Genetic variability and history of a native Finnish horse breed

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Qvist , L , Niskanen , M , Mannermaa , K , Wutke , S & Aspi , J 2019 , ' Genetic variability and history of a native Finnish horse breed ' , Genetics Selection Evolution , vol. 51 , no. 35 , 35 . https://doi.org/10.1186/s12711-019-0480-8

Title: Genetic variability and history of a native Finnish horse breed
Author: Qvist, Laura; Niskanen, Markku; Mannermaa, Kristiina; Wutke, Saskia; Aspi, Jouni
Other contributor: University of Helsinki, Department of Cultures


Date: 2019-07-01
Language: eng
Number of pages: 14
Belongs to series: Genetics Selection Evolution
ISSN: 0999-193X
DOI: https://doi.org/10.1186/s12711-019-0480-8
URI: http://hdl.handle.net/10138/304751
Abstract: Background: The Finnhorse was established as a breed more than 110 years ago by combining local Finnish landraces. Since its foundation, the breed has experienced both strong directional selection, especially for size and colour, and severe population bottlenecks that are connected with its initial foundation and subsequent changes in agricultural and forestry practices. Here, we used sequences of the mitochondrial control region and genomic single nucleotide polymorphisms (SNPs) to estimate the genetic diversity and differentiation of the four Finnhorse breeding sections: trotters, pony-sized horses, draught horses and riding horses. Furthermore, we estimated inbreeding and effective population sizes over time to infer the history of this breed. Results: We found a high level of mitochondrial genetic variation and identified 16 of the 18 haplogroups described in present-day horses. Interestingly, one of these detected haplogroups was previously reported only in the Przewalski’s horse. Female effective population sizes were in the thousands, but declines were evident at the times when the breed and its breeding sections were founded. By contrast, nuclear variation and effective population sizes were small (approximately 50). Nevertheless, inbreeding in Finnhorses was lower than in many other horse breeds. Based on nuclear SNP data, genetic differentiation among the four breeding sections was strongest between the draught horses and the three other sections (FST=0.007–0.018), whereas based on mitochondrial DNA data, it was strongest between the trotters and the pony-sized and riding horses (ΦST= 0.054–0.068). Conclusions: The existence of a Przewalski’s horse haplogroup in the Finnhorse provides new insights into the domestication of the horse, and this finding supports previous suggestions of a close relationship between the Finnhorse and eastern primitive breeds. The high level of mitochondrial DNA variation in the Finnhorse supports its domestication from a large number of mares but also reflects that its founding depended on many local landraces. Although inbreeding in Finnhorses was lower than in many other horse breeds, the small nuclear effective popula- tion sizes of each of its breeding sections can be considered as a warning sign, which warrants changes in breeding practices.
Subject: 1184 Genetics, developmental biology, physiology
MITOCHONDRIAL-DNA
PROGRAM
DOMESTICATION
SOFTWARE
ORIGINS
GENOMES
NUMBER
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