Journal
NEW PHYTOLOGIST
Volume 201, Issue 2, Pages 636-644Publisher
WILEY
DOI: 10.1111/nph.12523
Keywords
angiosperm; ecology; evolution; genome; gymnosperm; palaeobotany; palaeopolyploidy; polyploidy
Categories
Funding
- NERC [NE/J004855/1, NE/E004369/1]
- Natural Environment Research Council [NE/E004369/1, NE/J004855/1] Funding Source: researchfish
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The strong positive relationship evident between cell and genome size in both animals and plants forms the basis of using the size of stomatal guard cells as a proxy to track changes in plant genome size through geological time. We report for the first time a taxonomic fine-scale investigation into changes in stomatal guard-cell length and use these data to infer changes in genome size through the evolutionary history of land plants. Our data suggest that many of the earliest land plants had exceptionally large genome sizes and that a predicted overall trend of increasing genome size within individual lineages through geological time is not supported. However, maximum genome size steadily increases from the Mississippian (c. 360million yr ago (Ma)) to the present. We hypothesise that the functional relationship between stomatal size, genome size and atmospheric CO2 may contribute to the dichotomy reported between preferential extinction of neopolyploids and the prevalence of palaeopolyploidy observed in DNA sequence data of extant vascular plants.
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