Embryonic thermal manipulation and post-hatch dietary guanidinoacetic acid supplementation alleviated chronic heat stress impact on broiler chickens

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Gholamreza Zaboli , Enayat Rahmatnejad
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引用次数: 0

Abstract

The study investigated the effects of embryonic thermal manipulation (TM) and post-hatch guanidinoacetic acid (GAA) supplementation on male broiler chickens exposed to chronic heat stress (HS). Ross 308 eggs (n = 710) were randomly assigned to control (37.8 °C, 56% RH) or TM (39.5 °C, 65% RH for 12 h/day from embryonic day 7–16) treatments. After hatching, chicks were further assigned to four dietary treatments (n = 12 birds/pen, 5 replicates/treatment): control, control with 1.2 g/kg GAA supplementation (CS), TM, and TM with 1.2 g/kg GAA supplementation (TMS). All birds were subjected to chronic HS (32–36 °C and 55% RH for 6 h/day) from day 28–42. Embryonic TM treatment decreased hatchability, hatching weight (HW), and facial temperature (FT). During the pre-HS period (days 1–28), no significant differences in feed conversion ratio (FCR) and mortality were observed, although the TM group exhibited the lowest body weight gain (BWG). Following HS exposure (days 29–42), the TMS group displayed significantly higher BWG than the control and CS groups. The TM and TMS groups also demonstrated significantly lower FCR and mortality rates during this period. Across the entire period (days 1–42), BWG was significantly higher in the TMS group compared to other groups. Furthermore, TM and TMS treatments were associated with lower mortality rates, improved FCR, better European Performance Efficiency Index (EPEI), and reduced abdominal fat deposition. The experimental treatments did not significantly affect intestinal morphology or most blood parameters, except triiodothyronine (T3), thyroxine (T4), and uric acid. Plasma concentrations of T3, T4, and uric acid were significantly lower in the TM and TMS groups compared to the control and CS treatments. The findings suggest that a combined strategy of embryonic TM and post-hatch dietary GAA supplementation may not only alleviate the detrimental effects of HS but also promote beneficial physiological responses in broiler chickens.

胚胎热控制和孵化后日粮中的鸟苷酸补充可减轻慢性热应激对肉鸡的影响
该研究调查了胚胎热处理(TM)和孵化后补充鸟苷酸(GAA)对暴露于慢性热应激(HS)的雄性肉鸡的影响。Ross 308鸡蛋(n = 710)被随机分配到对照组(37.8 °C,56%相对湿度)或TM组(39.5 °C,65%相对湿度,从胚胎第7-16天,每天12小时)。孵化后,雏鸡被分配到四种饮食处理(n = 12 只/笔,5 个重复/处理):对照组、对照组加 1.2 克/千克 GAA 补充剂(CS)、TM 组和 TM 组加 1.2 克/千克 GAA 补充剂(TMS)。从第 28-42 天开始,所有鸟类均接受慢性 HS(32-36 °C,55% 相对湿度,每天 6 小时)。胚胎 TM 处理降低了孵化率、孵化体重(HW)和面部温度(FT)。在 HS 暴露前(第 1-28 天),虽然 TM 组的体重增加(BWG)最低,但饲料转化率(FCR)和死亡率没有明显差异。暴露于 HS 后(第 29-42 天),TMS 组的体重增长显著高于对照组和 CS 组。在此期间,TM 组和 TMS 组的 FCR 和死亡率也明显较低。在整个期间(第 1-42 天),TMS 组的体重总和明显高于其他组。此外,TM 和 TMS 治疗与死亡率降低、FCR 提高、欧洲性能效率指数(EPEI)提高和腹部脂肪沉积减少有关。除了三碘甲状腺原氨酸(T3)、甲状腺素(T4)和尿酸外,实验处理对肠道形态和大多数血液参数没有明显影响。与对照组和 CS 组相比,TM 组和 TMS 组血浆中的 T3、T4 和尿酸浓度明显较低。研究结果表明,胚胎 TM 和孵化后日粮 GAA 补充相结合的策略不仅能减轻 HS 的有害影响,还能促进肉鸡的有益生理反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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