首页|期刊导航|Journal of Animal Science and Biotechnology|Testing low dietary crude protein and high fat levels as a strategy to mitigate heat stress in broilers

Testing low dietary crude protein and high fat levels as a strategy to mitigate heat stress in broilersOA

中文摘要

Background Fast-growing broilers are poorly adapted to heat.Adjusting feed composition may mitigate heat stress(HS)effects in temperate climates,while maintaining performance and health during cooler days.Methods One thousand nine hundred and twenty Ross 308 male broilers were housed in 64 pens in 4 climate-controlled rooms,2 under cyclical HS(d 28–43;32±2℃;60%–70%RH;09:30–15:30)and 2 under thermoneutral(TN)conditions.In the finisher phase,broilers were allocated to 4 dietary treatments,analyzed values are given except for metabolizable energy(ME):low crude protein(CP)and control fat(LowCP-ConF;17.0%CP,5.9%crude fat(CF),2,925 kcal/kg ME),low CP and high fat(LowCP-HighF;17.2%CP,7.9%CF,3,019 kcal/kg ME),control CP and high fat(ConCP-HighF;18.1%CP,8.0%CF,2,992 kcal/kg ME)and a basal control(ConCP-ConF;18.7%CP,6.3%CF,2,913 kcal/kg ME).LowCP diets contained control levels of digestible amino acids.Results During the finisher phase,compared to control CP levels,LowCP increased average daily feed intake(ADFI)(+2.15%;P=0.020)and affected average daily gain(ADG)and feed conversion ratio(FCR)negatively under TN(-3.77%and+6.49%;P=0.003 and P<0.001,respectively),but not during HS.Compared to control CF,HighF decreased ADFI during TN and HS(-3.16%and-3.17%;P<0.001 and P=0.022)and reduced ADG in TN groups(-3.17%;P=0.010),but not during HS.Mortality was higher in broilers receiving HighF during HS(P=0.040).Slaughter weights were unaffected.LowCP decreased plasma uric acid and lactate dehydrogenase levels during TN,but increased plasma glucose during HS.LowCP increased breast meat redness(a*)during TN and HS(P<0.05).HighF decreased fat(-1.68%;P=0.017),but increased protein levels(+1.53%;P<0.001)in breast meat of HS-broilers.Conclusion LowCP and HighF impaired performance under TN but not under HS.HighF increased mortality under HS,yet improved breast meat composition.These findings highlight the challenge of designing an optimal diet for both conditions and underscore the need to better understand amino acid needs and energy-to-protein ratios during HS.

Renée De Baets;Sofie Van Nerom;Kobe Buyse;Gunther Antonissen;Jeroen Degroote;Evelyne Delezie

Animal Science Unit,Flanders Research Institute for Agriculture,Fisheries and Food,Merelbeke‑Melle 9090,Belgium Department of Pathobiology,Pharmacology and Zoological Medicine,Faculty of Veterinary Medicine,Ghent University,Merelbeke‑Melle 9820,BelgiumAnimal Science Unit,Flanders Research Institute for Agriculture,Fisheries and Food,Merelbeke‑Melle 9090,Belgium Department of Pathobiology,Pharmacology and Zoological Medicine,Faculty of Veterinary Medicine,Ghent University,Merelbeke‑Melle 9820,BelgiumAnimal Science Unit,Flanders Research Institute for Agriculture,Fisheries and Food,Merelbeke‑Melle 9090,Belgium Department of Veterinary and Biosciences,Faculty of Veterinary Medicine,Ghent University,Merelbeke‑Melle 9820,BelgiumDepartment of Pathobiology,Pharmacology and Zoological Medicine,Faculty of Veterinary Medicine,Ghent University,Merelbeke‑Melle 9820,BelgiumLaboratory for Animal Nutrition and Animal Product Quality,Department of Animal Sciences and Aquatic Ecology,Faculty of Bioscience Engineering,Ghent University,Ghent 9000,BelgiumAnimal Science Unit,Flanders Research Institute for Agriculture,Fisheries and Food,Merelbeke‑Melle 9090,Belgium

农业科技

BroilerCrude fatCrude proteinEnergyHeat stress

《Journal of Animal Science and Biotechnology》 2026 (1)

P.566-582,17

funded by VLAIO(Flemish Innovation&Entrepreneurship),grant number HBC.2020.3165。

10.1186/s40104-025-01297-4

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