—— 中国科学院植物研究所植被与环境变化重点实验室

个人简历

梁宇，研究生教育学历，博士学位: 研究组：森林生态系统功能与修复研究团队; 民族：汉; 研究领域：真菌多样性及其生态系统功能; 籍贯：黑龙江省; 导师资格：硕士生导师; 出生年月： 1974.02; 职称：副研究员; 毕业院校：植物研究所; 入职时间：
2003.7; 毕业时间： 2003.08; 办公电话： 010-62836958; 电子邮件： coolrain@ibcas.ac.cn

传真号码：

学习工作经历
科研项目
论文专著
所获奖励

学习经历

1993.09-1997.06 南开大学，本科
1997.09-2000.06 南开大学，硕士
2000.09-2003.06 中国科学院植物研究所，博士

工作经历
2003.09-2008.12 中国科学院植物研究所，助理研究员
2009.01-至今中国科学院植物研究所，副研究员
2013.09-2013.11 美国加州大学伯克利分校，访问学者
2017.11-2018.10 瑞士苏黎世大学，访问学者

任职经历

主要从事真菌多样性及其生态系统功能研究，通过在自然生态系统和人工构建群落中监测共生、腐生和病原真菌类群多样性，探讨其在物种共存、群落生产力和多样性维持中的作用。在Ecology letters、Science China Life Sciences、Soil Biology & Biochemistry等杂志发表SCI论文多篇。

主要研究方向：
主要从事真菌多样性及其生态系统功能研究。通过野外控制实验以及天然林中真菌多样性的长期监测，分析不同功能类群的真菌多样性及其对BEF关系的调控机制。

主持和参加的科研项目：
生物多样性丧失对生态系统功能的影响及其机制，国家重点研发计划-子课题，2023-2027，主持
植物多样性与病原菌传播抑制对植物生长和更新的影响，中国科学院战略先导项目(B类)项目-子课题，2018-2023，主持
菌根真菌网络和土壤病原真菌对亚热带森林幼苗更新存活和生长的整合效应，国家基金委面上项目，2012-2015，主持
菌根真菌多样性与植物功能群的关系及其在生态系统稳定性维持中的作用，国家基金委面上项目，2010-2012, 主持

论文专著：
2025
[1] Han B^#, Wang Y^#, Zhang S, Mi X, Chen L, Liu X, Ma K, Liang Y*. 2025. Molecular functional diversity of foliar endophytic fungi and their contributions to seedling survival in a subtropical forest. Ecology Letters. 28: e70290.
2023
[2] Shang H, Wang Y, Han B, Bongers FJ, Mi X, Chen L, Liang Y*, Ma K*. 2023. Molecular defense responses to natural enemies determine seedling survival in a subtropical forest. Forest Ecology and Management. 544: 121191.
[3] Shang H, Wang Y, Han B, Mi X, Chen L, Yu Liang*, Ma K. 2023. Effects of functional phylogeny of light-response-related orthologous genes on seedling survival in a subtropical forest. Forest Ecosystems. 10: 100087.
2022
[4] Wang F, Mi X, Chen L, Xu W, Durka W, Swenson NG, Johnson DJ, Worthy SJ, Xue J, Zhu Y, Schmid B, Liang Y*, Ma K. 2022. Differential impacts of adult trees on offspring and non-offspring recruits in a subtropical forest. Science China Life Sciences. 65: 1905-1913.
[5] Yang B, Liang Y*, Schmid B, Baruffol M, Li Y, He L, Salmon Y, Tian Q, Niklaus PA, Ma K. 2022. Soil fungi promote biodiversity-productivity relationships in experimental communities of young trees. Ecosystems. 25: 858–871.
2020以前
[6] Shakoor A, Li S, Wang F, Tian T, Liang Y*, Ma K. 2019. Spatial Patterns and Determinants of Common root-associated Fungi in a Subtropical Forest of China. Journal of Plant Ecology. 12: 255-263.
[7] Li S, Shakoor A, Wubet T, Zhang N, Liang Y*, Ma K. 2018. Fine-scale variations of fungal community in a heterogeneous grassland in Inner Mongolia: Effects of the plant community and edaphic parameters. Soil Biology and Biochemistry. 122: 104-110.
[8] Zhang Y, Ni J, Tang F, Jiang L, Guo T, Pei K, Sun L*, Liang Y*. 2017. The effects of different human disturbance regimes on root fungal diversity of Rhododendron ovatum in subtropical forests of China. Canadian Journal of Forest Research. 47: 659-666.
[9] Zhang Y, Ni J, Tang F, Pei K, Jiang L, Guo T, Sun L*, Liang Y*. 2017. Diversity of root-associated fungi of Vaccinium mandarinorum along a human disturbance gradient in subtropical forests, China. Journal of Plant Ecology.10: 56-66.
[10] Zhang Y, Ni J, Tang F, Pei K, Luo Y, Jiang L, Sun L*, Liang Y*. 2016. Root-associated fungi of Vaccinium carlesii in subtropical forests of China: intra- and inter-annual variability and impacts of human disturbances. Scientific Reports. 6: 22399.
[11] Zhang B, Li S, Chen S*, Ren T, Yang Z, Zhao H, Liang Y*, Han X. 2016. Arbuscular mycorrhizal fungi regulate soil respiration and its response to precipitation change in a semiarid steppe. Scientific Reports. 6: 19990.
[12] Sun X, Su Y, Zhang Y, Wu M, Zhang Z, Pei K, Sun L, Wan S, Liang Y*. 2013. Diversity of arbuscular mycorrhizal fungal spore communities and its relations to plants under increased temperature and precipitation in a natural grassland. Chinese Science Bulletin. 58: 4109-4119.
[13] Sun L, Pei K, Wang F, Ding Q, Bing Y, Gao B, Zheng Y, Liang Y*, Ma K. 2012. Different distribution patterns between putative ercoid mycorrhizal and other fungal assemblages in roots of Rhododendron decorum in the southwest of China. PLoS ONE. 7: e49867.
[14] Bi J^#, Zhang N^#, Liang Y*, Yang H, Ma K. 2011. Interactive effects of water and nitrogen addition on soil microbial communities in a semiarid steppe. Journal of Plant Ecology, 5: 320-329.
[15] Ding Q, Liang Y*, Legendre P, He X, Pei K, Du X, Ma K. 2011. Diversity and composition of ectomycorrhizal community on seedling roots: the role of host preference and soil origin. Mycorrhiza. 21: 669–680.
[16] Liang Y, Chen H, Tang M, Shen S*. 2007. Proteome analysis of an ectomycorrhizal fungus Boletus edulis under salt shock. Mycological Research. 111: 939-946.
[17] Liang Y, Chen H, Tang M, Yang P, Shen S*. 2007. Responses of Jatropha curcas seedlings to cold stress: photosynthesis-related proteins and chlorophyll fluorescence characteristics. Physiologia Plantarum. 131: 508-517.
[18] Liang Y, Guo L, Du X, Ma K*. 2007. Spatial structure and diversity of woody plants and ectomycorrhizal fungi in a natural subtropical forest. Mycorrhiza. 17: 271-278.
[19] Liang Y, Guo L, Ma K*. 2005. Population genetic structure of an ectomycorrhizal fungus Amanita manginiana in a subtropical forest over two years. Mycorrhiza. 15: 137-142.
[20] Liang Y, Guo L, Ma K*. 2004. Genetic structure of an ectomycorrizal fungus Russula vinosa population in a subtropical forest in Dujiangyan, southwest of China. Mycorrhiza.14: 235-240.
[21] Liang Y, Guo L, Ma K*. 2004. Spatial pattern of the most common ectomycorrhizal fungi in a mature subtropical forest in Dujiangyan, southwest of China. Acta Botanica Sinica. 46: 29-34.

