Species-rich and polyploid-poor: Insights into the evolutionary role of whole-genome duplication from the Cape flora biodiversity hotspot

Species-rich and polyploid-poor: Insights into the evolutionary role of whole-genome duplication from the Cape flora biodiversity hotspot

PREMISE OF THE STUDY: Whole-genome duplication (WGD) in angiosperms has been hypothesized to be advantageous in unstable environments and/or to increase diversification rates, leading to radiations. Under the first hypothesis, floras in stable environments are predicted to have lower proportions of...

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Veröffentlicht in:American journal of botany 2016-07, Vol.103 (7), p.1336-1347
Hauptverfasser: Oberlander, Kenneth C., Dreyer, Léanne L., Goldblatt, Peter, Suda, Jan, Linder, H. Peter
Format: Artikel
Sprache:eng
Schlagworte:
Biodiversity
Biological Evolution
Botany
Cape flora
diversification
environmental stability
Evolution
evolutionary radiation
Flowers & plants
Genome, Plant - genetics
Genomes
Geography
IMPACTS OF POLYPLOIDY ON PLANT ECOLOGY
Magnoliopsida - genetics
Ploidies
Polyploidy
South Africa
whole‐genome duplication
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container_end_page 1347
container_issue 7
container_start_page 1336
container_title American journal of botany
container_volume 103
creator Oberlander, Kenneth C.
Dreyer, Léanne L.
Goldblatt, Peter
Suda, Jan
Linder, H. Peter
description PREMISE OF THE STUDY: Whole-genome duplication (WGD) in angiosperms has been hypothesized to be advantageous in unstable environments and/or to increase diversification rates, leading to radiations. Under the first hypothesis, floras in stable environments are predicted to have lower proportions of polyploids than highly, recently disturbed floras, whereas species-rich floras would be expected to have higher than expected proportions of polyploids under the second. The South African Cape flora is used to discriminate between these two hypotheses because it features a hyperdiverse flora predominantly generated by a limited number of radiations (Cape clades), against a backdrop of climatic and geological stability. METHODS: We compiled all known chromosome counts for species in 21 clades present in the Cape (1653 species, including 24 Cape clades), inferred ploidy levels for these species by inspection or derived from the primary literature, and compared Cape to non-Cape ploidy levels in these clades (17,520 species) using G tests. KEY RESULTS: The Cape flora has anomalously low proportions of polyploids compared with global levels. This pattern is consistently observed across nearly half the clades and across global latitudinal gradients, although individual lineages seem to be following different paths to low levels of WGD and to differing degrees. CONCLUSIONS: This pattern shows that the diversity of the Cape flora is the outcome of primarily diploid radiations and supports the hypothesis that WGD may be rare in stable environments.
doi_str_mv 10.3732/ajb.1500474
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source MEDLINE; Wiley Online Library Journals Frontfile Complete; Jstor Complete Legacy; Wiley Free Content; EZB-FREE-00999 freely available EZB journals
subjects Biodiversity
Biological Evolution
Botany
Cape flora
diversification
environmental stability
Evolution
evolutionary radiation
Flowers & plants
Genome, Plant - genetics
Genomes
Geography
IMPACTS OF POLYPLOIDY ON PLANT ECOLOGY
Magnoliopsida - genetics
Ploidies
Polyploidy
South Africa
whole‐genome duplication
title Species-rich and polyploid-poor: Insights into the evolutionary role of whole-genome duplication from the Cape flora biodiversity hotspot
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