Assessment of microsatellite and SNP markers for parentage assignment in ex situ African Penguin (Spheniscus demersus) populations

Captive management of ex situ populations of endangered species is traditionally based on pedigree information derived from studbook data. However, molecular methods could provide a powerful set of complementary tools to verify studbook records and also contribute to improving the understanding of t...

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Bibliographic Details
Published in:Ecology and evolution 2015-10, Vol.5 (19), p.4389-4399
Main Authors: Labuschagne, Christiaan, Nupen, Lisa, Kotzé, Antoinette, Grobler, Paul J., Dalton, Desiré L.
Format: Article
Language:English
Subjects:
Advantages
African penguin
Analytical methods
Animal breeding
Aquariums
Endangered & extinct species
Endangered populations
Endangered species
ex situ populations
exclusion‐based paternity
Laboratories
Marine
Markers
Microsatellites
Nucleotides
Original Research
Pedigree
Population
Population genetics
Populations
Power
Quantitative genetics
Reintroduction
Single-nucleotide polymorphism
Spheniscus demersus
Wildlife conservation
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Summary:Captive management of ex situ populations of endangered species is traditionally based on pedigree information derived from studbook data. However, molecular methods could provide a powerful set of complementary tools to verify studbook records and also contribute to improving the understanding of the genetic status of captive populations. Here, we compare the utility of single nucleotide polymorphisms (SNPs) and microsatellites (MS) and two analytical methods for assigning parentage in ten families of captive African penguins held in South African facilities. We found that SNPs performed better than microsatellites under both analytical frameworks, but a combination of all markers was most informative. A subset of combined SNP (n = 14) and MS loci (n = 10) provided robust assessments of parentage. Captive or supportive breeding programs will play an important role in future African penguin conservation efforts as a source of individuals for reintroduction. Cooperation among these captive facilities is essential to facilitate this process and improve management. This study provided us with a useful set of SNP and MS markers for parentage and relatedness testing among these captive populations. Further assessment of the utility of these markers over multiple (>3) generations and the incorporation of a larger variety of relationships among individuals (e.g., half‐siblings or cousins) is strongly suggested. Captive management of ex situ populations of endangered species is traditionally based on pedigree information derived from studbook data. However, molecular methods provide a powerful set of complementary tools to verify studbook records and to contribute to an improved understanding of the genetic status of captive populations. This study provided us with a useful set of SNP and MS markers for parentage and relatedness testing among captive penguin populations.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.1600