Abstract
Boar taint is caused by the accumulation of androstenone and skatole and other indoles in the fat; this is regulated by the balance between synthesis and degradation of these compounds and can be affected by a number of factors, including environment and management practices, sexual maturity, nutrition, and genetics. Boar taint can be controlled by immunocastration, but this practice has not been accepted in some countries. Genetics offers a long-term solution to the boar taint problem via selective breeding or genome editing. A number of short-term strategies to control boar taint have been proposed, but these can have inconsistent effects and there is too much variability between breeds and individuals to implement a blanket solution for boar taint. Therefore, we propose a precision livestock management approach to developing solutions for controlling taint. This involves determining the differences in metabolic processes and the genetic variations that cause boar taint in specific groups of pigs and using this information to design custom treatments based on the cause of boar taint. Genetic, proteomic or metabolomic profiling can then be used to identify and implement effective solutions for boar taint for specific populations of animals.
Highlights
Why Is Castration an Issue Now?Fatter pigs were most desired, so pigs were castrated to increase the fat content of the carcass
Boar taint is caused by the accumulation of high levels of 16-androstene steroids, which are produced by Leydig cells in the testis, and skatole and other indoles, which are produced from the metabolism of tryptophan by the gut microflora
We have shown that nuclear receptors CAR, PXR and FXR can affect the metabolism of boar taint compounds [65,66]
Summary
Fatter pigs were most desired, so pigs were castrated to increase the fat content of the carcass. Consumer demand has shifted, and leaner meat is considered a healthier option, so to produce a leaner carcass, there is increased desire to raise boars (entire males) over barrows (castrates). Not castrating male pigs will improve growth rate (+13%), increase lean yield (+20%), improve feed conversion (+14%), and decrease feed consumption (−9.5%), which will result in reduced production costs. There is increased cost of pain relief and labour, increased risk of infection and increased pre-weaning mortality due to surgical castration. This has led pig stakeholders in several EU countries to propose a ban on surgical castration (www.boars2018.com), which has been extended for a few more years due to a lack of suitable alternatives. The pros and cons on various alternatives to surgical castration without pain relief have been recently reviewed [2]
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