrid rice with high daily yield. Journal of Integrative Agriculture 21, 2547-2558.(中科院分区1区TOP)
Deng, F., Li, B., Yuan, Y.J., He, C.Y., Zhou, X., Li, Q.P., Zhu, Y.Y., Huang, X.F., He, Y.X., Ai, X.F., Tao, Y.F., Zhou, W., Wang, L., Cheng, H., Chen, Y., Wang, M.T., Ren, W.J., 2022. Increasing the number of seedlings per hill with reduced number of hills improves rice grain quality by optimizing canopy structure and light utilization under shading stress. Field Crops Research 287, 108668.(中科院分区1区TOP)
Deng, F., Zhang, C., He, L.H., Liao, S., Li, Q.P., Li, B., Zhu, S.L., Gao, Y.T., Tao, Y.F., Zhou, W., Lei, X.L., Wang, L., Hu, J.F., Chen, Y., Ren, W.J., 2022. Delayed sowing date improves the quality of mechanically transplanted rice by optimizing temperature conditions during growth season. Field Crops Research 281, 108493.(中科院分区1区TOP)
Deng, F., Zeng, Y.L., Li, Q.P., He, C.Y., Li, B., Zhu, Y.Y., Zhou, X., Yang, F., Zhong, X.Y., Wang, L., Chen, H., Zhou, W., Ren, W.J., 2021. Decreased anther dehiscence contributes to a lower fertilization rate of rice subjected to shading stress. Field Crops Research 273, 108291.(中科院分区1区TOP)
Deng, F., Li, Q.P., Chen, H., Zeng, Y.L., Li, B., Zhong, X.Y., Wang, L., Ren, W.J., 2021. Relationship between chalkiness and the structural and thermal properties of rice starch after shading during grain-filling stage. Carbohydrate Polymers 252, 117212.(中科院分区1区TOP)
Deng, F., Wang, L., Pu, S.L., Mei, X.F., Li, S.X., Li, Q.P., Ren, W.J., 2018. Shading stress increases chalkiness by postponing caryopsis development and disturbing starch characteristics of rice grains. Agricultural and Forest Meteorology 263, 49-58.(中科院分区1区TOP)
Deng, F., Yang, F., Li, Q.P., Zeng, Y.L., Li, B., Zhong, X.Y., Lu, H., Wang, L., Chen, H., Chen, Y., Ren, W.J., 2021. Differences in starch structural and physicochemical properties and texture characteristics of cooked rice between the main crop and ratoon rice. Food Hydrocolloids 116, 106643.(中科院分区1区TOP)
Deng, F., Li, W., Wang, L., Hu, H., Liao, S., Pu, S.L., Tao, Y.F., Li, G.H., Ren, W.J., 2021. Effect of controlled-release fertilizers on leaf characteristics, grain yield, and nitrogen use efficiency of machine-transplanted rice in southwest China. Archives of Agronomy and Soil Science 67, 1739-1753.
Deng, F., Wang, L., Li, Q.P., Ren, W.J., 2018. Relationship between nitrogen accumulation and nitrogen use efficiency of rice under different urea types and management methods. Archives of Agronomy and Soil Science 64, 1278-1289.
Deng, F., Wang, L., Mei, X.F., Li, S.X., Pu, S.L., Ren, W.J., 2017. Morphological and physiological characteristics of rice leaves in response to PASP-urea and optimized nitrogen management. Archives of Agronomy and Soil Science 63, 1582-1596.
Deng, F., Wang, L., Mei, X.F., Li, S.X., Pu, S.L., Ren, W.J., 2016. Polyaspartate urea and nitrogen management affect nonstructural carbohydrates and yield of rice. Crop Science 56, 3272-3285.
Deng, F., Wang, L., Ren, W.J., Mei, X.F., Li, S.X., 2015. Optimized nitrogen managements and polyaspartic acid urea improved dry matter production and yield of indica hybrid rice. Soil and Tillage Research 145, 1-9.
Deng, F., Wang, L., Ren, W.J., Mei, X.F., 2014. Enhancing nitrogen utilization and soil nitrogen balance in paddy fields by optimizing nitrogen management and using polyaspartic acid urea. Field Crops Research 169, 30-38.
邓飞,何连华,陈多,田青兰,李秋萍,曾玉玲,李博,陈虹,王丽,任万军, 2021.不同日产量类型机插杂交籼稻的氮素吸收利用特性.中国农业科学54, 1469-1481.
邓飞,王丽,刘利,刘代银,任万军,杨文钰, 2012.不同生态条件下栽培方式对水稻干物质生产和产量的影响.作物学报38, 1930-1942.
