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伏玉玲

教授

生态与环境科学学院      

个人资料

  • 部门: 生态与环境科学学院
  • 毕业院校: 中国科学院地理科学与资源研究所
  • 学位: 博士
  • 学历: 研究生
  • 邮编:
  • 联系电话: 021-54341143
  • 传真:
  • 电子邮箱: ylfu@re.ecnu.edu.cn
  • 办公地址: 闵行校区资环楼364室
  • 通讯地址:

教育经历

           1997 - 2001  北京大学 城市与环境学系,环境科学,学士

           2001 - 2006  中国科学院地理科学与资源研究所,生态学,博士


工作经历

Ø        

2006 - 2012       中国科学院地理科学与资源研究所 (IGSNRR)

2009 - 2010       美国田纳西大学(UT) & 橡树岭国家实验室(ORNL)环境学部

2012 - 至今       华东师范大学 (ECNU)



个人简介

社会兼职

研究方向

 

研究领域全球变化生态学、生态系统生态学、植物生理生态学


研究兴趣与方向主要采用野外受控实验研究方法,探究陆地生态系统碳水关键过程响应和适应全球气候变化的机理,包括植物地上地下生长与分配、凋落物分解、根系分泌、激发效应、土壤碳动态等植物-土壤-微生物间的交互作用机制。


招生意向:欢迎具有生态学、生物学、林学、自然地理学等专业背景的同学报考研究生。



招生与培养

开授课程

《生态学基础I》        本科生,一年级,专业核心

《个体与生理生态学》     本科生,二年级,专业核心课

《个体与生理生态学实验》  本科生,二年级,专业核心

《全球变化与人类活动》   本科生,全校通识选修课

《生态学研究进展》      研究生课程

 


科研项目

  1. 国家自然科学基金委面上项目:不同干旱强度对亚热带优势树种根系分泌物及其介导激发效应的影响与机制(2023-2026),主持

  2. 国家自然科学基金委重大国际合作A3前瞻计划项目:东北亚生态系统温室气体交换及其对气候变化的响应研究(2022-2027),课题主持

  3. 上海市自然科学基金项目:极端干旱胁迫下常绿阔叶林根系分泌动态及其对土壤碳关键过程的影响(2021-2024),主持

  4. 国家自然科学基金委面上项目:长三角地区碳源/汇时空演变及其与经济和城市化水平的协调发展研究(2015-2018),专题负责

  5. 上海市教育委员会科研创新重大项目:上海城市植被碳储量及碳汇强度时空格局研究(2014-2017),主持

  6. 国家自然科学基金委面上项目:物候变化对陆地生态系统碳收支的影响(2011-2013),主持

  7. 国家自然科学基金委青年项目:中国北方温带生态系统季节性碳汇/源转变温度及其对碳收支的影响(2008-2010),主持

  8. 国家自然科学基金委重大项目:森林生态系统碳--水耦合循环的生物调控机制(2013-2017),课题骨干

  9. 上海市科委2012年度“科技创新行动计划”社会发展领域项目(2012 -2014),专题负责

  10. 环保部全国生态环境十年变化遥感调查与评估专项项目(2011-2013),专题负责

  11. 科技部973计划项目:中国陆地生态系统碳--水通量的相互作用关系及其对环境变化的响应和适应机制(2010-2014),专题负责

  12. 国家自然科学基金委重大国际合作A3前瞻计划项目:CarboEastAsia-基于通量观测网络的生态系统碳循环过程与模型综合研究(2007-2012),项目骨干

  13. 中科院知识创新工程重要方向项目:陆地生态系统碳氮通量过程及其耦合关系集成研究(2007-2009),项目骨干

  14. 中科院创新团队国际合作伙伴计划“人类活动与生态系统变化团队”(2006-2008),项目骨干

学术成果

 

[1] 发表论文情况

  1. Jia S, Yuan T, Fu Y*, Penuelas J, Zhou G, Zhou L, Liu D, He Y, Liu R, Wang X, Song B, Jiang Z, Zhou X* (2024). Fungi and bacteria trade-off mediates drought-induced reduction in wood decomposition. Catena, 2024, 243: 108169

