How Can Heat Stress Affect Chicken Meat Quality? - a Review

Overview

Journal Poult Sci

Publisher Elsevier

Specialty Veterinary Medicine

Date 2018 Sep 1

PMID 30169735

Citations 91

Authors

Gholamreza Zaboli

Xi Huang

Xi Feng

Dong U Ahn

Affiliations

Soon will be listed here.

Abstract

Heat stress is one of the most important environmental stressors for the poultry industry in the world. Reduced growth rate, low feed efficiency, impaired immunological responses, changes in intestinal microflora, and deterioration of meat quality are the consequences of acute or chronic heat stress. In terms of meat quality, 3 primary mechanisms have been suggested to explain this phenomenon: 1) rapid drop in pH during and after slaughter due to the glycogen conversion to increase in lactic acid accumulation especially when the muscle temperature is high, a combination of high temperature and low pH that facilitates the denaturation of sarcoplasmic proteins resulting in lower water-holding capacity of muscle; 2) acceleration of panting to dissipate body heat, which increases CO2 exhalation and pH drop in blood, initiates metabolic acidosis in skeletal muscle. Increase in panting is also associated with a high release of corticosteroid hormones; 3) the reactive oxygen species produced by heat stress increases the oxidative stress in the birds, which can damage the structure and functions of the enzymes that regulate sarcoplasmic calcium levels in muscles. Overall, these changes in the muscle cells accentuate energy expenditure due to constant muscle contractions. This review discusses the scientific evidence about how heat stress affects the quality of chicken meat through the acid/base status, oxidative reactions, and changes in hormonal secretions.

Citing Articles

Rapid Development of High Concentration Protein Formulation Driven by High-Throughput Technologies.

Xin L, Prorok M, Zhang Z, Barboza G, More R, Bonfiglio M Pharm Res. 2025; 42(1):151-171.

PMID: 39824982 DOI: 10.1007/s11095-024-03801-3.

Maximizing the performance of heat stressed broilers by optimizing starch-to-lipid ratios, digestible amino acid, and metabolizable energy during the finisher phase.

Duhra D, Beaulieu D, Shynkaruk T, Dorigam J, Whelan R, Schwean-Lardner K Poult Sci. 2025; 104(2):104729.

PMID: 39756107 PMC: 11757756. DOI: 10.1016/j.psj.2024.104729.

Effect of Feeding Sugarcane Bagasse-Extracted Polyphenolic Mixture on the Growth Performance, Meat Quality, and Oxidative and Inflammatory Status of Chronic Heat-Stressed Broiler Chickens.

Kikusato M, Namai F, Yamada K Animals (Basel). 2024; 14(23).

PMID: 39682409 PMC: 11639974. DOI: 10.3390/ani14233443.

Effects of hydrolyzed yeast on growth performance, intestinal redox homeostasis, and woody breast myopathy in heat-stressed broilers.

Al-Abdullatif A, Alhotan R, Al-Badwi M, Dong X, Kettunen H, Vuorenmaa J Front Vet Sci. 2024; 11:1484150.

PMID: 39624063 PMC: 11610250. DOI: 10.3389/fvets.2024.1484150.

RNA-seq reveals changes in the transcriptome of the breast muscle of adult female chickens in response to heat stress.

Wu P, Xia S, Yu H, Zhao X, Zhang G, Wang K BMC Genomics. 2024; 25(1):1158.

PMID: 39614141 PMC: 11607835. DOI: 10.1186/s12864-024-11024-4.