中国科学院昆明植物研究所
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研究生教育
植物学专业
 

姓  名:
黄伟
学  科:
植物学
人才类别:
副研究员
电话/传真:
0871-65223002  
电子邮件:
huangwei@mail.kib.ac.cn
通讯地址:
云南省昆明市蓝黑路132号 650201
更多信息:
  
简历:

2003/09–2007/06,德州学院,生物系,学士

2007/09–2012/06,中国科学技术大学,生命科学学院,理学博士

2012/7-2015/1,博士后,中国科学院昆明植物研究所

2015/1至今,副研究员,中国科学院昆明植物研究所

    主要从事植物光合作用相关研究,包括光损伤机制、光保护机制及植物适应逆境胁迫的光合调节机制研究,在光系统I损伤及环式电子传递调控机制等研究中取得重要进展。迄今在Plant and Cell PhysiologyPhotosynthesis ResearchTree PhysiologyPlantaPhysiologia PlantarumEnvironmental and Experimental BotanyFrontiers in Plant Science等期刊发表论文近30篇。近年来主持国家自然科学基金青年科学基金、中国科学院青年创新促进会项目、云南省应用基础研究面上项目、博士后特别资助等科研课题。为Tree Physiology, Journal of Integrative Plant Biology, Journal of Plant Physiology, Frontiers in Plant Science等杂志审稿。

研究领域:

光损伤机制研究:研究高等植物光系统III活性在逆境(低温、强光)条件下发生损伤的具体机理,尤其是光系统I活性的新颖损伤机制,进而揭示高等植物不能适应特定逆境胁迫的光合机制。

光保护机制研究:研究高等植物适应特殊生境的光保护机制,揭示环式电子传递在复苏植物适应干旱生境中的重要作用,阐明高山植物适应低温强光胁迫的主要光保护机制,研究未成熟叶片适应强光的光合调节机理。

光合作用生理调控与环境适应:研究光合作用的光反应和暗反应在不同环境条件下的调控机制,重点研究环式电子传递、跨类囊体膜质子梯度及ATP合酶活性之间的相互协调及其与光保护和光损伤之间的联系。

社会任职:
获奖及荣誉:
代表论著:

1. Huang Wei et al. (2017) Superoxide generated in the chloroplast stroma causes photoinhibition of photosystem I in the shade-establishing tree species Psychotria henryi. Photosynthesis Research 132: 293–303.

2. Huang Wei et al. (2017) Specific roles of cyclic electron flow around photosystem I in photosynthetic regulation in immature and mature leaves. Journal of Plant Physiology 209: 76–83

3. Cai Yan-Fei, Yang Qiu-Yun, Li Shu-Fa, Wang Ji-Hua, Huang Wei (2017) The water-water cycle is a major electron sink in Camellia species when CO2 assimilation is restricted. Journal of Photochemistry and Photobiology B: Biology 168: 59–66.

4. Huang Wei et al. (2016) PSI photoinhibition is more related to electron transfer from PSII to PSI rather than PSI redox state in Psychotria rubra. Photosynthesis Research 129:85–92.

5. Huang Wei et al. (2016) Responses of photosystem I compared with photosystem II to fluctuating light in the shade-Establishing tropical tree species Psychotria henryi. Frontiers in Plant Science 7:1549.

6. Huang Wei et al. (2016) Photosynthesis and photosynthetic electron flow in the alpine evergreen species Quercus guyavifolia in winter. Frontiers in Plant Science 7:1511.

7. Huang Wei et al. (2016) Response of the water–water cycle to the change in photorespiration in tobacco. Journal of Photochemistry and Photobiology B: Biology 157: 97–104.

8. Huang Wei et al. (2016) Seasonal variations in photosystem I compared with photosystem II of three alpine evergreen broad-leaf tree species. Journal of Photochemistry and Photobiology B: Biology 165: 71–79.

9. Huang Wei et al. (2016) Evidence for the role of cyclic electron flow in photoprotection for oxygen-evolving complex. Journal of Plant Physiology 194: 54–60.

