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RESEARCH ARTICLE

Crude protein requirements of free-range laying hens

Mônica Maria de Almeida Brainer A , Carlos Bôa-Viagem Rabello B , Marcos José Batista dos Santos B E , Jorge Vitor Ludke C , Claudia da Costa Lopes B , Waleska Rocha Leite de Medeiros B and Fernando Guilherme Perazzo Costa D
+ Author Affiliations
- Author Affiliations

A Federal Institute Goiano, Ceres/GO, Brazil.

B Department of Animal Science, Federal Rural University of Pernambuco, Recife/PE, Brazil.

C Embrapa Swine and Poultry, Concordia/SC, Brazil.

D Center for Agricultural Sciences, Federal University of Paraíba, Areia/PB, Brazil.

E Corresponding author. Email: marcoszootecnista@gmail.com

Animal Production Science 56(10) 1622-1628 https://doi.org/10.1071/AN14890
Submitted: 19 October 2014  Accepted: 24 February 2015   Published: 21 May 2015

Abstract

The goal of this study was to estimate the crude protein (CP) requirement for the maintenance, weight gain and egg production of free-range hens, and produce a predictive protein requirement equation. A linear regression equation of the nitrogen that was retained in the body relative to the production of eggs as a function of different nitrogen intake levels (ad libitum, 80%, 60% and 40% of the original ad libitum intake) provided the nitrogen requirement for maintenance. This relationship was determined at the x-axis intercept, and the efficiency of dietary nitrogen utilisation was expressed by the regression coefficient. The CP requirement for weight gain was estimated as a function of the nitrogen content in the carcass, and the dietary nitrogen utilisation efficiency was found after each week’s slaughter. The CP requirement for egg production was determined by comparing egg protein concentrations with the efficiency of egg protein deposition. The requirements and efficiency of maintenance protein utilisation were 4.7 g CP/kg0.75.day and 56%, respectively. Because there were no changes in the live bodyweights and nitrogen contents of bird carcasses, the CP requirement and efficiency value for weight gain were not estimated. The protein requirement and utilisation efficiency for egg production were 0.18 g CP/g egg mass (EM) produced and 62%, respectively. From the requirements that were estimated in the present study, the following equation can be used to predict the protein requirements of free-range hens during the laying phase: CP = 4.7 × W0.75 + 0.18 × EM (g/bird.day).

Additional keywords: egg production, factorial method, maintenance.


References

Ahn DU, Kim SM, Shu H (1997) Effect of egg size and strain and age of hens on the solids content of chicken eggs. Poultry Science 76, 914–919.
Effect of egg size and strain and age of hens on the solids content of chicken eggs.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK2szisFGktw%3D%3D&md5=6da4992d58ca5985f131bc50e63a2761CAS | 9181628PubMed |

Albino LFT, Fialho FB, Bellaver C, Hara C, Paiva GJ (1994) Energy and protein requirements of replacement pullets. Pesquisa Agropecuaria Brasileira 29, 1625–1629.

Basaglia R, Sakomura NK, Resende KT, Filardi RS, Junqueira OM (1998) Protein requirement for pullets 1–18 weeks of age. Brazilian Journal of Animal Science 27, 556–563.

Bassi LM, Saatkamp PSR, Ávila VS (2006) ‘Poedeira Embrapa 051.’ 1st edn. (Embrapa Suínos e Aves: Concordia, Brazil)

Castellini C, Mugnai C, Dal Bosco A (2002) Effect of organic production system on broiler carcass and meat quality. Meat Science 60, 219–225.
Effect of organic production system on broiler carcass and meat quality.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3MbnsFOhsg%3D%3D&md5=b8425c057fcc07cca83a64d4daf253e5CAS | 22063392PubMed |

Chwalibog A (1992) Factorial estimation of energy requirement for egg production. Poultry Science 71, 509–515.
Factorial estimation of energy requirement for egg production.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK383itVOksw%3D%3D&md5=fa66283227c42d738086ed9a16bfe3a1CAS | 1561217PubMed |

Eits RM, Kwakkel RP, Reindsen BGE, Zandstra T, Maatman AA (2005) Effect of housing system on balanced protein requirements in laying hens. In ‘15th European symposium poultry nutrition’. pp. 133–135. (World Poultry Science Association: Balatonfüred, Hungary)

Filardi RS, Sakomura NK, Basaglia R, Resende KT, Sanches A (2000) Prediction equations for crude protein requirements for broiler breeder pullets. Brazilian Journal of Animal Science 29, 2308–2315.

Fisher C, Morris TR, Jennings RC (1973) A model for the description and prediction of the response of laying hens to amino acid intake. British Poultry Science 14, 469–484.
A model for the description and prediction of the response of laying hens to amino acid intake.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE2cXisVyh&md5=28f6f8ec99bd4171cc89cb704a8b7956CAS | 4748869PubMed |

Hellmeister Filho P, Menten JFM, Silva MAN, Coelho AAD, Savino VJM (2003) Effect of genotype and rearing system on performance of alternative lines of broiler chickens. Brazilian Journal of Animal Science 32, 1883–1889.

