Island biogeography of soil microbes
Microbes are known to exhibit biogeographic patterns. However, we know little about the biogeography of island-dwelling microorganisms. To address the knowledge gap, we plan to sequence soil samples collected on the land-bridge islands in the Thousand Island Lake (China), to explore patterns and determinants of bacterial and fungal diversity on actual islands. We aim to reveal whether the island biogeographical patterns of soil bacteria and fungi are generated by the same or different ecological processes.
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Darwin's naturalization conundrum
In the Origin of Species, Darwin (1859) proposed that invader species that closely related to the natives in the resident communities could become either more or less successful. This paradox has been named as Darwin's naturalization conundrum. My lab used multiple approaches, which includes long-term observational studies, experimental grasslands, and bacterial microcosms, to understand the influence of species' evolutionary history on biological invasion. We aim to use phylogeny and functional traits to predict the success and impact of invasive species, and reconcile this 160-year-old conundrum.
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Relevant papers: ISME | Ecology Letters | Journal of Applied Ecology | Annual Review of Plant Biology | Proc. R. Soc. B. | 中文综述
Ecological succession and restoration
Along with the urbanization process, the abandonment of cropland becomes a widespread phenomenon worldwide, which would cause serious ecological, economical and political problems. Our lab focuses on the long-term dynamics of diversity patterns and plant invasion in the abandoned corpland. By using the data from the longest continuous study of old-field succession in the world - the Buell-Small Succession Study, We aim to understand the mechanisms of ecological succession and promote the restoration of old fields. This project is collaborated with Prof. Marc Cadotte, Tadashi Fukami, Fangliang He, Lin Jiang, and Scott Meiners.
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