姓  名: 刘玲莉
职务/职称: 研究员
联系电话: (86)-010-62836160
电子邮件: lingli.liu@ibcas.ac.cn
个人网页: http://scholar.google.com/citations?user=qsol3xgAAAAJ
课 题 组: 环境污染与生态系统响应研究组
刘玲莉,女,博士,研究员,博士生导师。

1999年获南京大学学士学位,2002获北京大学硕士学位,2007年获美国北卡罗莱州立大学博士学位,2007年至2011年间在美国国家环保局环境评价中心进行博士后研究工作。2011年到植物所工作,2015年获国家自然科学家基金委优秀青年基金资助。现任Ecology LettersGlobal Change Biology Journal of Plant Ecolog编委,《植物生态学报》常务副主编,中国大百科全书第三卷《生态系统生态学》分支副主编;植被与环境变化国家重点实验室副主任、中国植物学会植物生态学会专业委员会秘书长、北京生态学会理事。

主要研究领域

主要从事陆地生态系统生物地球化学循环研究。利用野外控制实验、样带调查、数据整合等方法,系统地探讨大气氮沉降、气溶胶、温度、降水等要素如何影响植物-土壤-微生物间的互动关联,进而调控生态系统碳氮循环。

主持及参与的科研项目

·国家自然科学基金面上项目(31670478)气溶胶及其与降水格局变化的交互作用对植物碳吸收、碳分配及水分利用 效·率的影响,主持人;

·国家自然科学基金优秀青年基金项目(31522011),大气污染与生态系统碳氮循环,主持人;

·科技部国家重大科学研究计划 (2014CB954003)土壤系统碳动态、机制及其对全球变化的响应,参加人;

·科技部国家重大科学研究计划 (2013CB956304)全球变化对中国典型草地生态过程的影响及生态环境效应,课题负责人;

国家自然科学基金面上项目(31070430)人为气溶胶对生态系统碳固定、碳分配及碳库间转换的影响,主持人。

代表论文 

2021

1.Wang X, Wang CZ, Wu J,Miao GF, Chen M, Chen SL, Wang SH, Guo ZF, Wang ZH, Wang B, Li J, Zhao YJ, Wu XL, Zhao CF, Lin WL, Zhang YG, Liu LL*. 2021. Intermediate Aerosol Loading Enhances Photosynthetic Activity of Croplands. Geophysical Research Letters, e2020GL091893

2.Wang B, Wang ZH, Wang CZ, Wang X, Li J, Jia Z, Li P, Wu J, Chen M, Liu LL*. 2021. Field evidence reveals conservative water use of poplar saplings under high aerosol conditions. Journal of Ecology. DOI: 10.1111/1365-2745.13633

3.Deng MF, Li P, Wang ZH, Guo LL, Wu YT, Huang JS, Wang XH, Liu LL*. 2021. Drought and salinization stress induced by stand development alters mineral element cycling in a larch plantation. Journal of Geophysical Research: Biogeosciences, e2020JG005906

4.Wang X, Wang B, Wang CZ, Li J, Jia Z, Yang S, Li P, Wu YT, Pan SN, Liu LL*. 2021. Canopy processing of N deposition increases short-term leaf N uptake and photosynthesis, but not long-term N retention for aspen seedlings. New Phytologist, 229 (5), 2601-2610.

5.Jia Z, Li P, Wu Y, Yang S, Wang C, Wang B, Yang L, Wang X, Li J, Peng ZY, Guo LL, Liu WX, Liu LL*. 2021. Deepened snow cover alters biotic and abiotic controls on nitrogen loss during non-growing season in temperate grasslands. Biology and Fertility of Soils, 57, 165–177

2020

6.Liu WX, Jiang L, Yang S, Wang Z, Tian R, Peng ZY, Cheng YL, Zhang XX, Kuang JL, Ning L, Wang SP, Liu LL*. 2020. Critical transition of soil bacterial diversity and composition triggered by nitrogen enrichment. Ecology, 101(8), e03053.

