Microsatellite genotype matches of eastern Australian humpback whales to area V feeding and breeding grounds
Recent mitochondrial DNA analyses have determined Eastern Australian humpback whales to be one of 3 distinct sub-stocks within IWC BS-E. Using microsatellite genotypes (up to 12 microsatellite loci, mtDNA sequence data and molecular sex identification) from Eastern Australia (n=734 unique individual...
Main Authors: | , , , , , , , , , , , , , , , , |
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Format: | Report |
Language: | unknown |
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ePublications@SCU
2010
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Subjects: | |
Online Access: | https://epubs.scu.edu.au/esm_pubs/3172 https://iwc.int/sc-documents |
Summary: | Recent mitochondrial DNA analyses have determined Eastern Australian humpback whales to be one of 3 distinct sub-stocks within IWC BS-E. Using microsatellite genotypes (up to 12 microsatellite loci, mtDNA sequence data and molecular sex identification) from Eastern Australia (n=734 unique individuals), South Pacific Islands (Oceania, n=1086 unique individuals) and Antarctic feeding Areas I-VI (n=175 unique individuals), we detected migratory interchange between humpback whales in Eastern Australia and New Caledonia (n=11) and Eastern Australia and Tonga (n=1). Migratory interchange was also detected between Eastern Australia and summer feeding grounds in Antarctic Area V (n=3). There were no whales from Eastern Australia detected to move outside the boundaries of Area V (130°E-170°W). Given that the IUCN has listed the humpback whales from Oceania as endangered, these results have implications for the management of humpback whales in Eastern Australia and Oceania (Areas V and VI), because individuals from different Breeding sub-stocks appear to be mixing on both the breeding and feeding grounds. Additionally, this study shows that a technique used to make microsatellite genotypes directly comparable between research groups is useful for conducting large-scale genotype matching for investigating migratory interchange of humpback whales. |
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