16877太阳集团(China)有限公司-NO.1

姓名：陈海飞            职称：副教授  

Email:chenhaifei@hunau.edu.cn   

个人简介：

  陈海飞，男，1989年8月生，湖北宜昌人，硕士研究生导师。湖南农业大学神农学者青年英才Ⅰ层次人才，研究方向为水稻重金属吸收与抗性调控的分子机制、氮高效基因挖掘和调控机理。发表研究论文13篇，其中一作或通讯9篇，分别刊登在Plant Cell and Environment, Environmental Pollution, Science of the Total Environment, Plant and Soil等期刊。已主持与水稻重金属吸收与抗性机理相关课题4项，其中国家自然科学基金项目2项，中国博士后基金一等资助1项，湖南省自然科学基金1项，湖南省教育厅重点项目1项。

工作经历：

2022/12-至今，湖南农业大学,资源学院，副教授

2019/06-2022/12, 湖南农业大学, 资源与环境学院，讲师

2017/06-2019/9, 湖南农业大学, 资源与环境学院, 博士后

教育经历

2013/09–2017/06, 华中农业大学, 植物营养学, 博士

2011/09–2013/06, 华中农业大学, 植物营养学, 硕士

2007/09–2011/06, 华中农业大学, 农业资源与环境, 学士

学术兼职：

2022-2027，植物营养与肥料学会，第十届国际合作工作委员会委员

教学情况：

  承担本科生《土壤肥料学》、《植物营养研究进展》等课程，硕士研究生《植物营养遗传与分子生物学》、《高级植物营养学》课程，博士研究生《养分高效与逆境生理专题》等课程。校教学能力竞赛二等奖，2021。

科研项目：

(1) 国家自然科学基金面上项目，32172669，2022/01-2025/12，58万元，在研，主持

(2) 国家自然科学基金面上项目，32072664，2021/01-2024/12，58万元，在研，参与

(3) 国家自然科学基金青年基金，31801934， 2019/01-2021/12，25万元，主持

(4) 中国博士后科学基金，一等资助，2018M640751，8万元，主持

(5) 湖南省自然科学基金青年基金，2019JJ50244，2019/01-2021/12，5万元,主持

(6) 湖南省教育厅重点项目，22A0157，2022/01-2024/12, 主持

(7) 神农学者青年英才Ⅰ层次人才启动经费，50万元。

主要论文：

(1) Chen H.F., Zhang, Q., Cai H.M., Zhou W., Xu F.S. (2018). H₂O₂ mediates nitrate-induced iron chlorosis by regulating iron homeostasis in rice. Plant, Cell and Environment, 41 (4): 767-781

(2) Chen H.F., Zhang, Q., Wang, X., Zhang, J., Ismail, A. M., & Zhang, Z. (2021). Nitrogen form-mediated ethylene signal regulates root-to-shoot K⁺ translocation via NRT1.5. Plant Cell and Environment, 44(12), 3806-3818

(3) Chen H.F., Zhang, Q., et al., Zhang, Z. (2022). Ethylene positively regulates Cd tolerance via reactive oxygen species scavenging and apoplastic transport barrier formation in rice. 302: 119063

(4) Chen H.F., Zhang, Q., Cai H.M., Zhou W., Xu F.S. (2017). Ethylene mediates alkaline-induced rice growth inhibition by negatively regulating plasma membrane H⁺-ATPase activity in roots. Frontiers in Plant Science, 2017, 8 (1839): 1-12.

(5) Chen H.F., Zhang, Q., Zhang Z.H. (2019). Comparative transcriptome combine with metabolomic and physiological analyses revealed ROS-mediated redox signaling affecting rice growth and cellular iron homeostasis under varying pH conditions. Plant and Soil, 434 (1-2), 343-361.

(6) Chen H.F., Zhang, Q., Lu Z.F., Xu F.S. (2018). Accumulation of ammonium and reactive oxygen mediated drought-induced rice growth inhibition by disturbed nitrogen metabolism and photosynthesis. Plant and Soil, 431 (1-2), 107-117.

(7) Chen H.F.^#, Zhang, Q.^#, He M.L., Wang S.L., Shi L., Xu F.S. (2018). Molecular characterization of the genome-wide BOR transporter gene family and genetic analysis of BnaC04. BOR1; 1c in Brassica napus. BMC plant biology, 18 (1), 193.

(8) Quan Zhang; Qiren Wen; Tianchi Ma; QiHong Zhu; Daoyou Huang; Hanhua Zhu; Chao Xu; HaifeiChen. (2023). Cadmium-induced iron deficiency is a compromise strategy to reduce Cd uptake in rice, Environmental and Experimental Botany, 206, 105155.

(9) Li, H. #, Chen, H. #, Deng, S., Cai, H., Shi, L., Xu, F., & Wang, C. (2021). Inhibition of nitric oxide production under alkaline conditions regulates iron homeostasis in rice. Physiologia Plantarum, 172(3), 1465-1476.

(10) Quan Zhang; Chen, H.; Mingliang He; Zhuqing Zhao; Hongmei Cai; Guangda Ding; Lei shi, Fangsen Xu (*), The boron transporter BnaC4. BOR1; 1c is critical forinflorescence development and fertility under boron limitation in Brassica napus. Plant Cell and Environment, 2017, 40 (9): 1819-1833.

(11) Quan Zhang; Chen, H.; Daoyou Huang;  Qihong Zhu; Water managements limit heavy metal accumulation in rice: Dual effects of iron-plaque formation and microbial communities. Science of the Total Environment, 2019. 687. DOI: 10.1016/j.scitotenv.2019.06.044

(12) Quan Zhang; Chen, H.; Chao Xu; Qihong Zhu. Heavy metal uptake in rice is regulated by pH-dependent iron plaque formation and the expression of the metal transporter genes. Environmental and Experimental Botany, 2019,162. DOI: 10.1016/j.envexpbot.2019.03.004.

(13) Zhang, Q., Chen, H. F., Huang, D. Y., Guo, X. B., Xu, C., Zhu, H. H., Zhu, Q. H. (2022). Sulfur fertilization integrated with soil redox conditions reduces Cd accumulation in rice through microbial induced Cd immobilization. Science of the Total Environment, 824, 153868.

(14) Liang G.,Hua Y., Chen, H. F., et al., Zhenhua Zhang. (2022). Increased nitrogen use efficiency via amino acid remobilization from source to sink organs in Brassica napus. (2022). The Crop Journal, 11(1). DOI:10.1016/j.cj.

(15) Shi Y., Liu D., He Y., Chen, H. F., et al., Zhenhua Zhang. (2023). CHLORIDE CHANNEL-b mediates vacuolar nitrate efflux to improve low nitrogen adaptation in Arabidopsis

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