Systematics and the Phenotypic Evolution of Papuan Microhylid Frogs.

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2017-08
Authors
Rivera, Julio A.
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Zoology
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Understanding how biodiversity is generated is a central task of evolutionary biology. Many studies have established that natural selection or stochastic processes, like population fragmentation via biogeographic barriers, play a major role in generating biodiversity. However, much less attention has been paid to how these processes interact. A promising group in which to study the generation of biodiversity is the Asterophyinae frogs of Paupa New Guinea. Recently, it has been discovered that this is a hyper-diverse group of frogs, both in species number and ecological habit. Field workers have proposed five different ecological types based on where they are found: tree, shrub, ground, semiaquatic, and subterranean. However, no formal evolutionary or ecological studies have yet been conducted. Here, I explore adaptive and stochastic processes in the Asterophryine frogs by first constructing a time-calibrated phylogeny of the clade to determine the intergeneric relationships and ecological evolution of the group. I then investigate the morphological and performance evolution of 28 species with over 500 individuals to determine if these phenotypes are evolving in response to natural selection to microhabitat. I find that ecological novelty arose early in the group’s history and is tied to the rise of the Central Mountains of New Guinea. It also appears that amalgamation of offshore land masses onto New Guinea lead to bursts of species divergence but less so to ecological transitions. Furthermore, I find that the species have evolved specialized morphologies that match microhabitat-use, providing support for the reality of “ecomorphs”. These morphologies are also convergent so that species of the same ecomorph evolved similar morphologies, independent of phylogenetic relationships. Last, I find that performance capabilities in terms of jumping, climbing and swimming differ between ecomorphs and these differences are imparted by specialized morphologies. This correspondence between ecology, morphology, and performance capabilities independent of phylogeny, provides strong evidence that selection is an important force in the phenotypic diversification of the lineage. Overall, I demonstrate that the phenotypic diversity seen in the Asterophryinae is driven by selection to microhabitat. Therefore, both adaptive and biogeographic processes were needed to generate the great diversity seen in the Asterophryinae today.
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systematics, adaptive radiation, locomotor performance, microhylid frogs, ecomorph
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