  2. Du Z, Zhou L, Thakur MP, Zhou G, Fu Y, Li N, Liu R, He Y, Chen H, Li J, Zhou H, Li M, Lu M, Zhou X* (2024). Mycorrhizal associations relate to stable convergence in plant–microbial competition for nitrogen absorption under high nitrogen conditions. Global Change Biology, DOI:10.1111/gcb.17338

  3. Huang C, He Y, Zhou L, Liu R, Chen H, Du Z, Fu Y, Zhou Y, Wu C, Zhou G, Zhou X* (2024). Opposite effects of soil pH on bacteria and fungi β diversity in forests at a continental scale. Journal of Environmental Management, 370: 122428

  4. 龙吉兰, 蒋铮, 刘定琴, 缪宇轩, 周灵燕, 冯颖, 裴佳宁, 刘瑞强, 周旭辉, 伏玉玲* (2024). 干旱下植物根系分泌物及其介导的根际激发效应研究进展. 植物生态学报, 2024, 48 (7): 817-827

  5. Wang X, Zhou L,Fu Y, Jiang Z, Jia S, Song B, Liu D, Zhou X*(2024). Drought-induced changes in rare microbial community promoted contribution of microbial necromass C to SOC in a subtropical forest. Soil Biology and Biochemistry, 189:109252

  6. Jiang Z, Fu Y*, Zhou L*, He Y, Zhou G, Dietrich P, Long J, Wang X, Jia S, Ji Y,Jia Z, Song B, Liu R, Zhou X (2023) Drought-induced changes in root exudation rates are mainly regulated by root morphological traits and mycorrhizal symbioses. Global Change Biology, DOI: 10.1111/gcb.16685

  7. Fu J, Zhou X*He YLiu RYao YZhou GChen HZhou L, Fu YBai S H (2023).Co-application of biochar and organic amendments on soil greenhouse gas emissions: A meta-analysis. Science of The Total Environment,  897, 2023: 166171

  8. He M, Pan Y, Zhou G, Barry KE, Fu Y*, Zhou X* (2022) Grazing and global change factors differentially affect biodiversity-ecosystem functioning relationships in grassland ecosystems. Global Change Biology, DOI: 10.1111/gcb.16305.

  9. Zhou L, Zhou X*, He Y, Fu Y, Du Z, Shao J, Lu M, Sun X, Li C, Lu C, Liu H, Zhou G, Bai SH, Thakur MP (2022). Global systematic review with meta-analysis shows that warming effects on terrestrial plant biomass allocation are influenced by precipitation and mycorrhizal association. Nature Communications, 13: 4914. DOI: 10.1038/s41467-022-32671-9.

  10.  Ji Y, He Y*, Shao J, Liu H, Fu Y, Chen X, Chen Y, Liu R, Gao J, Li N, Zhou G, Zhou L, Zhou X* (2022) Spatial variability of dissolved organic carbon flux is driven by plant traits more than climate in global forests. Forests, 13, 1119. https://doi.org/10.3390/f13071119.

  11.  Jiang Z, Thakur MP, Liu R*, Zhou G, Zhou L, Fu Y, Zhang P, He Y, Shao J, Gao J, Li N, Wang X, Jia S, Chen Y, Zhang C, Zhou X* (2022) Soil P availability and mycorrhizal type determine root exudation in subtropical forests. Soil Biology and Biochemistry, 171:108772.  

  12. He Y, Yao Y, Jia Z, Chen X, Zhou L, Shao J, Liu R, Zhou G, Fu Y, Sun X, Zhou X*, Bai SH (2021) Antagonistic interaction between biochar and nitrogen addition on soil greenhouse gas fluxes: A global synthesis. Global Change Biology-Bioenergy, 13:1636–1648.

  13. Du Z, Wang J, Zhou G, Bai SH, Zhou L, Fu Y, Wang C, Wang H, Yu G, Zhou X* (2021) Differential effects of nitrogen vs. phosphorus limitation on terrestrial C storage: a Bayesian approach.Science of the Total Environment, 795: 148485.

  14. Zhou L, Yan W, Sun X, Shao J, Zhang P, Zhou G, He Y, Liu H, Fu Y*, Zhou X  (2021). Regulation of climate, soil and hydrological factors on macrophyte biomass allocation for coastal and inland wetlands in China. Science of Total Environment, 774: 145317.