10. Huang Wei et al. (2016) Sustained diurnal stimulation of cyclic electron flow in two tropical tree species Erythrophleum guineense and Khaya ivorensis. Frontiers in Plant Science 7:1068.

11. Huang Wei et al. (2016) Moderate photoinhibition of photosystem II protects photosystem I from photodamage at chilling stress in tobacco leaves. Frontiers in Plant Science 7:182.

12. Huang Wei et al. (2016) Effect of the gall wasp Leptocybe invasa on hydraulic architecture in Eucalyptus camaldulensis Plants. Frontiers in Plant Science 7:130.

13. Huang Wei et al. (2015) Insusceptibility of oxygenevolving complex to high light in Betula platyphylla. Journal of Plant Research 128:307–315.

14. Huang Wei et al. (2015) Photorespiration plays an important role in the regulation of photosynthetic electron flow under fluctuating light in tobacco plants grown under full sunlight. Frontiers in Plant Science 6:621.

15. Huang Wei et al. (2015) Photoinhibition of photosystem I under high light in the shade-established tropical tree species Psychotria rubra. Frontiers in Plant Science 6:801.

16. Huang Wei et al. (2015) Different roles of cyclic electron flow around photosystem I under sub-saturating and saturating light intensities in tobacco leaves. Frontiers in Plant Science 6:923.

17. Huang Wei et al. (2014) Evidence for the regulation of leaf movement by photosystem II activity. Environmental and Experimental Botany 107: 167–172.

18. Huang Wei et al. (2014) Sun leaves up-regulate the photorespiratory pathway to maintain a high rate of CO2 assimilation in tobacco. Frontiers in Plant Science 5:688.

19. Huang Wei et al. (2013) Effect of growth temperature on the electron flow for photorespiration in leaves of tobacco grown in the field (Co-First author). Physiologia Plantarum 149: 141–150.

20. Huang Wei, et al. (2013) Differences in the responses of photosystem I and photosystem II of three tree species Cleistanthus sumatranus, Celtis philippensis and Pistacia weinmannifolia submitted to a prolonged drought in a tropical limestone forest. Tree Physiology 33: 211–220.

21. Huang Wei, et al. (2012) Evidence for leaf fold to remedy the deficiency of physiological photoprotection for photosystem II. Photosynthesis Research 110: 185–191.

22. Huang Wei, et al. (2012) Cyclic electron flow plays an important role in photoprotection for the resurrection plant Paraboea rufescens under drought stress. Planta 235: 819–828.

23. Huang Wei, et al. (2011) Cyclic electron flow plays an important role in photoprotection of tropical trees illuminated at temporal chilling temperature. Plant and Cell Physiology 52: 297305.

24. Huang Wei, et al. (2010) Stimulation of cyclic electron flow during recovery after chilling-induced photoinhibition of PSII. Plant and Cell Physiology 51: 19221928.

25. Huang Wei, et al. (2010) The different effects of chilling stress under moderate illumination on photosystem II compared with photosystem I and subsequent recovery in tropical tree species. Photosynthesis Research 103: 175182.

承担科研项目情况:

1. 国家自然科学基金面上项目:高山常绿杜鹃冬季光合作用的维持及其与水力结构的关系,经费73万元,2017-2020年,项目执行人。
2. 中国科学院“青年创新促进会”,经费70万元,2016-2019年,主持。
3. 国家自然科学基金青年基金:四种热带树木对零上低温敏感的光合生理机制,经费24万元,2014-2016年,主持。
4. 云南省应用基础研究面上项目:高山常绿阔叶树种冬季光合作用功能维持机制,经费10万元,2016-2019年,主持。
5. 博士后科学基金特别资助:林下顶级树种九节和假海桐对强光敏感的光合生理机制,经费15万元,主持。
6. 环式电子传递在高山植物光保护中的重要作用,经费5万元,主持。

中国科学院昆明植物研究所

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