<b>Some factors that affect ruminant meat quality: from the farm to the fork. Review</b> - doi: 10.4025/actascianimsci.v35i4.21756

<p>Nowadays consumers are highly interested in the quality of the products they eat, especially when this refers to meat. Consumption of meat from ruminant animals and its derivatives is on the increase, particularly in some countries such as Brazil, one of the main beef exporters in the world. Current analysis is a review of the different factors that affect meat quality in ruminants, with a focus on sensory analyses. Some factors throughout the entire meat chain are analyzed, or rather, from those that producers underscore to improve the quality of their products to those related with consumers' habits and beliefs. Most of the papers reviewed have been developed by researchers involved in the Meat Quality and Technology Group (University of Zaragoza and CITA of Aragon, Spain) alone or in collaboration with other local or international groups.</p> <p class="akeyword"> </p><p> </p

How does the dietary cottonseed hull affect the carcass characteristics and meat quality of young bulls finished in a high-concentrate diet?

ABSTRACT This study evaluated the effects of diets composed by cottonseed hull and meat aging on carcass characteristics and meat quality from young bulls fed on a high-concentrate system. Thirty crossbred bulls were assigned in a complete randomized experimental factorial design with three diets (CH21: cottonseed hull 210 g kg-1on a DM basis, CH27: cottonseed hull 270 g kg-1on a DM basis and CH33: cottonseed hull 330 g kg-1on a DM basis) and different aging times (24 hours and 3, 7 and 14 days). Meat from CH27 diets presented smaller LM moisture content (p < 0.05). Total lipids were smaller in CH33 diet (p <0.05). At 24 hours, CH21 diet presented smaller LM cooking loss than other diets. The increasing aging time reduced the shear force (p < 0.001) on the LM. Meat from CH27 diet presented the highest luminosity (p < 0.05) and yellowness values (p < 0.001). Three or seven aging days presented smaller values of LM luminosity. Likewise, the increasing aging time presented greater (p < 0.05) yellowness within the LM. Lipid oxidation was lower from CH21 diet (p < 0.001). The fatty acid composition on LM was similar among diets. The use of cottonseed hull could be useful strategies to improve the meat quality and lean beef production

Propolis and essential oils additives in the diets improved animal performance and feed efficiency of bulls finished in feedlot

This work was realized to evaluate the effect of natural additives as propolis or essential oils addition on animal performance, feed intake, apparent digestibility and carcass characteristics of bulls finished in feedlot. Thirty bulls (½ Aberdeen Angus vs. ½ Nellore) were randomly assigned in one of three diets (control - CON, propolis - PRO and essential oils - OIL) and kept in feedlot (individual pen) during 55 days. CON diet consists of 45% corn silage, 40% concentrate (cracked corn, soybean meal, limestone and mineral salt) and 15% glycerine. The PRO group received same diet that control plus 3 grams to animal day-1 of propolis dry added to the concentrate. The OIL oils group received same diet that control and 3 grams to animal day-1 of essential oils (cashew and castor oils) added to the concentrate. Final weight, average daily gain, feed efficiency and hot carcass weightwere better for bulls supplemented with essential oils and propolis than for bulls fed control diet. The feed intake, apparent digestibility, carcass conformation and tissue composition were unaffected by the additives addition. The addition of propolis and essential oils in the diets of bulls finished in feedlot improve animal performance and carcass weight

Meat quality from four genetic groups of bulls slaughtered at 14 months old=Qualidade da carne de bovinos não castrados de quatro grupos genéticos abatidos aos 14 meses de idade

Carcass characteristics and chemical composition of Longissimus muscle of 32 young bulls from four genetic groups slaughtered at 14 months old were evaluated. Experimental design was completely randomized and distributed into four genetics groups: 1. Caracu (CAR); 2. Canchin (CAN); 3. Charolais vs. Caracu (CHC) and 4. Aberdeen Angus vs. Canchin (AAC). Carcass dressing and carcass conformation were lower for CAR than CAN, CHC and AAC genetic groups. No difference has been reported with regard to moisture, ash, crude protein, total lipids and total cholesterol among four genetics groups. The genetic groups influence fatty acid profile on Longissimus muscle in bulls. Cattle with zebu genes had the highest rates in unsaturated fatty acids, saturated fatty acids represented approximately 50% of total fatty acid composition on Longissimus muscle. The genetic groups presented differences in PUFA, SFA, n-6 and n-3 percentages and n-6 and n-3 ratios.<br><br>Este trabalho foi realizado para avaliar as características de carcaça e composição química do músculo Longissimus de 32 bovinos não castrados de quatro grupos genéticos abatidos aos 14 meses de idade. Foi usado um modelo experimental inteiramente casualizado e distribuídos em quatro grupos genéticos: 1. Caracu (CAR); 2. Canchin (CAN); 3. Charolês vs. Caracu (CHC) e 4. Aberdeen Angus vs. Canchin (AAC). O rendimento e a conformação de carcaça foram menores para os animais do grupo genético CAR em comparação ao grupo genético CAN, CHC e AAC. Não houve diferença para umidade, cinzas, proteína bruta e colesterol total entre os quatros grupos genéticos. O grupo genético teve influência sobre o perfil de ácidos graxos do músculo Longissimus dos bovinos. Os bovinos com genes zebu tiveram maiores níveis de ácidos graxos saturados. Os ácidos graxos saturados representaram aproximadamente 50% da composição dos ácidos graxos do músculo Longissimus. O grupo genético teve efeito nas percentagens de ácidos graxos saturados e poliinsaturados, n-3 e n-6 e sobre a razão entre n-6 e n-3