O touro na mitologia egípcia : Ápis, cerimónias, insígnias e epítetos reais

Os antigos Egípcios acreditavam que o touro poderoso representava a personalidade do próprio faraó. O touro estava, de facto, intimamente associado ao Estado faraónico, estando presente ao nível dos regalia (cauda taurina) e significativamente nos próprios epítetos reais (ka nakht). Na mitologia egípcia, de todos os touros sagrados o que maior projecção alcançou, como deus agrário da fecundidade, da vegetação renascida e da ressurreição, foi, seguramente, o touro Ápis, associado em Mênfis aos deuses Ptah e Osíris. Na sua condição de touro ágil, vigoroso e viril, Ápis era um intermediário consistente entre o mundo dos vivos e o dos mortos, além de ser um propiciador de fertilidade e renascimento quando associado ao deus-Sol. A sua participação, literalmente ao lado do faraó, na «corrida ritual», importante cerimónia no âmbito da concepção ideológica do poder real, reforçou ainda mais a sua importância no seio do panteão egípcio.

Influência da estação do ano nas características do sêmen e na concentração de hormônios em touros Nelore e Simental

Estudou-se a influência das quatro estações do ano nas características do sêmen e nas concentrações de testosterona e cortisol em touros. Cinco touros Nelore e cinco Simental entre 48 e 72 meses de idade, criados extensivamente, foram avaliados andrologicamente por meio de exames físicos das características morfológicas do sêmen e das concentrações séricas de testosterona e cortisol. Houve redução na motilidade e no vigor do sêmen no inverno (P<0,05) na raça Simental. Observou-se correlação (P<0,01) entre testosterona x motilidade (0,69) e testosterona x vigor (0,57) na raça Simental, e cortisol x motilidade (0,68) e cortisol x vigor (0,65) na raça Nelore. O efeito das estações do ano modificou a qualidade do sêmen com aumento da motilidade e vigor espermáticos na primavera e verão nos touros Simental. A concentração de cortisol diminuiu no outono nos touros Nelore.

Genome-wide copy number variation (CNV) detection in Nelore cattle reveals highly frequent variants in genome regions harboring QTLs affecting production traits.

Background: Copy number variations (CNVs) have been shown to account for substantial portions of observed genomic variation and have been associated with qualitative and quantitative traits and the onset of disease in a number of species. Information from high-resolution studies to detect, characterize and estimate population-specific variant frequencies will facilitate the incorporation of CNVs in genomic studies to identify genes affecting traits of importance. Results: Genome-wide CNVs were detected in high-density single nucleotide polymorphism (SNP) genotyping data from 1,717 Nelore (Bos indicus) cattle, and in NGS data from eight key ancestral bulls. A total of 68,007 and 12,786 distinct CNVs were observed, respectively. Cross-comparisons of results obtained for the eight resequenced animals revealed that 92 % of the CNVs were observed in both datasets, while 62 % of all detected CNVs were observed to overlap with previously validated cattle copy number variant regions (CNVRs). Observed CNVs were used for obtaining breed-specific CNV frequencies and identification of CNVRs, which were subsequently used for gene annotation. A total of 688 of the detected CNVRs were observed to overlap with 286 non-redundant QTLs associated with important production traits in cattle. All of 34 CNVs previously reported to be associated with milk production traits in Holsteins were also observed in Nelore cattle. Comparisons of estimated frequencies of these CNVs in the two breeds revealed 14, 13, 6 and 14 regions in high (>20 %), low (<20 %) and divergent (NEL > HOL, NEL < HOL) frequencies, respectively. Conclusions: Obtained results significantly enriched the bovine CNV map and enabled the identification of variants that are potentially associated with traits under selection in Nelore cattle, particularly in genome regions harboring QTLs affecting production traits.

Early-life sexual segregation: ontogeny of isotopic niche differentiation in the Antarctic fur seal

Investigating the ontogeny of niche differentiation enables to determine at which life-stages sexual segregation arises, providing insights into the main factors driving resource partitioning. We investigated the ontogeny of foraging ecology in Antarctic fur seals (Arctocephalus gazella), a highly dimorphic species with contrasting breeding strategies between sexes. Sequential δ(13)C and δ(15)N values of whiskers provided a longitudinal proxy of the foraging niche throughout the whole life of seals, from weaning, when size dimorphism is minimal to the age of 5. Females exhibited an early-life ontogenetic shift, from a total segregation during their first year at-sea, to a similar isotopic niche as breeding females as early as age 2. In contrast, males showed a progressive change in isotopic niche throughout their development such that 5-year-old males did not share the same niche as territorial bulls. Interestingly, males and females segregated straight after weaning with males appearing to feed in more southerly habitats than females. This spatial segregation was of similar amplitude as observed in breeding adults and was maintained throughout development. Such early-life niche differentiation is an unusual pattern and indicates size dimorphism and breeding constraints do not directly drive sexual segregation contrary to what has been assumed in otariid seals.

Genetic parameters for carcass traits and body weight using a Bayesian approach in the Canchim cattle.

Correlation between genetic parameters and factors such as backfat thickness (BFT), rib eye area (REA), and body weight (BW) were estimated for Canchim beef cattle raised in natural pastures of Brazil. Data from 1648 animals were analyzed using multi-trait (BFT, REA, and BW) animal models by the Bayesian approach. This model included the effects of contemporary group, age, and individual heterozygosity as covariates. In addition, direct additive genetic and random residual effects were also analyzed. Heritability estimated for BFT (0.16), REA (0.50), and BW (0.44) indicated their potential for genetic improvements and response to selection processes. Furthermore, genetic correlations between BW and the remaining traits were high (P > 0.50), suggesting that selection for BW could improve REA and BFT. On the other hand, genetic correlation between BFT and REA was low (P = 0.39 ± 0.17), and included considerable variations, suggesting that these traits can be jointly included as selection criteria without influencing each other. We found that REA and BFT responded to the selection processes, as measured by ultrasound. Therefore, selection for yearling weight results in changes in REA and BFT.