巩晓颖研究员

发布者:孙杰 发布时间:2019-03-22 浏览次数:13554


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基本信息 Basic information

    名:巩晓颖

    称:研究员

硕导/博导:生态学、自然地理学硕导、生态学博导

最高学位:博士

行政职务:

其它兼职:

    位:威廉希尔体育app官网

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联系方式 Contact

通讯地址:福州市闽侯县乌龙江中大道18号师大旗山校区地科楼1023D

邮政编码:350007

办公电话:0591-83465214 ()   

电子邮箱:xgong1981@126.com   xgong@fjnu.edu.cn

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研究方向 Research Interests

植物生理生态学,同位素生态学

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个人履历 Resume

  

2006.09—2010.02,基尔大学(德国),作物科学系,博士

2003.09—2006.07,中国农业大学,植物营养系,硕士

1999.09—2003.07,中国农业大学,环境工程系,学士

  

2018.10—至今,   威廉希尔体育app官网,研究员

2012.01—2018.05,慕尼黑工业大学(德国),项目科学家

2010.09—2011.12,慕尼黑工业大学(德国),博士后 

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个人简介  Brief

巩晓颖,研究员,博导,福建省“闽江学者”特聘教授,福建省百人计划获得者,主要从事植物生理生态学和稳定同位素生态学方面的研究工作。目前主要研究方向如下:

1. 利用前沿稳定同位素技术(CNO)研究植物关键碳氮循环过程(光合、呼吸、氮同化等)对环境变化的响应机制;

2. 植物光合关键参数 (叶肉导度、日间呼吸速率)对植物个体以及群落碳收支的影响;

3. 全球变化背景下植物资源利用效率(水分、养分及碳素利用效率)权衡机制。

目前在New Phytologist, Plant Cell & Environment等知名学术期刊发表论文三十余篇;担任中国生态学会稳定同位素生态专业委员会委员、福建省创业创新领军人才(B类引进高层次人才)、SCI 期刊Frontiers in Plant Science编委、European Journal of Soil Science客座编辑和《地球科学与环境学报》编委,以及十余个专业期刊的审稿人。Researchgate个人主页:https://www.researchgate.net/profile/Xiaoying_Gong

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教学工作  Teaching Work

主讲《植物生理生态学》硕士课程,曾担任慕尼黑工业大学‘稳定同位素在环境科学、生态学和生理学中的应用’国际培训课程‘稳定同位素标记’部分主讲,多个同位素技术研讨会特邀报告/讲座

 

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代表性论文 Selected Publications

*标示通讯作者,更新于2023Mar.

1. Gong XY*, Ma WT, Yu YZ, Fang K, Yang Y, Tcherkez G, Adams MA. 2022. Overestimated gains in water use efficiency by global forests. Global Change Biology 28 (16), 4923-4934

2. Sun YR, Ma WT, Xu YN, Wang X, Li L, Tcherkez G, Gong XY*. 2023. Short- and long-term responses of leaf day respiration to elevated atmospheric CO2. Plant Physiology, kiac582.

3. Ma WT, Yu YZ, Wang X, Gong XY*. 2022. Estimation of intrinsic water-use efficiency from δ13C signature of C3 leaves: assumptions and uncertainty. Frontiers in Plant Science 13, 1037972

4. Ma WT, Tcherkez G, Wang XM, Schaufele R, Schnyder H, Yang Y, Gong XY*. 2021. Accounting for mesophyll conductance substantially improves 13C-based estimates of intrinsic water-use efficiency. New Phytologist 229, 1326-1338.

5. Gong XY*, Tcherkez G, Wenig J, Schäufele R* & Schnyder H (2018)Determination of leaf respiration in the light: comparison between an isotopic disequilibrium method and the Laisk method. New Phytologist, 218, 1371-1382

6. Gong XY, Schäufele R, Lehmeier C, Tcherkez G & Schnyder H* (2017) Atmospheric CO2 mole fraction affects stand-scale carbon use efficiency of sunflower by stimulating respiration in light. Plant, Cell and Environment, 40, 401-412

7. Gong XY*, Schäufele R & Schnyder H* (2017) Bundle-sheath leakiness and intrinsic water-use efficiency of a perennial C4 grass are increased at high VPD during growth. Journal of Experimental Botany, 68, 321-333.

8. Liu HT, Yang F, Gong XY*, Schäufele R & Schnyder H* (2017) An oxygen isotope chronometer for cellulose deposition: the successive leaves formed by tillers of a C4 perennial grass. Plant, Cell and Environment,40, 2121-2132

9. Liu HT, Gong XY*, Schäufele R Yang F, Hirl R & Schnyder H* (2016) Nitrogen fertilization and δ18O of CO2 have no effect on 18O-enrichment of leaf water and cellulose in Cleistogenes squarrosa (C4) – is VPD the sole control? Plant, Cell and Environment, 39 (12), 2701-2712

10. Gong XY, Giese K, Dittert K, Lin S* & Taube F (2016) Topography influences on shoot litter and root decomposition in semiarid hilly grasslands. Geoderma, 282, 112-119

11. Gong XY, Schäufele R*, Feneis W & Schnyder H* (2015) 13CO2/12CO2 exchange fluxes in a clamp-on leaf cuvette: disentangling artifacts and flux components. Plant, Cell and Environment, 38(11), 2417-2432

12. Gong XY, Fanselow N, Dittert K, Taube F & Lin S* (2015) Response of primary production and biomass allocation to nitrogen and water supplementation along a grazing intensity gradient in semiarid grassland. European Journal of Agronomy, 63, 27-35

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主要获奖成果 The Main Achievements

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科研项目 Research projects

1. 国家自然科学基金重点国际合作项目,增温对植物日间呼吸速率和碳利用效率的影响机制,2022-2026238万,主持

2. 福建省百人计划,同位素生理生态,2021-2023200万,主持

3. 国家自然科学基金面上项目,应用13C信号分异法解析植物呼吸作用对大气CO2浓度升高的响应机制,2019 - 202260万,主持,结题

4. 广东省自然科学基金自由申请项目,作物叶肉导度对水分胁迫和氮素添加的响应以及对作物水分利用效率影响的定量研究,2018 - 202110万,主持,结题

5. 德国科学基金会(DFG)项目,Divers and mechanisms of 13C discrimination in Cleistogenes squarrosa2012-2016~100万,执行主持,结题

6.德国科学基金会大型研究团体项目DFG research groupMatter fluxes in grasslands of Inner Mongolia as influenced by stocking rate2004-2009,参加

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研究生培养Graduate Student Cultivation

长期招收生态学(植物生理生态方向)、自然地理学硕士生、博士生以及博士后