RESUMEN

The objective of the present study was to estimate and compare allometric coefficients of the major chemical components of meat quail raised in different thermal environments, based on protein weight of feather free body (FFB) and feathers. In total, 300 meat quail, males and females, were distributed in a completely randomized design with 2 treatments (climatized environment, 26°C, and non-climatized environment, 29°C) and 6 replicates of 25 birds each. On the first day, 36 birds were selected to form the reference group and from this day on, 2 quail were weekly sampled from each cage. All selected birds were fasted for 24 h, weighed, slaughtered, plucked, and reweighed. The FFB and feathers were ground separately to obtain homogeneous samples, which were freeze-dried to determine the water content, and thereafter, ground again in a micromill before analyzing for protein, lipid, and ash using AOAC procedures. The adjustment of the allometric equations was made using crude protein (CP) weight as the independent variable and water, lipid, and ash weight as the dependent variables. The data of each dependent variable were transformed into natural logarithm (ln), regressed according to lnCP, and subjected to a parallelism test. In the FFB, water showed early development and lipid and ash showed late development in relation to the CP weight. In feathers, water and ash weight showed early development in relation to the feathers protein weight, whereas lipids showed late development. The environments of 26°C and 29°C did not affect the allometric coefficients that described the growth between the chemical components in the body and in the feathers, except for lipids in male FFB, that showed higher allometric coefficient at 29°C than 26°C. Describing the allometric relationships between the major chemical components of meat quail body is an important step in supporting future research comprised modeling of body growth and nutrition for meat quail.

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RESUMEN

Objetivou-se comparar os coeficientes alométricos (b) que descrevem o crescimento das partes e dos órgãos de codornas de corte mantidas em diferentes ambientes térmicos. Foram utilizadas 300 codornas distribuídas em delineamento inteiramente ao acaso, com dois tratamentos (ambiente climatizado, AC) com temperatura de 26ºC e ambiente sem climatização (ASC, 32oC) e seis repetições de 25 aves. Ajustaram-se equações alométricas em função do peso em jejum (PJ) para as variáveis: peso do peito (PPEI), coxa (PCX), sobrecoxa (PSCX), asa (PASA), coração (PCOR), fígado (PFÍG), moela (PMOE) e intestino (PINT). Para comparar os "b" das partes e dos órgãos das aves mantidas nos diferentes ambientes, realizaram-se testes de paralelismo. Não houve diferença entre os "b" em nenhuma das partes e dos órgãos das codornas mantidos no ambiente AC ou no ASC. Observou-se que os PPEI e os PSCX apresentaram crescimento heterogônico positivo (b>1), os PCX crescimento isogônico (b=1), os PASA e os órgãos crescimento heterogônico negativo (b<1) em relação ao PJ. Os "b" que descrevem o crescimento das partes e dos órgãos de codornas de corte mantidas nos diferentes ambientes não são influenciados. O peso do peito e o da sobrecoxa apresentaram crescimento tardio, a asa e os órgãos (coração, fígado, moela e intestino) crescimento precoce, e o peso da coxa apresentou crescimento proporcional em relação ao peso em jejum.(AU)

This study was carried out to compare the allometric coefficients (b) that describe the cuts and organs' growth of quails kept in different thermal environments. Three hundred meat quails were distributed in a completely randomized design with two treatments (climatized environment (CE) with 26°C of ambient temperature and environment without climatization (EWC, 32°C)) and six replicates of 25 birds. Allometric equations based on weekly fasting weight (WF) for the breast weight (BW), thigh (TW), drumstick (DW), wing (WW), heart (HW), liver (LW) gizzard (GW) and intestine (IW) were performed. To compare the "b" of the cuts and organs parallelism tests were carried out. There was no difference between the "b" in any cuts and organs of quails kept in CE or EWC environments. We observed that the BW and DW showed positive heterogonic growth (b>1), TW isogonic growth (b=1), and WW and organs negative heterogonic growth (b<1) in relation PJ. The "b" that describes the growth of cuts and organs of quails kept in CE or EWC environments are not affected. The breast and drumstick presented late growth, the wing and the organs early growth, and the thigh showed a proportional increase with the fasting weight.(AU)

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