Spatial modelling improves genomic evaluation in Tanzanian smallholder admixed dairy cattle
Isidore Houaga, Raphael Mrode, Julie Ojango, Chinyere Charlote Ekine-Dzivenu, Mwai Okeyo, Zabron Nziku, Athumani Nguluma, Eva Lavrenčič, Finn Lindgren, Ivan Pocrnic, Appolinaire Djikeng, Gregor Gorjanc

TL;DR
This study shows that using spatial modeling improves the accuracy of genomic evaluations for dairy cattle in smallholder farms in Tanzania.
Contribution
The novel contribution is demonstrating how spatial modeling can enhance genomic evaluation accuracy in smallholder dairy systems with high environmental variability.
Findings
Spatial effects significantly influence milk yield and are not fully captured by herd effects alone.
Models incorporating spatial effects improve the separation of genetic and environmental influences on milk yield.
Spatial modeling increases the accuracy of breeding value predictions in smallholder dairy cattle.
Abstract
Smallholder dairy production systems in low-and middle-income countries are characterised by large phenotypic variance due to diverse environmental effects, farming practices, and crossbreeding. Furthermore, small herds, low genetic connectedness, and limited data recording challenge accurate separation of environmental and genetic effect in such settings, limiting genetic improvement. Here, we evaluated the impact of modelling spatial variation between herds to address these challenges and improve the accuracy of genomic evaluation for Tanzanian smallholder dairy cattle. We analysed 19,375 test-day milk yield records of 1894 dairy cows from 1386 herds across four distinct geographical regions in Tanzania. The cows had 664,822 SNP marker genotypes after quality control and were highly admixed. We fitted a series of GBLUP models to evaluate the impact of modelling the herd effect and…
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Taxonomy
TopicsGenetic and phenotypic traits in livestock · Milk Quality and Mastitis in Dairy Cows · Genetic Mapping and Diversity in Plants and Animals
