Similar estimates of population genetic composition and sex ratio derived from carcasses and faeces of Eurasian otter Lutra lutra

Similar estimates of population genetic composition and sex ratio derived from carcasses and faeces of Eurasian otter Lutra lutra

Collecting faeces is viewed as a potentially efficient way to sample elusive animals. Nonetheless, any biases in estimates of population composition associated with such sampling remain uncharacterized. The goal of this study was to compare estimates of genetic composition and sex ratio derived from...

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Bibliographic Details
Published in:Molecular ecology Vol. 12; no. 1; pp. 275 - 282
Main Authors: Dallas, John F., Coxon, Karen E., Sykes, Tim, Chanin, Paul R. F., Marshall, Freda, Carss, David N., Bacon, Philip J., Piertney, Stuart B., Racey, Paul A.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-01-2003
Subjects:
Animals
England
faeces
Feces - chemistry
Freshwater
Gene Frequency
genetic
Genetics, Population
Genotype
Lutra
Lutra lutra
microsatellite
Microsatellite Repeats
noninvasive
Otters - genetics
Otters - physiology
PCR
Sequence Analysis, DNA
Sex Ratio
SRY
England
British Isles, England
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Summary:Collecting faeces is viewed as a potentially efficient way to sample elusive animals. Nonetheless, any biases in estimates of population composition associated with such sampling remain uncharacterized. The goal of this study was to compare estimates of genetic composition and sex ratio derived from Eurasian otter Lutra lutra spraints (faeces) with estimates derived from carcasses. Twenty per cent of 426 wild‐collected spraints from SW England yielded composite genotypes for 7–9 microsatellites and the SRY gene. The expected number of incorrect spraint genotypes was negligible, given the proportions of allele dropout and false allele detection estimated using paired blood and spraint samples of three captive otters. Fifty‐two different spraint genotypes were detected and compared with genotypes of 70 otter carcasses from the same area. Carcass and spraint genotypes did not differ significantly in mean number of alleles, mean unbiased heterozygosity or sex ratio, although statistical power to detect all but large differences in sex ratio was low. The genetic compositions of carcass and spraint genotypes were very similar according to confidence intervals of θ and two methods for assigning composite genotypes to groups. A distinct group of approximately 11 carcass and spraint genotypes was detected using the latter methods. The results suggest that spraints can yield unbiased estimates of population genetic composition and sex ratio.
Bibliography:ark:/67375/WNG-020XGXSS-B
istex:8805A64C36476826C9FC29E3661637E3ECACCE26
ArticleID:MEC1712
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ObjectType-Article-1
ObjectType-Feature-2
ISSN:0962-1083
1365-294X
DOI:10.1046/j.1365-294X.2003.01712.x