TY - JOUR
T1 - A single-nucleotide polymorphism-based approach for rapid and cost-effective genetic wolf monitoring in Europe based on noninvasively collected samples
AU - Kraus, Robert H.S.
AU - vonHoldt, Bridgett Marie
AU - Cocchiararo, Berardino
AU - Harms, Verena
AU - Bayerl, Helmut
AU - Kühn, Ralph
AU - Förster, Daniel W.
AU - Fickel, Jörns
AU - Roos, Christian
AU - Nowak, Carsten
N1 - Publisher Copyright:
© 2014 John Wiley & Sons Ltd.
PY - 2015/3/1
Y1 - 2015/3/1
N2 - Noninvasive genetics based on microsatellite markers has become an indispensable tool for wildlife monitoring and conservation research over the past decades. However, microsatellites have several drawbacks, such as the lack of standardisation between laboratories and high error rates. Here, we propose an alternative single-nucleotide polymorphism (SNP)-based marker system for noninvasively collected samples, which promises to solve these problems. Using nanofluidic SNP genotyping technology (Fluidigm), we genotyped 158 wolf samples (tissue, scats, hairs, urine) for 192 SNP loci selected from the Affymetrix v2 Canine SNP Array. We carefully selected an optimised final set of 96 SNPs (and discarded the worse half), based on assay performance and reliability. We found rates of missing data in this SNP set of <10% and genotyping error of ~1%, which improves genotyping accuracy by nearly an order of magnitude when compared to published data for other marker types. Our approach provides a tool for rapid and cost-effective genotyping of noninvasively collected wildlife samples. The ability to standardise genotype scoring combined with low error rates promises to constitute a major technological advancement and could establish SNPs as a standard marker for future wildlife monitoring.
AB - Noninvasive genetics based on microsatellite markers has become an indispensable tool for wildlife monitoring and conservation research over the past decades. However, microsatellites have several drawbacks, such as the lack of standardisation between laboratories and high error rates. Here, we propose an alternative single-nucleotide polymorphism (SNP)-based marker system for noninvasively collected samples, which promises to solve these problems. Using nanofluidic SNP genotyping technology (Fluidigm), we genotyped 158 wolf samples (tissue, scats, hairs, urine) for 192 SNP loci selected from the Affymetrix v2 Canine SNP Array. We carefully selected an optimised final set of 96 SNPs (and discarded the worse half), based on assay performance and reliability. We found rates of missing data in this SNP set of <10% and genotyping error of ~1%, which improves genotyping accuracy by nearly an order of magnitude when compared to published data for other marker types. Our approach provides a tool for rapid and cost-effective genotyping of noninvasively collected wildlife samples. The ability to standardise genotype scoring combined with low error rates promises to constitute a major technological advancement and could establish SNPs as a standard marker for future wildlife monitoring.
KW - Canis lupus
KW - Conservation
KW - Genetic monitoring
KW - Scat sampling
KW - Single-nucleotide polymorphism
KW - Single-nucleotide polymorphism chip
KW - Wildlife management
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U2 - 10.1111/1755-0998.12307
DO - 10.1111/1755-0998.12307
M3 - Article
C2 - 25042673
AN - SCOPUS:84922530954
SN - 1755-098X
VL - 15
SP - 295
EP - 305
JO - Molecular Ecology Resources
JF - Molecular Ecology Resources
IS - 2
ER -