Scientific Electronic Archives (Apr 2021)

Use of different cold water spray protocols on bovine carcasses during cooling and its effects on meat quality

  • Janderson Ananias de Oliveira,
  • Angelo Polizel Neto,
  • Claudinele Cassia Bueno da Rosa,
  • Natália Baldasso Fortuna,
  • Andressa Groth,
  • Rafael dos Santos,
  • Felipe Cecconelo Bento,
  • Helen Fernanda Barros Gomes

DOI
https://doi.org/10.36560/14520211345
Journal volume & issue
Vol. 14, no. 5
pp. 12 – 21

Abstract

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This study was designed to evaluate the cold-water spraying (2 °C) on bovine carcasses during cooling, and its effects on meat quality. In protocols I, II, and III, 60-second spraying cycles were performed 10 min apart, with every cycle lasting 13 h, 15 h, and 17 h, respectively. In protocol IV, a software-controlled refrigeration unit was used, determining the interval and duration of the spray cycles. Data evaluated by counting colony forming units before the cooling period and after 24 h of carcass cooling were carcass features, such as body weight at slaughter, warm and cold carcass weight, weight losses on cooling, pH, temperature, and microbiological quality. Meat samples were collected to evaluate the Musculus longissimus thoracis for color, fat thickness, losses on cooking, loss of exudation, and shearing force, shortly after boning, and after 14 days of maturation. The protocols were effective in controlling the weight loss during cooling. The 17-hour protocol presented weight loss similar to that of the software-controlled. No significant difference was observed for the shearing force (kgF) evaluated in the same maturation period. The protocols tested did not create a favorable environment for the growth of psychrotrophic and enterobacteria in the evaluated carcasses. The use of the spray contributes to the reduction of mesophiles after 24 h of cooling. Differences between the results of the protocols for losses on exudation, losses on cooking, and color were observed, and the software-controlled protocol presented the highest loss values due to exudation, cooking, and luminosity.

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