Broiler chick response to low protein diets supplemented with synthetic amino acids

Performance of broiler chicks fed low protein diets supplemented with several essential amino acids (EAA) is generally inferior to that of birds fed a higher protein diet composed primarily of intact protein. Two experiments were conducted to determine whether lowering the minimum requirements of th...

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Bibliographic Details
Published in:Poultry science 1990-11, Vol.69 (11), p.1950-1955
Main Authors: Pinchasov, Y. (The Hebrew University of Jerusalem, Rehovot, Israel), Mendonca, C.X, Jensen, L.S
Format: Article
Language:English
Subjects:
ACIDE AMINE ESSENTIEL
ACIDE GLUTAMIQUE
ACIDO GLUTAMICO
Amino Acids, Essential - administration & dosage
Amino Acids, Essential - metabolism
AMINO COMPOUNDS
AMINOACIDOS ESENCIALES
Animals
BROILER CHICKENS
Chickens - growth & development
CHICKS
COMPOSE AMINE
COMPUESTOS DE AMINA
CRECIMIENTO
CROISSANCE
CRUDE PROTEIN
DESEMPENO
Dietary Proteins - administration & dosage
Dietary Proteins - metabolism
Eating
EFFICACITE ALIMENTAIRE
EFICIENCIA DE CONVERSION DEL PIENSO
ESSENTIAL AMINO ACIDS
FEED CONVERSION EFFICIENCY
GAIN DE POIDS
GANANCIA DE PESO
GLUTAMIC ACID
GROWTH
Male
POLLITO
POLLO DE ENGORDE
POULET DE CHAIR
POUSSIN
PROTEINA BRUTA
PROTEINE BRUTE
Random Allocation
WEIGHT GAIN
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Summary:Performance of broiler chicks fed low protein diets supplemented with several essential amino acids (EAA) is generally inferior to that of birds fed a higher protein diet composed primarily of intact protein. Two experiments were conducted to determine whether lowering the minimum requirements of the EAA in proportion to the lowered protein concentration or equalizing the dietary amino nitrogen content by use of glutamic acid would prevent the reduction in performance. Chicks were fed the experimental diets from 7 to 21 days of age, and body weight gain, feed consumption, and feed efficiency were determined. In the first experiment, the chicks were fed diets with 23, 20, or 17% CP with minimum EAA set at 100% of the 1984 National Research Council (NRC) suggested requirements. Other groups were fed the 20% CP diet with EAA set at 93.5% or the 17% CP diet set at either 93.5 or 87.5% of the NRC requirements. In the second experiment, the 23% and 17% CP diets were fed, and glutamic acid was added at 3, 6, or 9% to provide the amino nitrogen equivalent of 23% protein with the minimum EAA set at 100% of 1984 NRC requirements. In the first experiment, body weight gain and feed efficiency, but not feed intake, were depressed by lowering CP content. Reducing the minimum EAA requirements in proportion to the reduction in CP failed to correct the difference in performance between the high and low CP diets. In Experiment 2, body weight gain and feed intake were reduced as intact CP decreased and glutamic acid increased, but feed efficiency was unaffected.
ISSN:0032-5791
DOI:10.3382/ps.0691950