学习经历

1993.09-1997.06 南开大学，本科
1997.09-2000.06 南开大学，硕士
2000.09-2003.06 中国科学院植物研究所，博士

工作经历

2003.09-2008.12 中国科学院植物研究所，助理研究员
2009.01-至今中国科学院植物研究所，副研究员
2013.09-2013.11 美国加州大学伯克利分校，访问学者
2017.11-2018.10 瑞士苏黎世大学，访问学者

任职情况

科研项目

主要从事真菌多样性及其生态系统功能研究，通过在自然生态系统和人工构建群落中监测共生、腐生和病原真菌类群多样性，探讨其在物种共存、群落生产力和多样性维持中的作用。在Ecology letters、Science China Life Sciences、Soil Biology & Biochemistry等杂志发表SCI论文多篇。

主要研究方向：

主要从事真菌多样性及其生态系统功能研究。通过野外控制实验以及天然林中真菌多样性的长期监测，分析不同功能类群的真菌多样性及其对BEF关系的调控机制。

主持和参加的科研项目：

生物多样性丧失对生态系统功能的影响及其机制，国家重点研发计划-子课题，2023-2027，主持

植物多样性与病原菌传播抑制对植物生长和更新的影响，中国科学院战略先导项目(B类)项目-子课题，2018-2023，主持

菌根真菌网络和土壤病原真菌对亚热带森林幼苗更新存活和生长的整合效应，国家基金委面上项目，2012-2015，主持

菌根真菌多样性与植物功能群的关系及其在生态系统稳定性维持中的作用，国家基金委面上项目，2010-2012, 主持

论文专著

论文专著：

2025

[1] Han B^#, Wang Y^#, Zhang S, Mi X, Chen L, Liu X, Ma K, Liang Y*. 2025. Molecular functional diversity of foliar endophytic fungi and their contributions to seedling survival in a subtropical forest. Ecology Letters. 28: e70290.

2023

[2] Shang H, Wang Y, Han B, Bongers FJ, Mi X, Chen L, Liang Y*, Ma K*. 2023. Molecular defense responses to natural enemies determine seedling survival in a subtropical forest. Forest Ecology and Management. 544: 121191.

