Michèle Briend scite author profile

Michèle Briend

5Publications

57Citation Statements Received

78Citation Statements Given

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Département Génétique Animale

Publications

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A method for the dynamic management of genetic variability in dairy cattle

et al. 2004

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According to the general approach developed in this paper, dynamic management of genetic variability in selected populations of dairy cattle is carried out for three simultaneous purposes: procreation of young bulls to be further progeny-tested, use of service bulls already selected and approval of recently progeny-tested bulls for use. At each step, the objective is to minimize the average pairwise relationship coefficient in the future population born from programmed matings and the existing population. As a common constraint, the average estimated breeding value of the new population, for a selection goal including many important traits, is set to a desired value. For the procreation of young bulls, breeding costs are additionally constrained. Optimization is fully analytical and directly considers matings. Corresponding algorithms are presented in detail. The efficiency of these procedures was tested on the current Norman population. Comparisons between optimized and real matings, clearly showed that optimization would have saved substantial genetic variability without reducing short-term genetic gains.

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A method for the dynamic management of genetic variability in dairy cattle

et al. 2004

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-According to the general approach developed in this paper, dynamic management of genetic variability in selected populations of dairy cattle is carried out for three simultaneous purposes: procreation of young bulls to be further progeny-tested, use of service bulls already selected and approval of recently progeny-tested bulls for use. At each step, the objective is to minimize the average pairwise relationship coefficient in the future population born from programmed matings and the existing population. As a common constraint, the average estimated breeding value of the new population, for a selection goal including many important traits, is set to a desired value. For the procreation of young bulls, breeding costs are additionally constrained. Optimization is fully analytical and directly considers matings. Corresponding algorithms are presented in detail. The efficiency of these procedures was tested on the current Norman population. Comparisons between optimized and real matings, clearly showed that optimization would have saved substantial genetic variability without reducing short-term genetic gains.relationship coefficient / mating / optimization / breeding scheme

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Amélioration génétique de la production laitiere des brebis sardes. I. – Héritabilités et corrélations entre caractères

Casu¹,

Carta²,

Flamant³

et al. 1975

Genetics Selection Evolution

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A Pseudo-Absorption Strategy for Solving Animal Model Equations for Large Data Files

Ducrocq¹,

Boichard²,

Bonaı̈ti³

et al. 1990

Journal of Dairy Science

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Utilisation Des Races Rustiques en Croisement Avec Des Races a Viande : Exemple De La Race Gasconne

BIBÉ¹,

FRÉBLING²,

MÉNISSIER³

et al. 1976

Genet. Sel. Evol.

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Michèle Briend

A method for the dynamic management of genetic variability in dairy cattle

A method for the dynamic management of genetic variability in dairy cattle

Amélioration génétique de la production laitiere des brebis sardes. I. – Héritabilités et corrélations entre caractères

A Pseudo-Absorption Strategy for Solving Animal Model Equations for Large Data Files

Utilisation Des Races Rustiques en Croisement Avec Des Races a Viande : Exemple De La Race Gasconne

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