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dc.contributor.author Mitchell, Nora
dc.contributor.author Carlson, Jane E.
dc.contributor.author Holsinger, Kent E.
dc.coverage.spatial South Africa
dc.coverage.temporal Cenozoic
dc.date.accessioned 2018-01-12T17:35:53Z
dc.date.available 2018-01-12T17:35:53Z
dc.date.issued 2018-01-12
dc.identifier doi:10.5061/dryad.h2j0n
dc.identifier.citation Mitchell N, Carlson JE, Holsinger KE (2018) Correlated evolution between climate and suites of traits along a fast-slow continuum in the radiation of Protea. Ecology and Evolution, online in advance of print.
dc.identifier.uri http://hdl.handle.net/10255/dryad.165850
dc.description Evolutionary radiations are responsible for much of Earth’s diversity, yet the causes of these radiations are often elusive. Determining the relative roles of adaptation and geographic isolation in diversification is vital to understanding the causes of any radiation, and whether a radiation may be labeled as ‘adaptive’ or not. Across many groups of plants, trait-climate relationships suggest that traits are an important indicator of how plants adapt to different climates. In particular, analyses of plant functional traits in global databases suggest that there is an “economics spectrum” along which combinations of functional traits covary along a fast-slow continuum. We examine evolutionary associations among traits and between trait and climate variables on a strongly supported phylogeny in the iconic plant genus Protea to identify correlated evolution of functional traits and the climatic-niches that species occupy. Results indicate that trait diversification in Protea has climate associations along two axes of variation: correlated evolution of plant size with temperature and leaf investment with rainfall. Evidence suggests that traits and climatic-niches evolve in similar ways, although some of these associations are inconsistent with global patterns on a broader phylogenetic scale. When combined with previous experimental work suggesting that trait-climate associations are adaptive in Protea, the results presented here suggest that trait diversification in this radiation is adaptive.
dc.relation.haspart doi:10.5061/dryad.h2j0n/1
dc.relation.haspart doi:10.5061/dryad.h2j0n/2
dc.relation.isreferencedby doi:10.1002/ece3.3773
dc.subject Adaptation
dc.subject adaptive radiation
dc.subject functional traits
dc.subject niche
dc.title Data from: Correlated evolution between climate and suites of traits along a fast-slow continuum in the radiation of Protea
dc.type Article
dwc.ScientificName Protea
dwc.ScientificName Proteaceae
dc.contributor.correspondingAuthor Mitchell, Nora
prism.publicationName Ecology and Evolution
dryad.fundingEntity DEB-1046328@National Science Foundation (United States)

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Title Protea_Trait_Data
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Description Trait data for all individuals used in this study.
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Title ProteaPhylogenies
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Description Phylogenetic trees used in this study, including species trees from ASTRAL-II, SVDquartets, and RAxML, as well as 100 bootstrap trees from ASTRAL-II. Trees may also be found in the repository Data from: Anchored phylogenomics improves the resolution of evolutionary relationships in the rapid radiation of Protea L.; Mitchell N, Lewis PO, Lemmon EM, Lemmon AR, Holsinger KE; Date Published: January 20, 2017; https://doi.org/10.5061/dryad.vj32s
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