Partitioning of energy intake in broiler breeders from 27 to 63 weeks old

Partitioning of energy intake in broiler breeders from 27 to 63 weeks old

•The net energy requirements for maintenance are constant throughout the age of the birds.•Excess energy intake is preferentially deposited as fat in the body.•Bird body composition is affected by age, so fat content increases as bird aged.•Energy used to egg production was constant. Describing the...

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Bibliographic Details
Published in:Livestock science Vol. 288; p. 105535
Main Authors: Teofilo, Guilherme Ferreira da Silva, Morillo, Freddy Alexander Horna, Kareem, Damilola Uthman, Lizana, Rony Riveros, Bonagurio, Lucas Pimentel, Camargos, Rosiane de Souza, Van Milgen, Jacob, Macari, Marcos, Sakomura, Nilva Kazue
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2024
Elsevier
Subjects:
Body composition
Energy balance
Energy system
Fasting heat production
Indirect calorimetry
Life Sciences
Energy system
Fasting heat production
Energy balance
Indirect calorimetry
Body composition
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Summary:•The net energy requirements for maintenance are constant throughout the age of the birds.•Excess energy intake is preferentially deposited as fat in the body.•Bird body composition is affected by age, so fat content increases as bird aged.•Energy used to egg production was constant. Describing the energy partition during the production phase of broiler breeders helps to define the energy requirements of breeders. This study aimed to determine the energy intake partition for maintenance, tissue growth, and egg production in broiler breeders during the laying phase. An energy and nitrogen balance study was carried out in a respirometry chambers with fifty Cobb 500 broiler breeders from 27 to 63 weeks old. Every four weeks, 5 birds were individually housed in a respirometry chamber and fed according to the guidelines. Feed intake (FI), excreta, and egg output were recorded daily. O2 consumption (VO2) and CO2 production (VCO2) were measured under feeding and fasting conditions to calculate total and fasting heat production (THP and FHP, respectively). The collected data were used to calculate the retained energy (RE) in the egg and body as protein or fat by using energy balance calculations. Linear regressions were used to fit the collected data as a function of age. The measured apparent metabolizable energy corrected for zero-nitrogen retention (AMEn, kJ/kg feed) was higher than formulated. The FI and apparent metabolizable energy intake (AMEi) showed the highest values at 31 and 35 weeks (P > 0.05). Linear regression was not significant (P > 0.05) for FHP, THP, heat increment (HI), egg mass, and RE in the egg as fat and as protein, suggesting that these parameters remained constant as the bird aged. The RE in the body as protein increased (P < 0.005), while the RE in the body as fat decreased (P < 0.0001) as the birds aged. Variation in the AMEi influenced RE in the body (P < 0.05) but not in the egg (P = 0.109). It can be concluded that net energy for maintenance does not change during the laying phase and represents an expenditure of 267.1 kJ/kg0.75 per day in broiler breeders under a feed-controlled program. As expected, energy is primarily used for maintenance and egg production in the net energy system, with excess energy stored preferentially as fat rather than protein.
ISSN:1871-1413
1878-0490
DOI:10.1016/j.livsci.2024.105535