A molecular diagnostic for identifying central Africa forest artiodactyls from faecal pellets

Small to medium-sized central African forest artiodactyls constitute a diverse yet heavily hunted group composed primarily of species within the genera Cephalophus, Neotragus, Tragelaphus and Hyemoschus. Of these genera, Cephalophus is the richest with as many as seven sympatric species known to occ...

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Veröffentlicht in:	Animal conservation 2010, Vol.13 (1), p.80-93
Hauptverfasser:	Ntie, Stephan, Johnston, A.R., Mickala, Patrick, Bowkett, Andrew E., van Vuuren, B. Jansen, Colyn, Marc, Telfer, Paul, Maisels, Fiona, Hymas, O., Rouyer, R.L., Wallace, R.A., Leblanc, K., van Vliet, Nathalie, Sonet, Gontran, Verheyen, Erik, Pires, Debra, Wickings, E. Jean, Lahm, Sally A., Anthony, Nicola M.
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Schlagworte:	Biodiversity and Ecology Environmental Sciences
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creator	Ntie, Stephan Johnston, A.R. Mickala, Patrick Bowkett, Andrew E. van Vuuren, B. Jansen Colyn, Marc Telfer, Paul Maisels, Fiona Hymas, O. Rouyer, R.L. Wallace, R.A. Leblanc, K. van Vliet, Nathalie Sonet, Gontran Verheyen, Erik Pires, Debra Wickings, E. Jean Lahm, Sally A. Anthony, Nicola M.
description	Small to medium-sized central African forest artiodactyls constitute a diverse yet heavily hunted group composed primarily of species within the genera Cephalophus, Neotragus, Tragelaphus and Hyemoschus. Of these genera, Cephalophus is the richest with as many as seven sympatric species known to occur in central African forests. However, differentiating species from their faeces or from tissue where the whole carcass is unavailable is very difficult. In order to develop a robust molecular diagnostic for species identification, a database of mitochondrial cytochrome b (553 bp) and control region (675 bp) sequences was compiled from all forest Cephalophus species and other similarly sized, sympatric Tragelaphus, Neotragus and Hyemoschus species. Reference phylogenies from each marker were then used to recover the identity of sequences obtained from unknown faecal samples collected in the field. Results were then compared to determine which region best recovered species identity with the highest statistical support. Restriction fragment length polymorphisms (RFLPs) were also assessed as an alternative method for rapid species identification. Of themethods examined, tree-based analyses built on a geographically comprehensive database of control region sequences was the best means of reliably recovering species identity from central African duikers. However, three sister taxa appear indistinguishable (Cephalophus callipygus, Cephalophus ogilbyi and Cephalophus weynsi) and not all species were monophyletic. This lack of monophyly may be due to incomplete lineage sorting commonly observed in recently derived taxa, hybridization or the presence of nuclear translocated copies of mitochondrial DNA. The high level of intra-specific variation and lack of robust species-specific diagnostic sites made an RFLP-based approach to duiker species identification difficult to implement. The tree-based control region diagnostic presented here has many important applications including fine-scale mapping of species distributions, identification of confiscated tissue and environmental impact assessments.
doi_str_mv	10.1111/j.1469-1795.2009.00303.x
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However, differentiating species from their faeces or from tissue where the whole carcass is unavailable is very difficult. In order to develop a robust molecular diagnostic for species identification, a database of mitochondrial cytochrome b (553 bp) and control region (675 bp) sequences was compiled from all forest Cephalophus species and other similarly sized, sympatric Tragelaphus, Neotragus and Hyemoschus species. Reference phylogenies from each marker were then used to recover the identity of sequences obtained from unknown faecal samples collected in the field. Results were then compared to determine which region best recovered species identity with the highest statistical support. Restriction fragment length polymorphisms (RFLPs) were also assessed as an alternative method for rapid species identification. Of themethods examined, tree-based analyses built on a geographically comprehensive database of control region sequences was the best means of reliably recovering species identity from central African duikers. However, three sister taxa appear indistinguishable (Cephalophus callipygus, Cephalophus ogilbyi and Cephalophus weynsi) and not all species were monophyletic. This lack of monophyly may be due to incomplete lineage sorting commonly observed in recently derived taxa, hybridization or the presence of nuclear translocated copies of mitochondrial DNA. The high level of intra-specific variation and lack of robust species-specific diagnostic sites made an RFLP-based approach to duiker species identification difficult to implement. 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In order to develop a robust molecular diagnostic for species identification, a database of mitochondrial cytochrome b (553 bp) and control region (675 bp) sequences was compiled from all forest Cephalophus species and other similarly sized, sympatric Tragelaphus, Neotragus and Hyemoschus species. Reference phylogenies from each marker were then used to recover the identity of sequences obtained from unknown faecal samples collected in the field. Results were then compared to determine which region best recovered species identity with the highest statistical support. Restriction fragment length polymorphisms (RFLPs) were also assessed as an alternative method for rapid species identification. Of themethods examined, tree-based analyses built on a geographically comprehensive database of control region sequences was the best means of reliably recovering species identity from central African duikers. However, three sister taxa appear indistinguishable (Cephalophus callipygus, Cephalophus ogilbyi and Cephalophus weynsi) and not all species were monophyletic. This lack of monophyly may be due to incomplete lineage sorting commonly observed in recently derived taxa, hybridization or the presence of nuclear translocated copies of mitochondrial DNA. The high level of intra-specific variation and lack of robust species-specific diagnostic sites made an RFLP-based approach to duiker species identification difficult to implement. The tree-based control region diagnostic presented here has many important applications including fine-scale mapping of species distributions, identification of confiscated tissue and environmental impact assessments.</description><subject>Biodiversity and Ecology</subject><subject>Environmental Sciences</subject><issn>1367-9430</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><recordid>eNqVisFuwjAQRH2gUmnhH_baQ9x1nAZyjFARhx57RdHKsekiJ0a2qZq_J0j8QOcyozdPCFAo1Zz3s1RV3RRq03zIErGRiBq1_FuIpdL1pmgqjc_iJaUzoiq3Wi3FsYUheGuuniL0TKcxpMwGXIjAvR0zu4nHE5h5RvLQusiG7rdNGShmDj2ZPPkELoYBHFkzaxfrvc1pJZ4c-WTXj34Vb_vP792h-CHfXSIPFKcuEHeH9qu7M8SqrnFb_ir9H_cGoOVOhQ</recordid><startdate>2010</startdate><enddate>2010</enddate><creator>Ntie, Stephan</creator><creator>Johnston, A.R.</creator><creator>Mickala, Patrick</creator><creator>Bowkett, Andrew E.</creator><creator>van Vuuren, B. 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title	A molecular diagnostic for identifying central Africa forest artiodactyls from faecal pellets
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