Optimum contribution for mate selection in Santa Inês sheep

ABSTRACT The objective of this research was to simulate the genetic gains expected comparing random mating strategies and mate selection by optimum contribution with different penalty levels in the inbreeding rate of Santa Inês sheep. The optimum contribution theory was thus applied to optimize gene...

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Published in:Revista brasileira de zootecnia Vol. 50
Main Authors: Sarmento, José Lindenberg Rocha, Barbosa, Leandro Teixeira, Barreto, Arnaldo Dantas, Celeste, Alcigeimes Batista, Santos, Natanael Pereira da Silva
Format: Journal Article
Language:English
Published: Sociedade Brasileira de Zootecnia 01-03-2021
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Summary:ABSTRACT The objective of this research was to simulate the genetic gains expected comparing random mating strategies and mate selection by optimum contribution with different penalty levels in the inbreeding rate of Santa Inês sheep. The optimum contribution theory was thus applied to optimize genetic gain in the long term in twelve selection groups by selectively mating 500 females with the respective males, increasingly penalizing the increase in inbreeding in the objective function. Genetic algorithms were used to find the optimum contribution. Optimization was achieved via EVA software. Selection candidates had their contribution defined into four treatments, using different values to weigh the genetic merit and penalize increases in inbreeding. This made it possible to measure the degree of control over those parameters that can be obtained with this methodology. This selection offers different levels of genetic gain, which are achievable from restrictions on the coancestry. The number of males selected and their distribution into selection groups varied according to the penalty attributed to inbreeding in the objective function. Mate selection using optimum contribution should be adopted when aiming to limit the increase in inbreeding. Increasing the exchange of genetic material between groups is recommended to elevate genetic gain and maintain control over inbreeding.
ISSN:1516-3598
1806-9290
1806-9290
DOI:10.37496/rbz5020190108