AUTHOR=Souza Rannyelle Gomes , Maia Maria Isabelly Leite , Anjos Lima Luiz Arthur dos , Morais Larissa Kellen da Cunha , Santos Severino Guilherme Caetano Gonçalves dos , Veríssimo Tarsys Noan Silva , Santos José Danrley Cavalcante dos , Nascimento Pavlos Vinícius do , Soares Kilmer Oliveira , Costa Fernando Guilherme Perazzo , Guerra Ricardo Romão , Carvalho Lucas Rannier Ribeiro Antonino , Saraiva Edilson Paes 

TITLE=DL-methionine supplementation in Japanese quails under different thermal conditions

JOURNAL=Frontiers in Animal Science

VOLUME=Volume 6 - 2025

YEAR=2025

URL=https://www.frontiersin.org/journals/animal-science/articles/10.3389/fanim.2025.1671042

DOI=10.3389/fanim.2025.1671042

ISSN=2673-6225

ABSTRACT=Heat stress is one of the major constraints on quail production, compromising feed intake, egg quality, and overall welfare under tropical conditions. This study aimed to evaluate whether dietary methionine + cystine (Met+Cys) supplementation could mitigate the adverse effects of thermal stress on laying Coturnix japonica during peak egg production. A total of 504 female quails were distributed across 12 treatments in a 3 × 4 factorial design, combining three Met+Cys levels (100%, 110%, and 120% of NRC recommendations) and four ambient temperatures (20, 24, 28, and 32 °C). Over an 84-day trial, productive performance, egg quality, physiological markers (cloacal temperature, respiratory rate), and tissue morphology (duodenum, jejuno, hepatic, uterine) were evaluated. Heat stress markedly impaired reproductive performance and egg quality, particularly at 32 °C, with no significant interaction between temperature and supplementation level. Principal Component Analysis revealed structural degradation in intestinal, hepatic, and uterine tissues under elevated temperatures, partially alleviated by 120% Met+Cys at 24 °C. However, increased supplementation failed to reverse thermal-induced production losses under severe heat. These findings demonstrate that ambient temperature exerts a stronger influence than methionine and cysteine supplementation on overall quail performance. While nutritional interventions may help preserve tissue architecture under moderate heat stress (up to 28 °C), strategic thermal environment management remains the primary tool to safeguard welfare and productivity. This integrative approach underscores the value of multidimensional analysis in poultry science and supports refined thermal-nutritional management in quail production systems.