7.Huang JS, Liu WX, Deng MF, Wang X, Wang ZH, Yang L, Liu LL*. 2020. Allocation and turnover of rhizodeposited carbon in different soil microbial groups. Soil Biology and Biochemistry150, 107973.

8.Li P, Sayer EJ, Jia Z, Liu WX, Wu YT, Yang S, Wang CZ, Yang L, Chen DM, Bai YF, Liu LL*. 2020. Deepened winter snow cover enhances net ecosystem exchange and stabilizes plant community composition and productivity in a temperate grassland. Global Change Biology, 26 (5), 3015-3027

9.Wang ZH, Wang CZ, Wang B, Wang X, Li J, Wu J, Liu LL*. 2020. Interactive effects of air pollutants and atmospheric moisture stress on aspen growth and photosynthesis along an urban-rural gradient. Environmental Pollution, 260, 114076.

10. Wang J, Liu WX, Li P, Jia Z, Deng MF, Yang S, Liu LL*. 2020. Long-term deepened snow cover alters litter layer turnover rate in temperate steppes. Functional Ecology. 34 (5), 1113-1122

11. Liu WX, Tian R, Peng ZY, Yang, S, Liu XX, Yang YS, Zhang WH and Liu LL*. 2020. Nonlinear responses of the Vmax and Km of hydrolytic and polyphenol oxidative enzymes to nitrogen enrichment. Soil Biology and Biochemistry, 141, 107656.

12. 李景; 王欣; 王振华; 王斌; 王成章; 邓美凤; 刘玲莉*. 2020. 臭氧和气溶胶复合污染对杨树叶片光合作用的影响. 植物生态学报, 44(8): 854-863

2019

13. Liu LL*. 2019. Upward trend of nitrogen deposition curbed by the dual force of environmental regulation and social-economic structural change in China. Science Bulletin. 64(18),1300-1302

14. Yang S, Liu WX, Qiao CL, Wang J, Deng MF, Zhang BB, and Liu LL*. 2019. The decline in plant biodiversity slows down soil carbon turnover under increasing nitrogen deposition in a temperate steppe. Functional Ecology. 7:1362-1372

2018

15. Deng MF, Liu LL*, Jiang L, Liu WX, Wang X, Li SP, Yang S, Wang B. 2018. Ecosystem scale tradeoff in nitrogen acquisition pathways, Nature Ecology and Evolution. 2 (11), 1724

16. Li P, Liu LL*, Wang J, Wang ZH, Wang X, Bai YF, Chen SP. 2018. Wind Erosion Enhanced by Land Use Changes Significantly Reduces Ecosystem Carbon Storage and Carbon Sequestration Potentials in Semi-arid Grasslands. Land Degradation & Development. 29 (10), 3469-3478

17. Wang X, Wu J, Chen M, Xu XT, Wang ZH, Wang B, Wang CZ, Piao SL, Lin WL, Miao GF, Deng MF, Qiao CL, Wang J, Xu S, Liu LL*. 2018. Field evidences for the positive effects of aerosols on tree growth. Global change biology. 24(10): 4983-4992

18. Liu WX, Qiao CL,Yang S, Bai WM, Liu LL*. 2018. Microbial carbon use efficiency and priming effect regulate soil carbon storage under nitrogen deposition by slowing soil organic matter decomposition. Geoderma. 332, 37-44.

19. Liu WX, Allison SD, Li P, Wang J, Chen D, Wang ZH, Yang S, Diao LW, Wang B, Liu LL*. 2018. The effects of increased snow depth on plant and microbial biomass and community composition along a precipitation gradient in temperate steppes. Soil Biology and Biochemistry. 124:134-41.

20.       Xu S, Li P, Sayer EJ, Zhang BB, Wang J, Qiao CL, Peng ZY, Diao LW, Chi YG, Liu WX, Liu LL*. 2018. Initial Soil Organic Matter Content Influences the Storage and Turnover of Litter, Root and Soil Carbon in Grasslands. Ecosystems. 21(7):1377-1389

21. 刁励玮; 李平; 刘卫星; 徐姗; 乔春连; 曾辉; 刘玲莉*. 2018. 草地生态系统生物量在不同气候及多时间尺度上对氮添加和增雨处理的响应. 植物生态学报. 08: 818~830

2017

22. Wang J, Liu LL*, Wang X, Yang S, Zhang BB, Li P, Qiao CL, Deng MF, Liu WX. 2017. High nighttime humidity and sissolved orgnic carbon content support rapid decomposition of standing litter in a semi-arid landscape. Functional Ecology 31, 1659-1668.

