Seed size and its rate of evolution correlate with species diversification across angiosperms

Species diversity varies greatly across the different taxonomic groups that comprise the Tree of Life (ToL). This imbalance is particularly conspicuous within angiosperms, but is largely unexplained. Seed mass is one trait that may help clarify why some lineages diversify more than others because it...

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Bibliographic Details
Published in:PLoS biology 2017-07, Vol.15 (7), p.e2002792-e2002792
Main Authors: Igea, Javier, Miller, Eleanor F, Papadopulos, Alexander S T, Tanentzap, Andrew J
Format: Article
Language:English
Subjects:
Adaptation, Biological
Angiosperms
Bayes Theorem
Biodiversity
Biological Evolution
Biology and Life Sciences
Botany - methods
Colonization
Computer and Information Sciences
Databases, Factual
Divergence
Ecological niches
Ecology and Environmental Sciences
Endangered & extinct species
Evolution
Extinction
Funding
Genetic Speciation
Genome Size
Genome, Plant
Germination
Laboratories
Magnoliopsida - classification
Magnoliopsida - genetics
Magnoliopsida - growth & development
Magnoliopsida - physiology
Methods
Models, Biological
Morphology
Niches
Phylogenetics
Phylogeny
Physiological aspects
Plant sciences
Reproductive Isolation
Seeds
Seeds - classification
Seeds - genetics
Seeds - growth & development
Seeds - physiology
Software
Speciation
Species diversity
Species extinction
Species Specificity
Studies
Taxonomy
Time Factors
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Summary:Species diversity varies greatly across the different taxonomic groups that comprise the Tree of Life (ToL). This imbalance is particularly conspicuous within angiosperms, but is largely unexplained. Seed mass is one trait that may help clarify why some lineages diversify more than others because it confers adaptation to different environments, which can subsequently influence speciation and extinction. The rate at which seed mass changes across the angiosperm phylogeny may also be linked to diversification by increasing reproductive isolation and allowing access to novel ecological niches. However, the magnitude and direction of the association between seed mass and diversification has not been assessed across the angiosperm phylogeny. Here, we show that absolute seed size and the rate of change in seed size are both associated with variation in diversification rates. Based on the largest available angiosperm phylogenetic tree, we found that smaller-seeded plants had higher rates of diversification, possibly due to improved colonisation potential. The rate of phenotypic change in seed size was also strongly positively correlated with speciation rates, providing rare, large-scale evidence that rapid morphological change is associated with species divergence. Our study now reveals that variation in morphological traits and, importantly, the rate at which they evolve can contribute to explaining the extremely uneven distribution of diversity across the ToL.
ISSN:1545-7885
1544-9173
1545-7885
DOI:10.1371/journal.pbio.2002792