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李胜兰,女,重庆人,讲师。主要从事全球气候变化下气孔生理生态和植物水分生理生态相关研究,重点关注农作物关键功能性状、光合碳分配以及碳水耦合关系对气候变化的响应机制。主持国家自然科学基金青年项目,入选全国博士后交流计划引进项目、江苏省卓越博士后计划项目。近年来以第一作者或共同作者在Plant, Cell & EnvironmentCurrent Opinion in Plant BiologyEnvironmental and Experimental Botany、Horticulture Research等学术期刊上发表论文10余篇,参与《全球变化生态学》教材编写。


个人信息

  • 行政职务:
  • 技术职称: 讲师(高校)
  • 最后学位: 博士学位
  • 邮    编: 350100
  • 电    话: 15652934220
  • 电子邮箱: sll0809@fafu.edu.cn
  • 办公地点: 福建农林大学金山校区博学楼418
  • 通讯地址: 福州市仓山区上下店路15号

教育经历

2018/09–2021/10,哥本哈根大学,作物学专业,博士

2016/09–2018/06,中国农业大学,观赏园艺专业,硕士

2012/09–2016/06,中国农业大学,园艺学专业,学士


工作经历

2024/04–至今,福建农林大学,菌草与生态学院,生态系,讲师

2021/09–2024/02,南京信息工程大学,生态与应用气象学院,生态系,博士后(合作导师:冯兆忠教授)


荣誉及奖励

2022年11月入选“江苏省卓越博士后计划”

2022年07月入选“博士后国际交流计划引进项目”

2018年06月获“CSC国家建设高水平大学公派研究生项目”奖学金

2018年07月入选“北京市优秀毕业生”

2017年11月获硕士生国家奖学金


研究领域

(1)  植物功能性状对环境变化的响应机制;

(2)  气候变化下植物光合产物分配和转运过程;

(3)  气候变化下树木的碳水耦合过程。


开授课程

《保护生物学》

《生态学实验》


科研项目

(1)  国家自然科学基金,青年科学基金项目,亚热带绿化树木水力传输系统对臭氧胁迫的响应机制,(42207153)2023/01–2025/1230万元主持;

(2)  国家自然科学基金,面上项目,赤霉素受体蛋白GID1s参与光周期途径在菊花成花转化中的作用机制,2018/012021/12,55万元,参与。

论文著作

第一作者发表的论文:

(1) Li SL*, Li SJ*, Agathokleous E, Hao GY, Wang SL, Feng ZZ# et al. Leaf water relations determine the trade-off between ozone resistance and stomatal functionality in urban tree species. Plant, Cell & Environment, 2024, Accepted.

(2) Li SL*, Agathokleous E, Li SJ, Xu YS, Xia JX, Feng ZZ# et al. Latitudinal gradient and leaf carbon investment influence the effects of climate change on water use efficiency of forests: A meta-analysis. Plant, Cell & Environment, 2024, 47(4): 1070-1083.

(3) Li SL* & Liu FL#. Vapor pressure deficit and endogenous ABA level modulate stomatal responses of tomato plant to soil water deficit. Environmental and Experimental Botany, 2022,199: 104889.

(4) Li SL*, Wang XZ, Liu XJ, Thompson AJ, Liu FL# et al. Elevated CO2 and high endogenous ABA level alleviate PEG-induced short-term osmotic stress in tomato plants. Environmental and Experimental Botany, 2022,194: 104763.

(5) Li SL* & Liu FL#. Exogenous abscisic acid priming modulates water relation responses of two tomato genotypes with contrasting endogenous abscisic acid levels to progressive soil drying under elevated CO2. Frontiers in Plant Science, 2021, 12: 733658.

(6) Li SL*, Fang L, Hegelund JN, Liu FL# et al. Elevated CO2 modulates plant hydraulic conductance through regulation of PIPs under progressive soil drying in tomato plants. Frontiers in Plant Science, 2021, 12: 666066.

(7) Li SL*, Li XN, Wei ZH, Liu FL# et al. ABA-mediated modulation of elevated CO2 on stomatal response to drought. Current Opinion in Plant Biology, 2020, 56: 174–180.

(8) Li SL*, Shi JQ, Li H, Yanling Wang#, Agathokleous E. Application of phosphorus in red paddy soils enhances growth and yield of rice and alters CO2 and CH4 emission from soils in a time‑ and dose‑dependent manner. Paddy and Water Environment, 2023, 27: 1–13.

(9)  李胜兰*, 马俊伟, 樊晶艳, 高俊平, 洪波, 徐彦杰#. 粉色茶用菊花品种中农夏妆的选育. 农业生物技术学报, 2017, 25(5).


合作发表的部分论文:

(1)  Li SJ*, Agathokleous E, Li SL, Yuan XY, Du YD, Feng ZZ#. Sensitivity of isoprene emission rate to ozone in greening trees is concurrently determined by isoprene synthesis capacity and stomatal conductance. Science of the Total Environment, 2023, 891: 164325.

(2)  Wang XZ*, Yang X, Li SL, Li XN, Liang KH, Liu FL#. Dilemma between yield and quality: Multigenerational effect of elevated CO2 and nitrogen supply on wheat cultivars. Journal of Agronomy and Crop Science, 2023, 209: 887-903.

(3)  Yang X*, Li SL, Liu FL, Rosenqvist E. Does constant or changing light give the best rooting of hibiscus cuttings of two sizes? Scientia Horticulturae, 2023, 309: 111675.

(4)  Zhang LL*, Xu YJ*, Liu XN, Qin MZ, Li SL, Jiang TH, Yang YJ, Jiang CZ, Gao JP, Hong B#, Ma C#. The chrysanthemum DEAD-box RNA helicase CmRH56 regulates rhizome outgrowth in response to drought stress. Journal of Experimental Botany, 2022, 73(16): 5671-5681.

(5)  Fang L*, Abdelhakim LOA, Hegelund JH, Li SL, Liu J, Peng XY, Li XN, Wei ZH, Liu FL#. ABA-mediated regulation of leaf and root hydraulic conductance in tomato grown at elevated CO2 is associated with altered gene expression of aquaporins. Horticulture Research, 2019, 6: 104.







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