Andrew Dell scite author profile

The Cleveland Bay horse is one of the oldest equines in the United Kingdom, with pedigree data going back almost 300 years. The studbook is essentially closed and because of this, there are concerns about loss of genetic variation across generations. The breed is one of five equine breeds listed as “critical” (<300 registered adult breeding females) by the UK Rare Breeds Survival Trust in their annual Watchlist. Due to their critically endangered status, the current breadth of their genetic diversity is of concern, and assessment of this can lead to improved breed management strategies. Herein, both genealogical and molecular methods are combined in order to assess founder representation, lineage, and allelic diversity. Data from 15 microsatellite loci from a reference population of 402 individuals determined a loss of 91% and 48% of stallion and dam lines, respectively. Only 3 ancestors determine 50% of the genome in the living population, with 70% of maternal lineage being derived from 3 founder females, and all paternal lineages traced back to a single founder stallion. Methods and theory are described in detail in order to demonstrate the scope of this analysis for wider conservation strategies. We quantitatively demonstrate the critical nature of the genetic resources within the breed and offer a perspective on implementing this data in considered breed management strategies.

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16 Years of breed management brings substantial improvement in population genetics of the endangered Cleveland Bay Horse

Dell

Curry

Hunter

et al. 2021

Ecology and Evolution

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The need to manage inbreeding in closed populations of animals such as domestic pets, captive populations of wildlife, or farmed livestock has been further emerging in international policy through individual national efforts, as well as guidance from regulatory bodies such as the United Nations Farm Animal Organization. As gene sequencing technologies become more widespread and levels of inbreeding can now be assessed using runs of homozygosity (ROH) determined using single-nucleotide polymorphisms (SNPs), it has been suggested that pedigrees alone are no longer adequate to formulate breed management programs (Dell et al., 2020a).Conversely, it has been suggested that where a pedigree is deep, it may well remain the preferred tool to assist in formulating breed

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Mitochondrial D-loop sequence variation and maternal lineage in the endangered Cleveland Bay horse

Dell

Curry

Yarnell

et al. 2020

Preprint

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Genetic diversity and maternal ancestry line relationships amongst a sample of 96 Cleveland Bay horses were investigated using a 479bp length of mitochondrial Dloop sequence. The analysis yielded at total of 11 haplotypes with 27 variable positions, all of which have been described in previous equine mitochondrial DNA dloop studies. Four main haplotype clusters were present in the Cleveland Bay breed describing 89% of the total sample. This suggests that only four principal maternal ancestry lines exist in the present-day global Cleveland Bay population. Comparison of these sequences with other domestic horse haplotypes shows a close association of the Cleveland Bay horse with Northern European (Clade C), Iberian (Clade A) and North African (Clade B) horse breeds. This indicates that the Cleveland Bay horse may not have evolved exclusively from the now extinct Chapman horse, as previous work as suggested. The Cleveland Bay horse remains one of only fivedomestic horse breeds classified as Critical on the Rare Breeds Survival Trust (UK) Watchlist and our results provide important information on the origins of this breed and represent a valuable tool for conservation purposes.

show abstract

Mitochondrial D-loop sequence variation and maternal lineage in the endangered Cleveland Bay horse

et al. 2020

View full text Add to dashboard Cite

Genetic diversity and maternal ancestry line relationships amongst a sample of 96 Cleveland Bay horses were investigated using a 479bp length of mitochondrial D-loop sequence. The analysis yielded at total of 11 haplotypes with 27 variable positions, all of which have been described in previous equine mitochondrial DNA d-loop studies. Four main haplotype clusters were present in the Cleveland Bay breed describing 89% of the total sample. This suggests that only four principal maternal ancestry lines exist in the present-day global Cleveland Bay population. Comparison of these sequences with other domestic horse haplotypes (Fig 2) shows a close association of the Cleveland Bay horse with Northern European (Clade C), Iberian (Clade A) and North African (Clade B) horse breeds. This indicates that the Cleveland Bay horse may not have evolved exclusively from the now extinct Chapman horse, as previous work as suggested. The Cleveland Bay horse remains one of only five domestic horse breeds classified as Critical on the Rare Breeds Survival Trust (UK) Watchlist and our results provide important information on the origins of this breed and represent a valuable tool for conservation purposes.

show abstract

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Andrew Dell

Genetic analysis of the endangered Cleveland Bay horse: A century of breeding characterised by pedigree and microsatellite data

16 Years of breed management brings substantial improvement in population genetics of the endangered Cleveland Bay Horse

Mitochondrial D-loop sequence variation and maternal lineage in the endangered Cleveland Bay horse

Mitochondrial D-loop sequence variation and maternal lineage in the endangered Cleveland Bay horse

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