| Autor: |
Norman Ratcliffe, Alexander T. Salis, Tania M. King, Peter G. Ryan, Petra Quillfeldt, Nicolas J. Rawlence, Richard A. Phillips, Charlotte E. Till, Timothée R. Cook, Lachie Scarsbrook, Ludovic Dutoit, Luciano Calderón, Jonathan M. Waters, Charles-André Bost, Juan F. Masello, Lisa J. Nupen, Martyn Kennedy, Hamish G. Spencer |
| Rok vydání: |
2021 |
| Předmět: |
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| DOI: |
10.1101/2021.08.18.456742 |
| Popis: |
AimUnderstanding how wild populations respond to climatic shifts is a fundamental goal of biological research in a fast-changing world. The Southern Ocean represents a fascinating system for assessing large-scale climate-driven biological change, as it contains extremely isolated island groups within a predominantly westerly, circumpolar wind and current system. The blue-eyed shags (Leucocarbospp.) represent a paradoxical Southern Ocean seabird radiation; a circumpolar distribution implies strong dispersal capacity yet their speciose nature suggests local adaptation and isolation. Here we use genetic tools in an attempt to resolve this paradox.LocationSouthern Ocean.Taxa17 species and subspecies of blue-eyed shags (Leucocarbospp.) across the geographical distribution of the genus.MethodsHere we use mitochondrial and nuclear sequence data to conduct the first global genetic analysis of this group using a temporal phylogenetic framework to test for rapid speciation.ResultsOur analysis reveals remarkably shallow evolutionary histories among island-endemic lineages, consistent with a recent high-latitude circumpolar radiation. This rapid sub-Antarctic expansion contrasts with significantly deeper lineages detected in more temperate regions such as South America and New Zealand that may have acted as glacial refugia. The dynamic history of high-latitude expansions is further supported by ancestral demographic and biogeographic reconstructions.Main conclusionsThe circumpolar distribution of blue-eyed shags, and their highly dynamic evolutionary history, potentially makeLeucocarboa strong sentinel of past and ongoing Southern Ocean ecosystem change given their sensitivity to climatic impacts. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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