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Genetic aspects of piglet survival and related traits: a review

Journal

JOURNAL OF ANIMAL SCIENCE
Volume 100, Issue 6, Pages -

Publisher

OXFORD UNIV PRESS INC
DOI: 10.1093/jas/skac190

Keywords

farrowing; piglet survival; pre-weaning mortality; selection; teats

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In the livestock industry, the mortality rate of young animals is an important factor for farm efficiency and societal concerns. Genetic variation plays a role in survival rate, and appropriate genetic selection can help alleviate the pressure of mortality. However, survival rate is a dynamic indicator affected by various factors. Piglet survival depends on the genetic makeup of the individual piglet, the mother pig, and the nursing sow. Clear genetic variation exists in piglet survival, and genetic selection can increase their survival rate. However, it is important to balance this selection with other production traits.
In livestock, mortality in general, and mortality of the young, is societal worries and is economically relevant for farm efficiency. Genetic change is cumulative; if it exists for survival of the young and genetic merit can be estimated with sufficient accuracy, it can help alleviate the pressure of mortality. Lack of survival is a moving target; livestock production is in continuous change and labor shortage is a given. There is now ample evidence of clear genetic variance and of models able to provide genomic predictions with enough accuracy for selection response. Underlying traits such as birth weight, uniformity in birth weight, gestation length, number of teats, and farrowing duration all show genetic variation and support selection for survival or, alternatively, be selected for on their own merit. Clear genetic variation in piglet survival exists and it follows the infinitesimal model; it is the result of many underlying traits. Geneticists should consult other pig specialists and vice versa to optimize the use of this genetic variation. Lay Summary Piglet survival is under genetic control and there are clear differences between individuals in their ability to live. Animals that do not survive their first weeks will obviously not reproduce as this is natural selection. Animals that survive still harbor relevant genetic differences. The genomic toolset, the use of genetic markers, makes it possible to link each animal to all others in the population, alive or dead, creating good opportunities for selection. Piglet survival depends on the genetic make-up of 1) the piglet itself, is it vital and heavy enough, 2) of the mother, are the piglets born at term, with low variation in birth weight, and 3) of the sow nursing the piglets, often the mother, does she allow the piglets to drink enough colostrum and milk of enough quality? This review explores the black box approach, complex statistical analysis of very large scale genomic recording of survival data, and it explores the biological approach, the influences of gestation length, birth weight, uniformity, number of teats, colostrum, etc., on birth weight. There is little doubt that genetic selection can increase survival of piglets. The challenge is to do this selection in balance with other production traits, such as litter size and body composition.

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