  15. Zhang P , Zhou X , Fu Y* , Shao J., Zhou L., Li S., Zhou G., Hu Z., Hu J., Bai S.H., McDowell N. G.(2020) Differential effects of drought on nonstructural carbohydrate storage in seedlings and mature trees of four species in a subtropical forest. Forest Ecology and Management, 469. DOI:10.1016/j.foreco.2020.118159

  16. Liu R, Zhou X*, Wang J, Shao J, Fu F, Liang C, Yan E, Chen X, Wang X, Bai S  (2019),  ifferential magnitude of rhizosphere effects on soil aggregation at three stages of subtropical secondary forest successions. Plant and Soil, 436: 365-380.

  17. Zhou G, Zhou X, Nie Y, Bai SH, Zhou L, Shao J, Cheng W, Wang J, Hu F, Fu Y* (2018) Droughtinduced changes in root biomass largely result from altered root morphological traits: Evidence from a synthesis of global field trials. Plant, Cell & Environment.1–11. https://doi.org/10.1111/pce.13356

  18. Zhou X, Zhou L., Nie Y., Fu Y., Du Z., Shao J., Zheng Z., Wang X. (2016).Similar responses of soil carbon storage to drought and irrigation in terrestrial ecosystems but with contrasting mechanisms: A meta-analysis. Agriculture Ecosystems & Environment ,228, 70-81

  19. Zhou X, Fu Y., Zhou L., Li B., Luo Y. (2013)An imperative need for global change research in tropical forest. Tree Physiology, 33, 903–912

  20. Yu GR, Zhu XJ, Fu YL, He HL, Wang QF, Wen XF. (2013). Spatial patterns and climate drivers of carbon fluxes in terrestrial ecosystems of China. Global Change Biology, doi: 10.1111/gcb.12079

  21. Fu Y., Zheng Z., Yu G., Hu Z., Sun X., Shi P., Wang Y., Zhao X.  (2009) Environmental influences on carbon dioxide fluxes over threegrassland ecosystems in China. Biogeosciences., 6, 2879–2893

  22. Yan H., Fu Y., Xiao X., Huang H., He H., Yu G., Ediger L (2009). Modeling Gross Primary Productivity for winter wheat – maize double cropping system using MODIS time series and CO2 eddy flux tower data. Agriculture, Ecosystems and Environment. 129, 391–400

  23. Fu Y., Yu G., Sun X., Li Y., Wen X., Zhang L., Li Z., Zhao L., Hao Y. (2006) Depression of net ecosystem CO2 exchange in semi-arid Leymus chinensis steppe and alpine shrub. Agricultural and Forest Meteorology. 137:234–244

  24. Fu Y., Yu G., Wang Y., Li Z., Hao Y. (2006) Effect of water stress on ecosystem photosynthesis and respiration in a Leymus chinensis steppe in Inner Mongolia. Science in China Series D Earth Sciences. 49(Supp. II): 196-206

  25. Yu G., Fu Y., Sun X., Wen X., Zhang L.( 2006) Recent Progress and future directions of ChinaFLUX. Science in China Series D Earth Sciences. 49(Supp. II): 1-23

  26. Zhang M., Yu G.R., Zhuang J., Gentry R., Fu Y.L., Sun X.M., et al. (2011) Effects of cloudiness change on net ecosystem exchange, light use efficiency, and water use efficiency in typical ecosystems of China. Agricultural and Forest Meteorology. 151, 803–816

  27. Yu G., Zheng Z., Wang Q., Fu Y., Zhuang J., Sun X., Wang Y (2010). The spatio-temporal pattern of soil respiration of terrestrial ecosystems in China: The development of a geostatistical model and its simulation. Environmental Science and Technology. 44, 6074–6080

  28. Zheng Z., Yu G., Fu Y., Wang Y., Sun X., Wang Y (2009). Temperature sensitivity of soil respiration is affected by prevailing climatic conditions and soil organic carbon content: A trans-China based case study. Soil Biology & Biochemistry, 41, 1531–1540

  29. Hu Z., Yu G., Fu Y., Sun X., Li Y., Shi P., Wang Y., Zheng Z (2008). Effects of vegetation control on ecosystem water use efficiency within and amongst four grassland ecosystems in China. Global Change Biology, 14, 1609–1619, doi: 10.1111/j.1365-2486.2008.01582.x