23. Wang J, Yang S, Zhang B, Liu W, Deng M, Chen S, Liu LL*. 2017. Temporal dynamics of ultraviolet radiation impacts on litter decomposition in a semi-arid ecosystem. Plant and Soil, 419, 71-81.

2016

24. Deng MF, Liu LL*, Sun ZZ, Piao SL, Ma YC, Chen YW, Wang J, Qiao CL, Wang X, Li P. 2016, Increased phosphate uptake but not resorption alleviates phosphorus deficiency induced by nitrogen deposition in temperate Larix. principis-rupprechtii forests. New Phytologist. 212 (4), 1019-1029

25. Sun ZZ, Liu LL*, Peng SS, Pe?uelas J, Zeng H, Piao SL*. 2016. Age-related modulation of the nitrogen resorption efficiency response to growth requirements and soil nitrogen availability in a temperate pine plantation. Ecosystems. 19: 698709

26. Liu LL*, Wang X, Lajeunesse MJ, Miao GF, Piao SL, Wan SQ, Wu YX, Wang ZH, Yang S, Li P, Deng MF. 2016. A crossbiome synthesis of soil respiration and its determinants under simulated precipitation changes. Global change biology. 22, 13941405.

2015及以前

27. Wang J, Liu LL*, Wang X, Chen Y. 2015. The interaction between abiotic photodegradation and microbial decomposition under ultraviolet radiation. Global Change Biology. 21, 2095-2104.

28. Qiao CL, Liu LL*, Hu SJ, Compton JE, Greaver TL, Li QL. 2015, How inhibiting nitrification affects nitrogen cycle and reduces environmental impacts of anthropogenic nitrogen input. Global Change Biology. 21, 1249-1257.

29. Wang X, Liu LL*, Piao SL, Janssens IA, Tang JW, Liu WX, Chi YG, Wang J, Xu S. 2014. Soil respiration under climate warming: differential response of heterotrophic and autotrophic respiration. Global Change Biology. 20, 32293237

30. Xu S, Liu LL*, Sayer EJ. 2013. Variability of above-ground litter inputs alters soil physicochemical and biological processes: a meta-analysis of litterfall-manipulation experiments. Biogeosciences, 10, 7423-7433.

31. Liu LL* and Greaver TL*. 2010. A global perspective of below-ground carbon cycle under nitrogen enrichment. Ecology Letters 13: 819-828

32. Liu LL* and Greaver TL*. 2009. A review of nitrogen enrichment effects on three biogenic GHGs: the CO2 sink may be largely offset by stimulated N2O and CH4 emission. Ecology Letters 12: 1103-1117

33. Liu LL*, King JS, Booker FL, Giardina CP, Allen LH and Hu SJ. 2009. Enhanced litter input rather than changes in litter chemistry drive soil carbon and nitrogen cycles under elevated CO2: a microcosm study. Global Change Biology 15:441-453

34. Liu LL*, King JS, Giardina CP and Booker FL. 2009. The influence of chemistry, production and community composition on leaf litter decomposition under elevated atmospheric CO2 and tropospheric O3 in a northern hardwood ecosystem. Ecosystems12: 401416

35. Liu LL*, King JS and Giardina CP. 2007. Effects of elevated atmospheric CO2 and tropospheric O3 on nutrient dynamics: decomposition of leaf litter in trembling aspen and paper birch communities. Plant and Soil 299: 65-82.

36. Liu LL*, King JS and Giardina CP. 2005. Effects of elevated atmospheric CO2 and tropospheric O3 on leaf litter production and chemistry in trembling aspen and paper birch communities. Tree Physiology 15:1511-1522.