Biogeographic Drivers of Evolutionary Radiations

Tao, Ran; Sack, Lawren; Rosindell, James

doi:10.3389/fevo.2021.644328

Front. Ecol. Evol.

2021

DOI: 10.3389/fevo.2021.644328

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Biogeographic Drivers of Evolutionary Radiations

Ran Tao

Lawren Sack

James Rosindell

Abstract: Some lineages radiate spectacularly when colonizing a region, but others do not. Large radiations are often attributed to species’ adaptation into niches, or to other drivers, such as biogeography including dispersal ability and spatial structure of the landscape. Here we aim to disentangle the factors determining radiation size, by modeling simplified scenarios without the complexity of explicit niches. We build a spatially structured neutral model free from niches and incorporating a form of protracted speci… Show more

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2024

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Contrasting patterns of diversity emerge depending on the initial drivers of speciation during adaptive radiation

Gillespie

2024

Evolutionary Journal of the Linnean Society

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I examine the spatial processes that shape species formation in adaptive radiation, and patterns that emerge from the different processes. I first consider situations that set the stage for diversification and conditions under which ecological diversity is maintained in populations without speciation, either due to balancing selection within a population or fluctuating selection between populations; the latter can be a precursor to speciation while the former can not. I then examine how speciation operates within the context of adaptive radiation: While species may diverge without ecological change within an adaptive radiation, I focus on ecological change, emphasizing two key processes through which nascent species may form, with initial divergence being attributed to either: (1) selection due to changes in the environment or substrate on which a species exists leading to ecological speciation; or (2) geographic isolation leading to ecologically similar species that may subsequently compete and undergo character displacement in syntopy. There is good evidence for both processes in nature, but they lead to different predictions in terms of the production of ephemeral lineages and patterns of accumulation of species diversity. Initial ecological divergence along replicated environmental gradients leads to predictable sets of allotopic ecomorphs, while initial divergence through geographic isolation, may lead to initial supersaturation and predictable sets of syntopic ecomorphs.

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Contrasting patterns of diversity emerge depending on the initial drivers of speciation during adaptive radiation

Gillespie

2024

Evolutionary Journal of the Linnean Society

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Biogeographic Drivers of Evolutionary Radiations

Cited by 1 publication

References 43 publications

Contrasting patterns of diversity emerge depending on the initial drivers of speciation during adaptive radiation

Contrasting patterns of diversity emerge depending on the initial drivers of speciation during adaptive radiation

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