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Climate niches of milkweeds with plesiomorphic traits (Secamonoideae; Apocynaceae) and the milkweed sister group link ancient African climates and floral evolution
Journal article   Open access   Peer reviewed

Climate niches of milkweeds with plesiomorphic traits (Secamonoideae; Apocynaceae) and the milkweed sister group link ancient African climates and floral evolution

Tatyana Livshultz, Jerry V Mead, David J Goyder and Michelle Brannin
American journal of botany, v 98(12), pp 1966-1977
Dec 2011
DOI: https://doi.org/10.3732/ajb.1100202
PMID: 22074778
Featured in Collection :   UN Sustainable Development Goals @ Drexel
url
https://doi.org/10.3732/ajb.1100202View
Published, Version of Record (VoR)Maybe Open Access (Publisher Bronze) Open

Abstract

Africa Apocynaceae - genetics Asclepias - genetics Biodiversity Biological Evolution Climate Factor Analysis, Statistical Flowers - genetics Phylogeny Quantitative Trait, Heritable Rain Temperature Time Factors
Climate change that increases mortality of plants and pollinators can create mate-finding Allee effects and thus act as a strong selective force on floral morphology. Milkweeds (Secamonoideae and Asclepiadoideae; Apocynaceae) are typically small plants of seasonally dry habitats, with pollinia and high pollen-transfer efficiency. Their sister group (tribe Baisseeae and Dewevrella) is mostly comprised of giant lianas of African rainforests, with pollen in monads. Comparison of the two groups motivated a new hypothesis: milkweeds evolved in the context of African aridification and the shifting of rainforest to dry forest. Pollinia and high pollen-transfer efficiency may have been adaptations that alleviated mate-finding Allee effects generated by high mortality during droughts. We formally tested whether milkweeds have a drier climate niche by comparing milkweeds with plesiomorphic traits (Secamonoideae) and the milkweed sister group in continental Africa. We georeferenced specimens of the milkweed sister group and Secamonoideae in continental Africa, extracted 19 climatic variables from the Worldclim model, conducted factor analysis to identify correlated suites of variables, and compared the frequency distributions of the two lineages relative to each factor. The distributions of Secamonoideae and the milkweed sister group differed significantly relative to four factors, each correlated with a distinct suite of climate parameters: (1) air temperature (Secamonoideae: cooler), (2) total and (3) summer precipitation (Secamonoideae: drier), and (4) temperature seasonality and isothermality (Secamonoideae: more seasonal and less isothermal). Secamonoideae in continental Africa inhabit drier, cooler sites than do the milkweed sister group, consistent with a shift from rainforests to dry forests in a cooling climate.

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21 citations in Scopus

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Collaboration types
Domestic collaboration
International collaboration
Web of Science research areas
Plant Sciences
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