Boar taint is related to endocrine and anatomical changes at puberty but not to aggressive behaviour in entire male pigs.

This study aimed to describe the association between incidence of boar taint and pubertal changes in gonadal hormones, size of reproductive organs and aggressive behaviour in entire male pigs. In total, 111 entire male pigs were included in the study. Sampling was performed first at 90 kg live weight (LW) and, then, at 115 kg LW. Variables measured were skatole and androstenone levels in plasma and fat, testosterone and oestrone sulphate in plasma, free oestrone in fat, weight of testes and length of bulbourethral glands. Aggressive interactions between pigs were registered when a limited amount of feed was provided to the pigs prior to routine feeding. The number of initiated interactions (attacks) and the difference between number of initiated and received interactions (relative attacks) were calculated for each pig. Multivariate analysis revealed that gonadal hormones and reproductive organ size influenced prevalence of boar taint, accounting for 30% of the variation in skatole levels in fat and for 37% of the variation in androstenone levels in fat. These relations were independent of aggression levels in entire male pigs. Skatole levels were influenced by the levels of oestrone sulphate in plasma and free oestrone in fat, but not levels of plasma testosterone. Pigs with testes weight below 565 g and a bulbourethral gland length <90 mm did not produce high amounts of skatole; therefore, these values can be used as a threshold level to detect pig carcasses with low skatole levels. High androstenone levels could not be predicted by measuring reproductive organ sizes. More research is required to develop a rapid and accurate method for the analysis of carcasses of entire male pigs.

[1]  G. Zamaratskaia,et al.  The effect of age on distribution of skatole and indole levels in entire male pigs in four breeds: Yorkshire, Landrace, Hampshire and Duroc. , 2004, Meat science.

[2]  Kerstin Lundström,et al.  Plasma skatole and androstenone levels in entire male pigs and relationship between boar taint compounds, sex steroids and thyroxine at various ages , 2004 .

[3]  Greg M. Cronin,et al.  The effects of immuno- and surgical-castration on the behaviour and consequently growth of group-housed, male finisher pigs , 2003 .

[4]  G. Foxcroft,et al.  Impact of boar exposure on puberty attainment and breeding outcomes in gilts. , 2002, Theriogenology.

[5]  J. Wood,et al.  Cytochrome P450IIE1 (CYP2E1) is induced by skatole and this induction is blocked by androstenone in isolated pig hepatocytes. , 2002, Chemico-biological interactions.

[6]  P. A. Sinclair,et al.  The effect of early postnatal treatment with a gonadotropin-releasing hormone agonist on the developmental profiles of testicular steroid hormones in the intact male pig. , 2001, Journal of animal science.

[7]  L. R. França,et al.  Cell Proliferation and Hormonal Changes During Postnatal Development of the Testis in the Pig1 , 2000, Biology of reproduction.

[8]  M. Bonneau,et al.  Responses to restricted index selection and genetic parameters for fat androstenone level and sexual maturity status of young boars , 2000 .

[9]  H. Quesnel,et al.  Nutritional influences on the hormonal control of reproduction in female pigs , 2000 .

[10]  K. Lundström,et al.  Social effects and boar taint: significance for production of slaughter boars (Sus scrofa). , 2000, Journal of animal science.

[11]  L. Rydhmer,et al.  SEXUAL MATURITY IN ENTIRE MALE PIGS : ENVIRONMENTAL EFFECTS, RELATIONS TO SKATOLE LEVEL AND FEMALE PUBERTY , 1999 .

[12]  E. Squires,et al.  Relationship between metabolism of androstenone and skatole in intact male pigs. , 1999, Journal of animal science.

[13]  D. Pfaff,et al.  Behavioral effects of estrogen receptor gene disruption in male mice. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[14]  P. Hughes,et al.  The effects of contact frequency and transport on the efficacy of the boar effect. , 1995, Animal reproduction science.

[15]  G D Dial,et al.  Breed differences in boar taint: relationship between tissue levels boar taint compounds and sensory analysis of taint. , 1996, Journal of animal science.

[16]  M. Bonneau,et al.  Factors regulating the concentrations of 16-androstene steroids in submaxillary salivary glands of pigs. , 1996, Journal of animal science.

[17]  R. Johnson,et al.  Growth of testes and testicular morphology after eight generations of selection for increased predicted weight of testes at 150 days of age in boars. , 1995, Journal of animal science.

[18]  U. Weiler,et al.  Physiological aspects of androstenone and skatole formation in the boar-A review with experimental data. , 1994, Meat science.

[19]  M. Bonneau,et al.  Effects of age and live weight on the sexual development of gilts and boars fed two planes of nutrition. , 1987, Reproduction, nutrition, developpement.

[20]  R. Allrich,et al.  Changes in Leydig cell ultrastructure and function during pubertal development in the boar. , 1986, Biology of reproduction.

[21]  M. Bonneau,et al.  The size of Cowper's (bulbo-urethral) glands as an estimate of boar taint on the slaughter line , 1985 .

[22]  W. Booth,et al.  Sexual dimorphism involving steroidal pheromones and their binding protein in the submaxillary salivary gland of the Göttingen miniature pig. , 1984, The Journal of endocrinology.

[23]  M. Bonneau,et al.  Compounds responsible for boar taint, with special emphasis on androstenone: A review , 1982 .

[24]  I. Karlbom Attainment of puberty in female pigs: Influence of boar stimulation , 1982 .

[25]  B. Hoffmann,et al.  Oestrogens, compared to other steroids of testicular origin, in blood plasma of boars. , 1980, Acta endocrinologica.

[26]  K. Larsson,et al.  The Effect of two Different Feed Levels on the Development of the Reproductive Organs in Boars , 1979, Acta Veterinaria Scandinavica.

[27]  R. Johnson,et al.  Reproductive and testicular characteristics of purebred and crossbred boars. , 1977, Journal of animal science.

[28]  D. B. Gower 16-Unsaturated C 19 steroids. A review of their chemistry, biochemistry and possible physiological role. , 1972, Journal of steroid biochemistry.