邓飞,王丽,任万军,刘代银,杨文钰, 2012.不同生态条件下栽植方式对中籼迟熟杂交稻组合ii优498氮素积累与分配的影响.中国农业科学45, 4310-4325.
邓飞,王丽,叶德成,任万军,杨文钰, 2012.生态条件及栽培方式对稻米rva谱特性及蛋白质含量的影响.作物学报38, 717-724.
邓飞,王丽,姚雄,王建军,任万军,杨文钰, 2009.不同生育阶段遮阴对水稻籽粒充实和产量的影响.澳门新葡平台网址8883学报27, 265-269.
Li, Q.P., Deng, F.(共一,通讯), Zeng, Y.L., Li, B., He, C.Y., Zhu, Y.Y., Zhou, X., Zhang, Z.N., Wang, L., Tao, Y.F., Zhang, Y., Zhou, W., Cheng, H., Chen, Y., Lei, X.L., Ren, W.U., 2022. Low light stress increases chalkiness by disturbing starch synthesis and grain filling of rice. International Journal of Molecular Sciences 23, 9153.(中科院分区2区TOP)
Li, Z.Z., Deng, F.(共一), Zhang, C., Zhu, L., He, L.H., Zhou, T., Lu, H., Zhu, S.L., Zeng, Y.L., Zhong, X.Y., Zhou, W., Chen, Y., Ren, W.J., Hu, J.F., 2022. Can ‘relative culm wall thickness’ be used to evaluate the lodging resistance of rice? Archives of Agronomy and Soil Science, 1-14.
Zeng, Y.L., Li, Q.P., Chen, H., Li, B., Zhong, X.Y., Li, Z.Z., Lu, H., Wang, L., Ren, W.J., Deng, F.(通讯), 2021. Shading stress after heading enhances the remobilization of nonstructural carbohydrates in rice under different ecological conditions. Chilean Journal of Agricultural Research 81, 300-309.
Zhong, X.Y., Li, Q.P., Yang, F., Chen, D., He, L.H., Yang, Z.I., Wu, Z.Y., Lu, H., Li, Z.Z., Zeng, Y.L., Deng, F.(通讯), Ren, W.J., 2021. Higher solar radiation and lower temperature enhance biomass production and grain yield of rice under high-altitude condition. Archives of Agronomy and Soil Science, 1-17.
Li, Q.P., Deng, F.(通讯), Chen, H., Zeng, Y.L., Li, B., Zhong, X.Y., Wang, L., Zhou, W., Chen, Y., Ren, W.J., 2020. Shading decreases rice yield by impeding grain‐filling progress after heading. Agronomy Journal 112, 4018-4030.
Wang, L., Deng, F.(共一), Lu, T.Q., Pu, S.L., Ren, W.J., 2016. The relationships between carbon isotope discrimination and photosynthesis and rice yield under shading. International Journal of Plant Production 10, 551-564.
Wang, L., Deng, F.(共一), Ren, W.J., 2015. Shading tolerance in rice is related to better light harvesting and use efficiency and grain filling rate during grain filling period. Field Crops Research 180, 54-62.
Wang, L., Deng, F.(共一), Ren, W.J., Yang, W.Y., 2013. Effects of shading on starch pasting characteristics of indica hybrid rice (oryza sativa l.). Plos One 8, e68220.
周星,李博,朱莜芸,李秋萍,何辰延,袁玉洁,黄小凡,何宇欣,王丽,程红,任万军,邓飞(通讯), 2022.齐穗后弱光胁迫对杂交籼稻节间非结构性碳水化合物积累转运的影响.中国生态农业学报(中英文), 30, 1610-1619.
李博,袁玉洁,何辰延,周星,李秋萍,朱莜芸,何宇欣,黄小凡,艾小凤,陈勇,周伟,程红,王丽,肖洪,任万军,邓飞, 2023(通讯). “减穴稳苗”田间配置对西南稻区水稻冠层结构和光能分布的影响.澳门新葡平台网址8883学报, 1-15.
李博,杨帆,秦琴,钟晓媛,李秋萍,曾玉玲,卢慧,陈勇,王丽,陶有凤,李娟,冯炳亮,任万军,邓飞(通讯), 2022.播期对再生稻次适宜区杂交籼稻食味品质的影响.中国农业科学55, 36-50.
李博,张驰,曾玉玲,李秋萍,任洪超,卢慧,杨帆,陈虹,王丽,陈勇,任万军,邓飞(通讯), 2021.播期对四川盆地杂交籼稻米饭食味品质的影响.作物学报47, 1360-1371.
李书先,蒲石林,邓飞(通讯),王丽,胡慧,廖爽,李武,任万军, 2019.不同生态条件下氮肥优化管理对杂交中稻稻米品质的影响.中国生态农业学报(中英文) 27,1042-1052.