  30. Yu G., Zhang L., Sun X., Fu Y., Wen X., Wang Q., Li S., Ren C., Song X., Liu Y., Han S., Yan J(2008). Environmental controls over carbon exchange of three forest ecosystems in eastern China. Global Change Biology.  14, 1–17, doi: 10.1111/j.1365-2486.2008.01663.x

  31. Wu W., Wang S., Xiao X., Yu G.,Fu Y., Hao Y (2008). Modeling gross primary production of a temperate grassland ecosystem in Inner Mongolia, China, using MODIS imagery and climate data. Science in China Series D: Earth Sciences.  51(10): 1501-1512

  32. Xu S., Zhao X., Fu Y., Zhao L., Li Y., Yu G., Cao G.,  Gu S., Wang Q., Du M.( 2005) Analysis of CO2 fluxes during growing and non-growing season in an alpine shrub ecosystem on the Qinghai-Tibet Plateau. Science in China Series D Earth Sciences. 48 (Supp. I): 133-140

  33. Li Z., Yu G., Li Q., Fu Y., Li Y.(2006) Effect of spatial variation on areal evapotranspiration simulation in Haibei, Tibet plateau, China. International Journal of Remote Sensing.27: 3487-3498

  34. Yu G*., Zhang L., Sun X., Fu Y., Li Z. (2005) Advances in carbon flux observation and research in Asia. Science in China Series D Earth Sciences. 48 (Supp. I): 51-62

  35. Zhang L., Yu G*., Sun X., Wen X., Ren C., Fu Y., Li Q., Li Z. Liu Y., GuanD., Yan J. (2006) Seasonal variations of ecosystem apparent quantum yield (α) and maximum photosynthesis rate (Pmax) of different forest ecosystems in China.Agricultural and Forest Meteorology. 137, 176~187

  36. Li Z., Yu G., Xiao X., Li Y., Zhao X., Ren C., Zhang L., Fu Y. (2007) Modeling gross primary production of alpine ecosystems in the Tibetan Plateau using MODIS images and climate data. Remote Sensing of Environment. 107: 510–519

  37. Li Z., Yu G., Wen X.,Zhang L., Ren C.,Fu Y. (2005) Energy balance closure at ChinaFLUX sites. Science in China Series D Earth Sciences. 48 (Supp. I): 51-62.

  38. 李耸耸, 周贵尧,胡嘉琪,程伟松,王嘉伟, 袁腾飞伏玉玲*. (2018) 陆地生态系统土壤呼吸对全球气候变化响应的研究进展. 亚热带资源与环境学报, (02): 72~78 ; 其他

  39. 周陶冶, 伏玉玲, 张佩佩, 颜韦.  (2017) 土地利用对上海城市绿地土壤有机碳含量格局的影响研究. 环境科学与管理,  42 (4) :14-17

  40. 李佳璇,玉玲*,象伟宁,周陶冶 (2015) 生态智慧与当代城市绿地建设. 北方园艺, (16): 87~93,

  41. 刘敏*, 伏玉玲, 杨芳.  2013. 基于涡度相关技术的城市碳通量研究进展. 应用生态学报, 25(2): 611-619

  42. 伏玉玲, 于贵瑞*, 王艳芬, 李正泉, 郝彦宾. (2006) 水分胁迫对内蒙古羊草草原生态系统光合和呼吸作用的影响.中国科学D, 36(增刊I):174~182

  43. 于贵瑞*, 伏玉玲, 孙晓敏, 温学发, 张雷明.(2006)中国陆地生态系统通量观测研究网络(ChinaFLUX)主要研究进展及其发展思路. 中国科学D. 36 (增刊I): 1~21

  44. 王秋凤, 刘颖慧, 何念鹏, 方华军, 伏玉玲,于贵瑞*.(2012) 中国区域陆地生态系统碳收支综合研究的科技需求与重要科学问题. 地理科学进展. 31,(1):78~87

  45. 张弥,温学发, 于贵瑞*,张雷明,伏玉玲,孙晓敏,韩士杰. (2010) 二氧化碳储存通量对森林生态系统碳收支的影响. 应用生态学报.  21 (5) : 1201 – 1209