[3] Shang H, Wang Y, Han B, Mi X, Chen L, Yu Liang*, Ma K. 2023. Effects of functional phylogeny of light-response-related orthologous genes on seedling survival in a subtropical forest. Forest Ecosystems. 10: 100087.

2022

[4] Wang F, Mi X, Chen L, Xu W, Durka W, Swenson NG, Johnson DJ, Worthy SJ, Xue J, Zhu Y, Schmid B, Liang Y*, Ma K. 2022. Differential impacts of adult trees on offspring and non-offspring recruits in a subtropical forest. Science China Life Sciences. 65: 1905-1913.

[5] Yang B, Liang Y*, Schmid B, Baruffol M, Li Y, He L, Salmon Y, Tian Q, Niklaus PA, Ma K. 2022. Soil fungi promote biodiversity-productivity relationships in experimental communities of young trees. Ecosystems. 25: 858–871.

2020以前

[6] Shakoor A, Li S, Wang F, Tian T, Liang Y*, Ma K. 2019. Spatial Patterns and Determinants of Common root-associated Fungi in a Subtropical Forest of China. Journal of Plant Ecology. 12: 255-263.

[7] Li S, Shakoor A, Wubet T, Zhang N, Liang Y*, Ma K. 2018. Fine-scale variations of fungal community in a heterogeneous grassland in Inner Mongolia: Effects of the plant community and edaphic parameters. Soil Biology and Biochemistry. 122: 104-110.

[8] Zhang Y, Ni J, Tang F, Jiang L, Guo T, Pei K, Sun L*, Liang Y*. 2017. The effects of different human disturbance regimes on root fungal diversity of Rhododendron ovatum in subtropical forests of China. Canadian Journal of Forest Research. 47: 659-666.

[9] Zhang Y, Ni J, Tang F, Pei K, Jiang L, Guo T, Sun L*, Liang Y*. 2017. Diversity of root-associated fungi of Vaccinium mandarinorum along a human disturbance gradient in subtropical forests, China. Journal of Plant Ecology.10: 56-66.

[10] Zhang Y, Ni J, Tang F, Pei K, Luo Y, Jiang L, Sun L*, Liang Y*. 2016. Root-associated fungi of Vaccinium carlesii in subtropical forests of China: intra- and inter-annual variability and impacts of human disturbances. Scientific Reports. 6: 22399.

[11] Zhang B, Li S, Chen S*, Ren T, Yang Z, Zhao H, Liang Y*, Han X. 2016. Arbuscular mycorrhizal fungi regulate soil respiration and its response to precipitation change in a semiarid steppe. Scientific Reports. 6: 19990.

[12] Sun X, Su Y, Zhang Y, Wu M, Zhang Z, Pei K, Sun L, Wan S, Liang Y*. 2013. Diversity of arbuscular mycorrhizal fungal spore communities and its relations to plants under increased temperature and precipitation in a natural grassland. Chinese Science Bulletin. 58: 4109-4119.

[13] Sun L, Pei K, Wang F, Ding Q, Bing Y, Gao B, Zheng Y, Liang Y*, Ma K. 2012. Different distribution patterns between putative ercoid mycorrhizal and other fungal assemblages in roots of Rhododendron decorum in the southwest of China. PLoS ONE. 7: e49867.

[14] Bi J^#, Zhang N^#, Liang Y*, Yang H, Ma K. 2011. Interactive effects of water and nitrogen addition on soil microbial communities in a semiarid steppe. Journal of Plant Ecology, 5: 320-329.

[15] Ding Q, Liang Y*, Legendre P, He X, Pei K, Du X, Ma K. 2011. Diversity and composition of ectomycorrhizal community on seedling roots: the role of host preference and soil origin. Mycorrhiza. 21: 669–680.

[16] Liang Y, Chen H, Tang M, Shen S*. 2007. Proteome analysis of an ectomycorrhizal fungus Boletus edulis under salt shock. Mycological Research. 111: 939-946.

[17] Liang Y, Chen H, Tang M, Yang P, Shen S*. 2007. Responses of Jatropha curcas seedlings to cold stress: photosynthesis-related proteins and chlorophyll fluorescence characteristics. Physiologia Plantarum. 131: 508-517.

[18] Liang Y, Guo L, Du X, Ma K*. 2007. Spatial structure and diversity of woody plants and ectomycorrhizal fungi in a natural subtropical forest. Mycorrhiza. 17: 271-278.

[19] Liang Y, Guo L, Ma K*. 2005. Population genetic structure of an ectomycorrhizal fungus Amanita manginiana in a subtropical forest over two years. Mycorrhiza. 15: 137-142.

[20] Liang Y, Guo L, Ma K*. 2004. Genetic structure of an ectomycorrizal fungus Russula vinosa population in a subtropical forest in Dujiangyan, southwest of China. Mycorrhiza.14: 235-240.

[21] Liang Y, Guo L, Ma K*. 2004. Spatial pattern of the most common ectomycorrhizal fungi in a mature subtropical forest in Dujiangyan, southwest of China. Acta Botanica Sinica. 46: 29-34.

所获奖励