Abstract
AbstractMacroevolution posed difficulties for Darwin and later theorists because species’ phenotypes frequently change abruptly, or experience long periods of stasis, both counter to the theory of incremental change or gradualism. We introduce a statistical model that accommodates this uneven evolutionary landscape by estimating two kinds of historical change: directional changes that shift the mean phenotype along the branches of a phylogenetic tree, and evolvability changes that alter a clade’s ability to explore its trait-space. In mammals, we find that both processes make substantial independent contributions to explaining macroevolution, and are rarely linked. ‘Watershed’ moments of increased evolvability greatly outnumber reductions in evolutionary potentials, and large or abrupt phenotypic shifts are explicable statistically as biased random walks, allowing macroevolutionary theory to engage with the language and concepts of gradualist microevolution. Our findings recast macroevolutionary phenomena, illustrating the necessity of accounting for a variety of evolutionary processes simultaneously.
Funder
Leverhulme Trust
University of Reading Research Endowment Trust Fund
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary
Reference53 articles.
1. Felsenstein, J. Phylogenies and the comparative method. Am. Nat. 125, 1–15 (1985).
2. Harvey, P. H. & Pagel, M. D. The Comparative Method in Evolutionary Biology Vol. 239 (Oxford university press Oxford, 1991).
3. Harmon, L. J. et al. Early bursts of body size and shape evolution are rare in comparative data. Evolution 64, 2385–2396 (2010).
4. Pagel, M. Inferring the historical patterns of biological evolution. Nature 401, 877–884 (1999).
5. Venditti, C., Meade, A. & Pagel, M. Multiple routes to mammalian diversity. Nature 479, 393 (2011).
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