  46. 于贵瑞,方华军,伏玉玲,王秋凤.(2011) 区域尺度陆地生态系统碳收支及其循环过程研究进展.生态学报 31( 19) : 5449- 5459

  47. 黄辉, 张劲松, 孟平, 伏玉玲, 郑宁; 高峻. (2011) Seasonal Variation and Meteorological Control of CO2 Flux in a Hilly Plantation in the Mountain Areas of North China. Acta Meteor. Sinica, 25(2), 238-248, doi: 10.1007/s13351-011-0030-y

  48. 伍卫星, 王绍强, 肖向明, 于贵瑞, 伏玉玲, 郝彦宾. (2008) 利用MODIS影像和气候数据模拟中国内蒙古温带草原生态系统总初级生产力. 中国科学 D, 38(8): 993-1004

  49. 于贵瑞* ,张弥,温学发,于贵瑞,张雷明,伏玉玲,孙晓敏,韩士杰.( 2010) 二氧化碳储存通量对森林生态系统碳收支的影响. 应用生态学报, 21 (5) : 1201 - 1209

  50. 黄辉, 于贵瑞*, 伏玉玲, 张雷明, 任传友, 韩士杰. (2008) 温带阔叶红松林生态系统潜热通量模拟气孔导度组合模型在ShuttleworthWallace双源模型中的应用. 植物生态学报.  28(7): 1-9 (英文)

  51. 赵亮, 徐世晓, 伏玉玲, 古松, 李英年*. (2005) 积雪对藏北高寒草甸CO2和水汽通量的影响. 草地学报. 3: 242-247

  52. 李英年, 王勤学, 古松, 伏玉玲, 杜明远, 赵亮, 赵新全, 于贵瑞. (2004)高寒植被类型及其植物生产力的监测地理学报. 59: 40-48

  53. 李正泉,于贵瑞,赵风华,伏玉玲,李英年.( 2007) 通量贡献区叶面积指数空间分布的测定.中国生态农业学报, 15(6), 131-134

  54. 李春,何洪林,刘敏,苏文,伏玉玲, 张雷鸣,温学法,于贵瑞.  (2008) ChinaFLUX CO2 通量数据处理系统与应用. 地球信息科学, 5(10), 557-565

  55. 于贵瑞, 张雷明,孙晓敏,李正泉,伏玉玲.( 2004) 亚洲区域陆地生态系统碳通量观测研究进展.中国科学 D, 34: 15-29

[2] 参编著作  

  1. Niu S.,Fu Y.,Gu L., Luo Y. 2013. Temperature Sensitivity of Canopy Photosynthesis Phenology in Northern Ecosystems. In: Phenology: An Integrative Environmental Science. Springer, pp: 503-519

  2. 伏玉玲, 张雷明, 于贵瑞, 赵风华. 全球陆地生态系统的通量观测及其实例. 见:《陆地生态系统通量观测的原理与方法(第二版)(于贵瑞,孙晓敏等著, 15). 北京: 高等教育出版社. 2018, 447-486页

  3. 李正泉, 伏玉玲, 赵风华, 于贵瑞, 刘新安. 全球陆地大气边界层观测试验/生态系统通量观测网络与相关研究计划. 见:《陆地生态系统通量观测的原理与方法(第二版) (于贵瑞,孙晓敏等著, 16).北京高等教育出版社. 2018, 487-519页

  4. 于贵瑞, 温学发, 伏玉玲, 张雷明, 李正泉. 涡度相关观测中的若干理论和技术问题. 见:《陆地生态系统通量观测的原理与方法(第二版)(于贵瑞,孙晓敏等著, 9). 北京: 高等教育出版社. 2018, 241-291

  5. 于贵瑞, 伏玉玲, 宋霞, 胡中民, 孙晓敏. 国际通量观测研究的进展与问题. 见:中国陆地生态系统碳通量观测研究(于贵瑞, 孙晓敏主编, 1). 北京:科学出版社 . 2008, 1-25

  6. 于贵瑞, 张雷明, 伏玉玲, 李正泉, 温学发, 宋霞. 中国陆地生态系统碳通量的时空变异性与环境控制机制. : 中国陆地生态系统碳通量观测技术及时空变化特征.(于贵瑞, 孙晓敏主编, 6). 北京:科学出版社. 2008, 218-260

  7. 肖向明,闫慧敏,伏玉玲,张雷明. 陆地生态系统初级生产力遥感模型估算. 见:人类活动与生态系统变化的前沿科学问题.(于贵瑞等著,第9章). 北京:高等教育出版社,2009, 267-283

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