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      Disentangling the historical routes to community assembly in the global epicentre of biodiversity

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          Abstract

          Aim

          The exceptional turnover in biota with elevation and number of species coexisting at any elevation makes tropical mountains hotspots of biodiversity. However, understanding the historical processes through which species arising in geographical isolation (i.e. allopatry) assemble along the same mountain slope (i.e. sympatry) remains a major challenge. Multiple models have been proposed including (1) the sorting of already elevationally divergent species, (2) the displacement of elevation upon secondary contact, potentially followed by convergence, or (3) elevational conservatism, in which ancestral elevational ranges are retained. However, the relative contribution of these processes to generating patterns of elevational overlap and turnover is unknown.

          Location

          Tropical mountains of Central‐ and South‐America.

          Time Period

          The last 12 myr.

          Major Taxa Studied

          Birds.

          Methods

          We collate a dataset of 165 avian sister pairs containing estimates of phylogenetic age, geographical and regional elevational range overlap. We develop a framework based on continuous‐time Markov models to infer the relative frequency of different historical pathways in explaining present‐day overlap and turnover of sympatric species along elevational gradients.

          Results

          We show that turnover of closely related bird species across elevation can predominantly be explained by displacement of elevation ranges upon contact (81%) rather than elevational divergence in allopatry (19%). In contrast, overlap along elevation gradients is primarily (88%) explained by conservatism of elevational ranges rather than displacement followed by elevational expansion (12%).

          Main Conclusions

          Bird communities across elevation gradients are assembled through a mix of processes, including the sorting, displacement and conservatism of species elevation ranges. The dominant role of conservatism in explaining co‐occurrence of species on mountain slopes rejects more complex scenarios requiring displacement followed by expansion. The ability of closely related species to coexist without elevational divergence provides a direct and faster pathway to sympatry and helps explain the exceptional species richness of tropical mountains.

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          Most cited references56

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          Exact stochastic simulation of coupled chemical reactions

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            Population Ecology of Some Warblers of Northeastern Coniferous Forests

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              Why Mountain Passes are Higher in the Tropics

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                Author and article information

                Contributors
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                Journal
                Global Ecology and Biogeography
                Global Ecol Biogeogr
                Wiley
                1466-822X
                1466-8238
                July 10 2023
                Affiliations
                [1 ] Centre for Biodiversity and Environment Research, Department of Genetics, Evolution and Environment University College London London UK
                [2 ] School of Biological Sciences Georgia Institute of Technology Atlanta Georgia USA
                Article
                10.1111/geb.13728
                198b3c6c-325f-4ffe-915d-55f9d4532414
                © 2023

                http://creativecommons.org/licenses/by-nc/4.0/

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