Geography and spawning season drive genetic divergence among populations of the hard coral Acropora tenuis from Indonesia and Western Australia

Geography and spawning season drive genetic divergence among populations of the hard coral Acropora tenuis from Indonesia and Western Australia

It has long been hypothesized that Western Australian coral reefs are genetically connected to those in Indonesia via long-distance dispersal, and that this connection may influence the timing of annual mass coral spawning on Western Australian coral reefs. This genetic connection has not been teste...

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Veröffentlicht in:Coral reefs 2020-08, Vol.39 (4), p.989-999
Hauptverfasser: Rosser, N. L., Edyvane, K., Malina, A. C., Underwood, J. N., Johnson, M. S.
Format: Artikel
Sprache:eng
Schlagworte:
Acropora tenuis
Autumn
Biomedical and Life Sciences
Coral reefs
Corals
Dispersal
Freshwater & Marine Ecology
Gene flow
Genetic divergence
Genetic structure
Genetics
Geography
Life Sciences
Microsatellites
Oceanography
Population genetics
Populations
Recolonization
Seasons
Spawning
Spawning populations
Spawning seasons
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container_end_page 999
container_issue 4
container_start_page 989
container_title Coral reefs
container_volume 39
creator Rosser, N. L.
Edyvane, K.
Malina, A. C.
Underwood, J. N.
Johnson, M. S.
description It has long been hypothesized that Western Australian coral reefs are genetically connected to those in Indonesia via long-distance dispersal, and that this connection may influence the timing of annual mass coral spawning on Western Australian coral reefs. This genetic connection has not been tested, and it requires re-evaluation because spawning patterns of Western Australian corals are not as synchronous or seasonal as originally thought. Here, we used population genetics to examine patterns of gene flow among populations of the scleractinian coral Acropora tenuis in Indonesia and Western Australia. Analysis of microsatellite data showed that Indonesian and Australian populations are highly genetically differentiated. Importantly, this genetic divergence is associated with differences in the seasonal spawning time of A. tenuis between the two regions, with Indonesian populations dominated by ‘spring’ spawners and Western Australian populations dominated by ‘autumn’ spawners, indicating that spawning season has an important influence on genetic structure. Furthermore, negligible gene flow between Indonesia and Western Australia indicates that the recolonization of inshore Western Australian populations since the Last Glacial Maximum was independent of input from Indonesian populations.
doi_str_mv 10.1007/s00338-020-01923-9
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subjects Acropora tenuis
Autumn
Biomedical and Life Sciences
Coral reefs
Corals
Dispersal
Freshwater & Marine Ecology
Gene flow
Genetic divergence
Genetic structure
Genetics
Geography
Life Sciences
Microsatellites
Oceanography
Population genetics
Populations
Recolonization
Seasons
Spawning
Spawning populations
Spawning seasons
title Geography and spawning season drive genetic divergence among populations of the hard coral Acropora tenuis from Indonesia and Western Australia
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