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Last Glacial Maximum led to community-wide population expansion in a montane songbird radiation in highland Papua New Guinea
KM. Garg, B. Chattopadhyay, B. Koane, K. Sam, FE. Rheindt,
Language English Country Great Britain
Document type Journal Article, Research Support, Non-U.S. Gov't
Grant support
WBS R-154-000-A59-112
Singapore Ministry of Education Tier II grant - International
WBS R-154-000-648-646
SEABIG - International
WBS R-154-000-648-733
SEABIG - International
GACR No. 18-23794Y
Grant agency of the Czech Republic - International
NLK
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- MeSH
- Biological Evolution * MeSH
- Databases as Topic MeSH
- Species Specificity MeSH
- Ecosystem * MeSH
- Phylogeny MeSH
- Phylogeography MeSH
- Polymorphism, Single Nucleotide genetics MeSH
- Ice Cover * MeSH
- Altitude MeSH
- Computer Simulation MeSH
- Genetics, Population MeSH
- Probability MeSH
- Base Sequence MeSH
- Geography MeSH
- Songbirds growth & development MeSH
- Animals MeSH
- Check Tag
- Animals MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
- Geographicals
- Papua New Guinea MeSH
BACKGROUND: Quaternary climate fluctuations are an engine of biotic diversification. Global cooling cycles, such as the Last Glacial Maximum (LGM), are known to have fragmented the ranges of higher-latitude fauna and flora into smaller refugia, dramatically reducing species ranges. However, relatively less is known about the effects of cooling cycles on tropical biota. RESULTS: We analyzed thousands of genome-wide DNA markers across an assemblage of three closely related understorey-inhabiting scrubwrens (Sericornis and Aethomyias; Aves) from montane forest along an elevational gradient on Mt. Wilhelm, the highest mountain of Papua New Guinea. Despite species-specific differences in elevational preference, we found limited differentiation within each scrubwren species, but detected a strong genomic signature of simultaneous population expansions at 27-29 ka, coinciding with the onset of the LGM. CONCLUSION: The remarkable synchronous timing of population expansions of all three species demonstrates the importance of global cooling cycles in expanding highland habitat. Global cooling cycles have likely had strongly different impacts on tropical montane areas versus boreal and temperate latitudes, leading to population expansions in the former and serious fragmentation in the latter.
References provided by Crossref.org
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