Biodiversity Maintenance and Conservation
生物多样性维持与保护团队介绍
中山大学生态学院生物多样性维持与保护团队采用野外观测、控制实验、数据整合、模型模拟、多尺度遥感、分子生物学、基因组系统发育等研究手段,致力于探讨生物多样性的形成、演化、分布、维持与保护等重要基础科学问题。
团队成员
负责人:储诚进 教授、博导
成员:
(1)Lee Tien Ming(李添明) 教授、博导
(2)李远智 副教授、硕导
(3)刘胜杰 副教授、硕导
(4)廖慧璇 副教授、硕导
(5)王晶 副教授、硕导
(6)杨弦 副教授、硕导
科研方向
(1)植物生态学 Plant ecology
生物多样性维持与保护
物种共存与群落构建
生态系统功能与演化
植物扩张策略
(2)土壤生态学 Soil ecology
土壤动物的多样性和生态功能
土壤食物网的结构和功能
土壤生态系统对气候变化的响应与调节
害虫防治与白蚁生态学研究
(3)生态遥感 Ecological remote sensing
森林生态系统的多尺度遥感监测
微小卫星数据分析及应用
多源遥感大数据融合
(4)社会生态与保护科学 Social ecology and Conservation science
生物多样性保护与保护教育
气候变化与可持续发展
野生动植物贸易与可持续利用
4.科研成果:
Chu et al. 2021. Conceptual and theoretical dimensions of biodiversity research in China: Examples from plants. National Science Review, 8: nwab060.
Luo et al. 2021. Limited evidence of vertical fine-root segregation in a subtropical forest. New Phytologist, 2308-2318
Yin et al. 2021. Niche overlap and divergence times support niche conservatism in eastern Asia–eastern North America disjunct plants. Global Ecology and Biogeography, 30: 1990-2003.
Xi et al. 2021. Relationships between plant-soil feedbacks and functional traits. Journal of Ecology, 109: 3411-3423.
Li et al. 2021. The complexity of trait-environment performance landscapes in a local subtropical forest. New Phytologist, 229: 1388-1397.
Li et al. 2021. Beyond direct neighbourhood effects: higher-order interactions improve modelling and predicting tree survival and growth. National Science Review, 8: nwaa244.
Li et al. 2022. Exploring trait-performance relationships of tree seedlings along experimentally manipulated light and water gradients. Ecology, 103:e3703.
Wang et al. 2023. An ecologically-constrained deep learning model for tropical leaf phenology monitoring using PlanetScope satellites. Remote Sensing of Environment, 286: 113429.
Wang et al. 2022. A new object-class based gap-filling method for PlanetScope satellite image time series. Remote Sensing of Environment, 280: 113136.
Wang et al. 2021. Automatic cloud and cloud shadow detection in tropical areas for PlanetScope satellite images. Remote Sensing of Environment, 264: 112604.
Wang et al. 2020. Multi-scale integration of satellite remote sensing improves characterization of dry-season green-up in an Amazon tropical evergreen forest. Remote Sensing of Environment, 246: 111865.
Liao et al. 2021. Different functional characteristics can explain different dimensions of plant invasion success. Journal of Ecology, 109: 1524-1536.
Liao et al. 2021. The role of functional strategies in global plant distribution. Ecography, 44: 493-503.
Liao et al. 2019. Estimating non-native plant richness with a species-accumulation model along roads. Conservation Biology, 34: 472-481.
Liu et al. 2016. Functional redundancy dampens the trophic cascade effect of a web- building spider in a tropical forest floor. Soil Biology and Biochemistry, 98: 22-29.
Liu et al. 2021. Effects of canopy nitrogen additions on the soil fauna and litter decomposition rate in a temperate and subtropical forest. Geoderma, 2021: 114703.
Liu et al. 2018. Nitrogen addition changes the trophic cascade effects of spiders on a detrital food web. Ecosphere 9: e02466.
Yang et al. 2019. Resource addition drives taxonomic divergence and phylogenetic convergence of plant communities. Journal of Ecology, 107:2121–2132.
Yang et al. 2018. Nitrogen fertilization, not water addition, alters plant phylogenetic community structure in a semi-arid steppe. Journal of Ecology, 106:991–1000.
Yang et al. 2023. Different assembly mechanisms of leaf epiphytic and endophytic bacterial communities underlie their higher diversity in more diverse forests. Journal of Ecology, 111:967-1165
Lee et al. 2020. The harvest of tropical wildlife for bushmeat and traditional medicine. Annual Review of Environment and Resources, 45: 145-170.
Hinsley et al. 2020. Building sustainability into the belt and road initiative’s traditional Chinese medicine trade. Nature Sustainability, 3:96-100.
Fan et al. 2020. Build up conservation research capacity in China for biodiversity governance. Nature ecology & evolution, 4: 1162-1167.
5.研究生培养:
生物多样性维持与保护团队从提高研究生的研究兴趣、研究能力、研究水平和研究素质四个方面,为具有生态学、生物学、地理学和环境科学专业背景的同学们设置了人才培养方案。该方向每年招收研究生7-10名,培养期间将为学生提供专业的科研训练和指导、良好的科研平台,以及团队合作和学术交流的机会。
