Accelerated Rates of Floral Evolution at the Upper Size Limit for Flowers

Evolutionary theory explains phenotypic change as the result of natural selection, with constraint limiting the direction, magnitude, and rate of response [1]. Constraint is particularly likely to govern evolutionary change when a trait is at perceived upper or lower limits. Macroevolutionary rates...

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Bibliographic Details
Published in:Current biology 2008-10, Vol.18 (19), p.1508-1513
Main Authors: Barkman, Todd J., Bendiksby, Mika, Lim, Seok-Hong, Salleh, Kamarudin Mat, Nais, Jamili, Madulid, Domingo, Schumacher, Trond
Format: Article
Language:English
Subjects:
Biological Evolution
EVO_ECOL
Flowers - anatomy & histology
Flowers - genetics
Magnoliopsida - anatomy & histology
Magnoliopsida - genetics
Time Factors
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Summary:Evolutionary theory explains phenotypic change as the result of natural selection, with constraint limiting the direction, magnitude, and rate of response [1]. Constraint is particularly likely to govern evolutionary change when a trait is at perceived upper or lower limits. Macroevolutionary rates of floral-size change are unknown for any angiosperm family, but it is predicted that rates should be diminished near the upper size limit of flowers, as has been shown for mammal body mass [2]. Our molecular results show that rates of floral-size evolution have been extremely rapid in the endoholoparasite Rafflesia, which contains the world's largest flowers [3]. These data provide the first estimates of macroevolutionary rates of floral-size change and indicate that in this lineage, floral diameter increased by an average of 20 cm (and up to 90 cm)/million years. In contrast to our expectations, it appears that the magnitude and rate of floral-size increase is greater for lineages with larger flowered ancestors. This study suggests that constraints on rates of floral-size evolution may not be limiting in Rafflesia, reinforcing results of artificial- and natural-selection studies in other plants that demonstrated the potential for rapid size changes [4–6].
ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2008.08.046