Effects of capability for dispersal on the evolution of diversity in Antarctic benthos
Effects of capability for dispersal on the evolution of diversity in Antarctic benthos
The likelihood of marine invertebrates to maintaining large distribution ranges is widely dependent on the ability of their early ontogenetic stages to disperse over long distances. Marine benthic invertebrates inhabiting the cold-stenothermal environment of the Southern Ocean are known for their overall reduced number of pelagic larvae or drifting stages of any kind when compared with elsewhere in the sea. The diversity of organisms thriving in Antarctic waters is the result of evolution in situ and the intrusion of species from surrounding seas. The reasons for a high level of endemism and a stunning diversity of benthic invertebrates found today are frequently discussed in the literature, but the mechanisms by which diversity has been controlled over time remain largely theoretical. Here, I demonstrate that indeed early life history patterns play a key role in defining the radiation and speciation potential of Antarctic benthic invertebrates. In arguing this case, I synthesize the growing body of molecular studies on population connectivity in Antarctic benthic invertebrates, and correlate this information with knowledge of their life histories and biogeography. I conclude that differences in early life history patterns are key to the resilience potential of species in response to Late-Cenozoic glacial periods and propose that there is a direct relationship between speciation rate and the ability of taxa to disperse.
470-482
Thatje, Sven
f1011fe3-1048-40c0-97c1-e93b796e6533
2012
Thatje, Sven
f1011fe3-1048-40c0-97c1-e93b796e6533
Thatje, Sven
(2012)
Effects of capability for dispersal on the evolution of diversity in Antarctic benthos.
Integrative and Comparative Biology, 52 (4), .
(doi:10.1093/icb/ics105).
Abstract
The likelihood of marine invertebrates to maintaining large distribution ranges is widely dependent on the ability of their early ontogenetic stages to disperse over long distances. Marine benthic invertebrates inhabiting the cold-stenothermal environment of the Southern Ocean are known for their overall reduced number of pelagic larvae or drifting stages of any kind when compared with elsewhere in the sea. The diversity of organisms thriving in Antarctic waters is the result of evolution in situ and the intrusion of species from surrounding seas. The reasons for a high level of endemism and a stunning diversity of benthic invertebrates found today are frequently discussed in the literature, but the mechanisms by which diversity has been controlled over time remain largely theoretical. Here, I demonstrate that indeed early life history patterns play a key role in defining the radiation and speciation potential of Antarctic benthic invertebrates. In arguing this case, I synthesize the growing body of molecular studies on population connectivity in Antarctic benthic invertebrates, and correlate this information with knowledge of their life histories and biogeography. I conclude that differences in early life history patterns are key to the resilience potential of species in response to Late-Cenozoic glacial periods and propose that there is a direct relationship between speciation rate and the ability of taxa to disperse.
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Published date: 2012
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 339334
URI: http://eprints.soton.ac.uk/id/eprint/339334
ISSN: 1540-7063
PURE UUID: 4c9fa054-4fed-435a-afc6-34430e137c4e
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Date deposited: 28 May 2012 09:22
Last modified: 14 Mar 2024 11:13
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Sven Thatje
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