07 Jul 2026

Study investigates population structure and genetic diversity of Duroc subpopulations from different regions

Duroc is one of the most popular terminal sire pig breeds worldwide due to its greater growth rate.

Study investigates population structure and genetic diversity of Duroc subpopulations from different regions

A study performed by Hui Wen from the Department of Animal Sciences at Purdue University and her team, was to investigate population structure and genetic diversity of Duroc subpopulations from Europe, North America, and Australia, and of other pig breeds.

Duroc is one of the most popular terminal sire pig breeds worldwide due to its greater growth rate, meat quality, feed efficiency, and carcass characteristics compared to other breeds.

Despite the breed’s popularity, its developmental history, genetic diversity, and genetic relationships with other pig breeds remain largely unknown.

Results

The studied pig populations were differentiated into five subgroups (European and North American Durocs, Australian Durocs, Asian-Pacific pig breeds, and two other breed groups [OBP1 and OBP2]), consistent with their geographical origins, as revealed by population structure analyses.

The estimated effective population size (Ne) of Duroc subpopulations ranged from 17 to 47, while the Ne for the combined Duroc subpopulations was 172.

A total of 140,713 runs of homozygosity (ROHs) were identified across all individuals, with 98,039 ROHs in Durocs and 42,674 in other pig breeds. Durocs had a greater number and proportion of longer ROHs (> 8 Mb) compared to other pig breeds.

The ROH-based inbreeding (FROH) values were significantly greater in Durocs than in most of the other breeds, indicating the need for better management of genetic diversity in the breed.

The researchers observed strong correlations (> 0.65) between different inbreeding metrics in all the studied pig populations. A total of 43, 18, 27, 37, and 20 candidate genes were identified in the ROH islands for European and North American Durocs, Australian Durocs, Asian-Pacific pigs, OBP1, and OBP2 pigs, respectively.

The significant KEGG pathways were mainly related to growth, metabolism, immune system, cellular processes, and signal transduction.

Conclusions

Related to Production

MAGAZINE PIG PORKNEWS

Subscribe now to the technical pig magazine

DISCOVER
agriNews Play - Los podcast del sector ganadero en español
agriCalendar - El calendario de eventos del mundo agroganaderoagriCalendar
agrinewsCampus - Cursos de formación para el sector de la ganadería