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Ecol Evol
2019 Aug 01;915:8465-8478. doi: 10.1002/ece3.5280.
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Is reproductive strategy a key factor in understanding the evolutionary history of Southern Ocean Asteroidea (Echinodermata)?
Moreau C
,
Danis B
,
Jossart Q
,
Eléaume M
,
Sands C
,
Achaz G
,
Agüera A
,
Saucède T
.
Abstract
Life traits such as reproductive strategy can be determining factors of species evolutionary history and explain the resulting diversity patterns. This can be investigated using phylogeographic analyses of genetic units. In this work, the genetic structure of five asteroid genera with contrasting reproductive strategies (brooding: Diplasterias, Notasterias and Lysasterias versus broadcasting: Psilaster and Bathybiaster) was investigated in the Southern Ocean. Over 1,400 mtDNA cytochrome C oxidase subunit I (COI) sequences were analysed using five species delineation methods (ABGD, ASAP, mPTP, sGMYC and mGMYC), two phylogenetic reconstructions (ML and BA), and molecular clock calibrations, in order to examine the weight of reproductive strategy in the observed differences among phylogeographic patterns. We hypothesised that brooding species would show higher levels of genetic diversity and species richness along with a clearer geographic structuring than broadcasting species. In contrast, genetic diversity and species richness were not found to be significantly different between brooders and broadcasters, but broadcasters are less spatially structured than brooders supporting our initial hypothesis and suggesting more complex evolutionary histories associated to this reproductive strategy. Broadcasters'' phylogeography can be explained by different scenarios including deep-sea colonisation routes, bipolarity or cosmopolitanism, and sub-Antarctic emergence for the genus Bathybiaster; Antarctic- New Zealand faunal exchanges across the Polar Front for the genus Psilaster. Brooders'' phylogeography could support the previously formulated hypothesis of a past trans-Antarctic seaway established between the Ross and the Weddell seas during the Plio-Pleistocene. Our results also show, for the first time, that the Weddell Sea is populated by a mixed asteroid fauna originating from both the East and West Antarctic.
Figure 1. Maps of the SO indicating sample location for each target group (red stars). Sampling locations are labeled: redâSouth Georgia; pinkâSouth Sandwich Islands; yellowâBouvet Island; dark blueâKerguelen Islands; light blueâEast Antarctica; light greenâAmundsen Sea; orangeâAntarctic Peninsula; dark greenâBurdwood Bank; and purpleâWeddell Sea. Projection: South Pole Stereographic
Figure 3. Brooders statistical parsimony network indicating genetic relationships with regards to sampling locations. Delineated clades are represented, and color code follows the central map: redâSouth Georgia; pinkâSouth Sandwich Islands; yellowâBouvet Island; dark blueâKerguelen Islands; light blueâEast Antarctica; light greenâAmundsen Sea; orangeâAntarctic Peninsula; dark greenâBurdwood Bank; and purpleâWeddell Sea. Projection: South Pole Stereographic
Figure 4.
Bathybiaster statistical parsimony network indicating genetic relationships with regards to (a) sampling geographic locations and (b) sampling depths and Kerguelen Island (shallow and deep). Delineated clades are represented, and color code follows the appended legend
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