Megan Scholtens scite author profile

Dairy goat farming in New Zealand is a profitable industry able to access niche markets for high value products. The New Zealand Dairy Goat Cooperative's members collectively manage 80% of the nation's dairy goat population (Scholtens et al., 2017). The cooperative is the leading international manufacturer of goat milk nutritional powders for infants and young children (Stafford & Prosser, 2016). The industry is dependent on goat milk with high total milk solids and low bacterial count for the manufacture of high-quality products. Selecting animals based on a selection index utilizes estimates of genetic merit encompassing economically relevant traits. A breeding program would enable the index selection of genetically superior animals which would rapidly improve the quantity and quality of milk produced from New Zealand dairy goats and result in improved profits for farmers. Modern breeding programs include routine genetic evaluation to enable selection of the best parents to produce the next generation of animals. Genetic and environmental factors significantly influence milk yield and quality in ruminants (Selvaggi & Dario, 2015), and genetic gain from selection will be enhanced if these environmental factors are accounted for in the estimation of genetic merit. Knowledge of variance components for production traits will enable the design of an effective genetic evaluation strategy, allowing the selection of animals with superior overall genetic merit, optimizing direct, and correlated selection responses for traits of economic importance (Barillet, 2007). Estimates of genetic parameters for economically relevant traits have been reported for dairy goats in South

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Genome-wide association studies of lactation yields of milk, fat, protein and somatic cell score in New Zealand dairy goats

Scholtens

Jiang

Smith

et al. 2020

J Animal Sci Biotechnol

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Background: Identifying associations between genetic markers and traits of economic importance will provide practical benefits for the dairy goat industry, enabling genomic prediction of the breeding value of individuals, and facilitating discovery of the underlying genes and mutations. Genome-wide association studies were implemented to detect genetic regions that are significantly associated with effects on lactation yields of milk (MY), fat (FY), protein (PY) and somatic cell score (SCS) in New Zealand dairy goats. Methods: A total of 4,840 goats were genotyped with the Caprine 50 K SNP chip (Illumina Inc., San Diego, CA). After quality filtering, 3,732 animals and 41,989 SNPs were analysed assuming an additive linear model. Four GWAS models were performed, a single-SNP additive linear model and three multi-SNP BayesC models. For the single-SNP GWAS, SNPs were fitted individually as fixed covariates, while the BayesC models fit all SNPs simultaneously as random effects. A cluster of significant SNPs were used to define a haplotype block whose alleles were fitted as covariates in a Bayesian model. The corresponding diplotypes of the haplotype block were then fit as class variables in another Bayesian model. Results: Across all four traits, a total of 43 genome-wide significant SNPs were detected from the SNP GWAS. At a genome-wide significance level, the single-SNP analysis identified a cluster of variants on chromosome 19 associated with MY, FY, PY, and another cluster on chromosome 29 associated with SCS. Significant SNPs mapped in introns of candidate genes (45%), in intergenic regions (36%), were 0-5 kb upstream or downstream of the closest gene (14%) or were synonymous substitutions (5%). The most significant genomic window was located on chromosome 19 explaining up to 9.6% of the phenotypic variation for MY, 8.1% for FY, 9.1% for PY and 1% for SCS. Conclusions: The quantitative trait loci for yield traits on chromosome 19 confirms reported findings in other dairy goat populations. There is benefit to be gained from using these results for genomic selection to improve milk production in New Zealand dairy goats.

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Genetic evaluation of dairy sheep in a New Zealand flock

Scholtens

Peterson

Gunson

et al. 2017

New Zealand Journal of Agricultural Research

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Opportunities for improving feed efficiency and spinal health in New Zealand farmed Chinook salmon (Oncorhynchus tshawytscha) using genomic information

et al. 2023

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A Capra hircus chromosome 19 locus linked to milk production influences mammary conformation

Jiang

Ankersmit-Udy

Turner

et al. 2022

J Animal Sci Biotechnol

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Background Economically important milk production traits including milk volume, milk fat and protein yield vary considerably across dairy goats in New Zealand. A significant portion of the variation is attributable to genetic variation. Discovery of genetic markers linked to milk production traits can be utilised to drive selection of high-performance animals. A previously reported genome wide association study across dairy goats in New Zealand identified a quantitative trait locus (QTL) located on chromosome 19. The most significantly associated single nucleotide polymorphism (SNP) marker for this locus is located at position 26,610,610 (SNP marker rs268292132). This locus is associated with multiple milk production traits including fat, protein and volume. The predicted effect of selection for the beneficial haplotype would result in an average production increase of 2.2 kg fat, 1.9 kg protein and 73.6 kg milk yield. An outstanding question was whether selection for the beneficial allele would co-select for any negative pleiotropic effects. An adverse relationship between milk production and udder health traits has been reported at this locus. Therefore, a genome wide association study was undertaken looking for loci associated with udder traits. Results The QTL and production associated marker rs268292132 was identified in this study to also be associated with several goat udder traits including udder depth (UD), fore udder attachment (FUA) and rear udder attachment (RUA). Our study replicates the negative relationship between production and udder traits with the high production allele at position 19:26,610,610 (SNP marker rs268292132) associated with an adverse change in UD, FUA and RUA. Conclusions Our study has confirmed the negative relationship between udder traits and production traits in the NZ goat population. We have found that the frequency of the high production allele is relatively high in the NZ goat population, indicating that its effect on udder conformation is not significantly detrimental on animal health. It will however be important to monitor udder conformation as the chromosome 19 locus is progressively implemented for marker assisted selection. It will also be of interest to determine if the gene underlying the production QTL has a direct effect on mammary gland morphology or whether the changes observed are a consequence of the increased milk volume.

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Megan Scholtens

Genetic parameters for total lactation yields of milk, fat, protein, and somatic cell score in New Zealand dairy goats

Genome-wide association studies of lactation yields of milk, fat, protein and somatic cell score in New Zealand dairy goats

Genetic evaluation of dairy sheep in a New Zealand flock

Opportunities for improving feed efficiency and spinal health in New Zealand farmed Chinook salmon (Oncorhynchus tshawytscha) using genomic information

A Capra hircus chromosome 19 locus linked to milk production influences mammary conformation

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