Genetic structure and phylogeography of platypuses revealed by mitochondrial DNA

The platypus Ornithorhynchus anatinus is an endemic monotreme species with a wide latitudinal distribution in eastern Australia, including Tasmania. Understanding of the phylogeography within this species is very limited at present and represents a gap in the documentation of Australia's unique...

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Veröffentlicht in:	Journal of zoology (1987) 2012-02, Vol.286 (2), p.110-119
Hauptverfasser:	Gongora, Jaime, Swan, Amelia B., Chong, Amanda Y., Ho, Simon Y. W., Damayanti, Chandramaya S., Kolomyjec, Stephen, Grant, Tom, Miller, Emily, Blair, David, Furlan, Elise, Gust, Nick
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Schlagworte:	Biodiversity control region cytochrome b Freshwater Haplotypes Marine mammals Mitochondrial DNA Ornithorhynchus anatinus platypus River basins Transfer RNA
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container_title	Journal of zoology (1987)
container_volume	286
creator	Gongora, Jaime Swan, Amelia B. Chong, Amanda Y. Ho, Simon Y. W. Damayanti, Chandramaya S. Kolomyjec, Stephen Grant, Tom Miller, Emily Blair, David Furlan, Elise Gust, Nick
description	The platypus Ornithorhynchus anatinus is an endemic monotreme species with a wide latitudinal distribution in eastern Australia, including Tasmania. Understanding of the phylogeography within this species is very limited at present and represents a gap in the documentation of Australia's unique biodiversity. We analysed mitochondrial DNA sequences (partial control region and complete cytochrome b, including portions of flanking tRNAs) of 74 individuals from across the distribution of the species. Phylogenetic analysis of the concatenated sequences corroborated the primary split within the platypus, showing two major clades: one from mainland Australia and the other from Tasmania/King Island. Estimates of divergence times suggest that these clades last shared a common mitochondrial ancestor ∼0.7–0.94 Ma. Using an extended dataset of partial control region sequences from 284 individuals, we found evidence of genetic structure between river basins, primarily within mainland Australia, as well as an additional divergent lineage in North‐eastern Australia. Overall, few haplotypes were shared between river basins. Analyses of molecular variance of the control region sequences indicated low rates of gene flow and significant divergence, particularly at the river basin and geographical area scales.
doi_str_mv	10.1111/j.1469-7998.2011.00854.x
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Phylogenetic analysis of the concatenated sequences corroborated the primary split within the platypus, showing two major clades: one from mainland Australia and the other from Tasmania/King Island. Estimates of divergence times suggest that these clades last shared a common mitochondrial ancestor ∼0.7–0.94 Ma. Using an extended dataset of partial control region sequences from 284 individuals, we found evidence of genetic structure between river basins, primarily within mainland Australia, as well as an additional divergent lineage in North‐eastern Australia. Overall, few haplotypes were shared between river basins. 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We analysed mitochondrial DNA sequences (partial control region and complete cytochrome b, including portions of flanking tRNAs) of 74 individuals from across the distribution of the species. Phylogenetic analysis of the concatenated sequences corroborated the primary split within the platypus, showing two major clades: one from mainland Australia and the other from Tasmania/King Island. Estimates of divergence times suggest that these clades last shared a common mitochondrial ancestor ∼0.7–0.94 Ma. Using an extended dataset of partial control region sequences from 284 individuals, we found evidence of genetic structure between river basins, primarily within mainland Australia, as well as an additional divergent lineage in North‐eastern Australia. Overall, few haplotypes were shared between river basins. Analyses of molecular variance of the control region sequences indicated low rates of gene flow and significant divergence, particularly at the river basin and geographical area scales.</description><subject>Biodiversity</subject><subject>control region</subject><subject>cytochrome b</subject><subject>Freshwater</subject><subject>Haplotypes</subject><subject>Marine mammals</subject><subject>Mitochondrial DNA</subject><subject>Ornithorhynchus anatinus</subject><subject>platypus</subject><subject>River basins</subject><subject>Transfer RNA</subject><issn>0952-8369</issn><issn>1469-7998</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><recordid>eNqNkE1P3DAQhi3USmxp_4PFqZcEO3b8IfWCFroUbfmQ2iJxsRzvBLJk49RO6Obf18tWHHrCc_BI8z6j0YMQpiSn6Z2sc8qFzqTWKi8IpTkhquT59gDNXgfv0IzossgUE_oQfYhxTUhBuSxn6GYBHQyNw3EIoxvGANh2K9w_Tq1_AP8QbGqxr3Hf2mHqxwgRB3gG28IKVxPeNIN3j75bhca2-Ozq9CN6X9s2wqd__xH6-fX8x_wiW14vvs1Pl5njUvBMSic0V7JUTpesEo6ounCuBlpUtCbUMcYckZQyZokgVSrBQUvNGRFQUXaEPu_39sH_HiEOZtNEB21rO_BjNJQURPFSUpWix_9F134MXbrO6KJQRAqhU0jtQy74GAPUpg_NxoYpbTI702ZtdkLNTqjZmTYvps02oV_26J-mhenNnLm8v05NwrM93sQBtq-4DU9GSCZLc3e1MLe_bpaX84vv5oz9BWsjkrA</recordid><startdate>201202</startdate><enddate>201202</enddate><creator>Gongora, Jaime</creator><creator>Swan, Amelia B.</creator><creator>Chong, Amanda Y.</creator><creator>Ho, Simon Y. 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subjects	Biodiversity control region cytochrome b Freshwater Haplotypes Marine mammals Mitochondrial DNA Ornithorhynchus anatinus platypus River basins Transfer RNA
title	Genetic structure and phylogeography of platypuses revealed by mitochondrial DNA
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