Hurwitz S, Bornstein S (1973) The protein and amino acid requirements of laying hens: suggested models for calculation. Poultry Science 52, 1124–1134.
The protein and amino acid requirements of laying hens: suggested models for calculation.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE3sXkslOgsrw%3D&md5=b69181ab5d222e489c18b62f7903f134CAS | 4754026PubMed |

Kingori AM, Tuitoek JK, Muiruri HK, Wachira AM, Birech EK (2007) Protein intake of growing indigenous chickens on free-range and their response to supplementation. International Journal of Poultry Science 6, 617–621.
Protein intake of growing indigenous chickens on free-range and their response to supplementation.Crossref | GoogleScholarGoogle Scholar |

MAPA (1999) Official Letter/DIPOA no. 60, 4 December 1999. (Department of Agriculture, Livestock and Supply: Brasília, Brazil).

Morris TR (2004) Nutrition of chicks and layers. World’s Poultry Science Journal 60, 5–18.
Nutrition of chicks and layers.Crossref | GoogleScholarGoogle Scholar |

Neme R, Sakomura NK, Fukayama EH, Freitas ER, Fialho FB, Resende KT, Fernandes JBK (2006) Growth curves and deposition of body components in pullets of different strains. Brazilian Journal of Animal Science 35, 1091–1100.

Pesti GM, Thomson E, Farrell DJ (1990) Energy exchange of two breeds of hens in respiration chambers. Poultry Science 69, 98–104.
Energy exchange of two breeds of hens in respiration chambers.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK3c3gslSgsA%3D%3D&md5=c94fc28d4b7a57214a83bfc6f6d38d30CAS | 2320536PubMed |

Rabello CBV, Sakomura NK, Longo FA, Resende KT, Couto HP (2002a) Prediction equation of crude protein requirements for broiler breeders hens. Brazilian Journal of Animal Science 31, 1204–1213.

Rabello CBV, Sakomura NK, Ezequiel JMB, Braga APB (2002b) Estimates of metabolizable energy and crude protein requirements for broilers breeder hens, using prediction equations. Revista científica de produção animal 4, 22–36.

Rabello CBV, Sakomura NK, Longo FA, Resende KT (2004) Effect of the environmental temperature and rearing systems on metabolizable energy requirements for maintenance of broiler breeders hens. Brazilian Journal Animal Science 33, 382–390.

Sakomura NK, Basaglia R, Resende KT (2002) Modelling protein utilization in laying hens. Brazilian Journal of Animal Science 31, 2247–2254.

Santomá G (1991) Necessidades proteicas de las galinhas ponedoras. In ‘Nutrición y alimentación de gallinas ponedoras. Vol. 1’. (Eds C De Blas, GG Mateos) pp. 263–270. (Mundi-Prensa Libros S.A.: Madrid, Spain)

Santos MJB, Pandorfi H, Almeida GLP, Morril WB, Pedrosa EMR, Guiselini C (2010) Bioclimatic behavior of free-range rustic broilers in enriched paddocks. Revista Brasileira de Engenharia Agrícola e Ambiental 14, 554–560.
Bioclimatic behavior of free-range rustic broilers in enriched paddocks.Crossref | GoogleScholarGoogle Scholar |

Santos MJB, Pandorfi H, Rabello CBV, Silva EP, Torres TR, Santos PA, Morril WB, Duarte NM (2014) Performance of free-range chickens reared in production modules enriched with shade net and perches. Brazilian Journal of Poultry Science 16, 19–27.
Performance of free-range chickens reared in production modules enriched with shade net and perches.Crossref | GoogleScholarGoogle Scholar |

SAS Institute (2005) ‘SAS system for windows. Version 9.1.3.’ (SAS Institute Inc.: Cary, NC)

Scott ML, Nesheim MC, Young RJ (1982) ‘Scott’s nutrition of the chicken.’ 3rd edn. (University Books: Ithaca, NY)

Sibbald IR, Fortin A (1982) Preparation of dry homogenates from whole and eviscerated chickens. Poultry Science 61, 589–590.
Preparation of dry homogenates from whole and eviscerated chickens.Crossref | GoogleScholarGoogle Scholar |

Song CL, Ma QG, Guo H, Zhang JY, Ji C (2010) Comparative study of nitrogen metabolism and the nitrogen maintenance requirement in Lohmann brown roosters and layers. Journal of Animal Science and Biotechnology 1, 49–53.

Van Horne PL (1996) Production and economic results of commercial flocks with white layers in aviary systems and battery cages. British Poultry Science 37, 255–261.
Production and economic results of commercial flocks with white layers in aviary systems and battery cages.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK28zmvFyqtA%3D%3D&md5=158eba67b7d83f0659e5c17739bc19aeCAS | 8773835PubMed |