以高黎贡山和玉龙雪山海拔梯度森林样带为平台，开展生物多样性、群落系统发育和生态系统功能研究

一、海拔梯度生物多样性的形成和维持机制

（1）近缘物种的共存机制：以横断山区代表性的杜鹃属和柯属植物为研究对象，结合外生菌根（EcM fungi）和杜鹃花类菌根真菌（ErM fungi），研究菌根网络对杜鹃属和柯属植物沿海拔梯度的共存机制。

（2）森林群落的构建机制：基于系统发育和功能性状，结合环境因子，开展群落内物种的共存机制和转变机制，预测气候变化对群落系统发育结构及群落稳定性的影响。

 

二、海拔梯度生物多样性-生态系统功能关系

（1）生物多样性-碳储量关系研究：研究森林垂直群落、不同菌根植物和真菌对地上和地下碳储量的影响及驱动机制。

（2）生物样性-生产力关系研究：结合十年样方复查数据，综合地上和地下生物多样性，研究生物多样性-生产力的关系及驱动机制。

 

三、海拔梯度多营养级多样性-生态系统多功能关系

整合碳储量、生产力、养分循环、幼苗更新等生态系统功能指标，整合不同维度多样性（物种多样性、系统发育多样性和功能多样性），收集多营养级的生物类群分析多营养级多样性对生态系统多功能性的影响，揭示维持生态系统多功能性的主要生态学过程，为合理利用和管理森林生态系统的功能和服务提供理论依据。

 

通过上述研究，目前通过物种、系统发育和功能性状维度揭示了滇西北沿海拔梯度森林群落的复杂构建机制（Luo et al. 2019 Journal of Biogeography; Ma et al. 2024 Science of The Total Environment）。围绕生物多样性-生态系统功能关系，将群落构建和生态系统功能有机结合，创新性地提出了森林垂直群落的生态系统功能的“1+ 1 > 2”效应，呼吁在山地森林生态系统实施天然林保护或者人工林建设中，不仅要考虑乔木树种的多样性，林下的灌木和草本作为独特的系统也需要纳入生态系统服务功能的考量中 (Luo et al. 2019 Ecology Letters)。整合地上植物和地下菌根真菌，研究揭示了外生菌根树种和菌根真菌在维持亚热带山地海拔梯度碳储量中发挥的重要作用（Luo et al. 2023 Journal of Biogeography）。进一步整合森林生态系统中的多种生物类群和多种生态系统功能指标，揭示了多营养级多样性及其互作网络的复杂性在生态系统多功能性的维持过程中的重要性 (Luo et al. 2022 Ecology)。相关的系列研究对滇西北山地森林生态系统的科学管理和保护提供了重要的科学支撑。同时，对于该地区的森林生态系统修复和天然林保护具有重要的指导意义。

 

群落生态学

进化生态学

生物多样性

071001-植物学

群落生态学；进化生态学

2012-09--2016-07   云南大学   博士
2009-09--2012-07   中国科学院西双版纳热带植物园   硕士
2005-09--2009-07   新疆大学   学士

   

2019-11~现在, 中国科学院昆明植物研究所, 副研究员
2016-09~2019-10,中国科学院昆明植物研究所, 博士后

2021-01-01-今,应用生态学报, 编委

   

（1） 云南省"兴滇英才支持计划"青年人才, , 省级, 2022

   

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群落构建和生态系统功能：加拿大多伦多大学  Marc W. Cadotte  教授 ; 德国慕尼黑工业大学 Sebastian Seibold 博士

DNA条形码： 美国哥伦布大学  Kevin S. Burgess 教授

BEST海拔梯度网络： 华东师范大学  张健 教授

现指导学生

宋洁  博士研究生  071001-植物学  

马梁梁  博士研究生  071001-植物学