Use of electrolyte and betaine water supplementation to support improved liveweight gain of commercial Pekin ducks exposed to adverse high temperature in the week prior to processing

IF 1.4 4区农林科学 Q2 Agricultural and Biological Sciences Animal Production Science Pub Date : 2024-01-09 DOI:10.1071/an23186

J. A. Downing

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Abstract

Context

Commercial Pekin Ducks housed in conventional open-sided sheds often experience heat stress in summer. Electrolyte or osmolyte supplements can help birds cope under heat stress.

Aims

To assess the effects of water electrolyte/betaine supplementation or betaine in feed on the growth performance of Pekin ducks exposed to high ambient temperature.

Methods

Commercial Cherry Valley Pekin ducks were fed diets with a dietary electrolyte balance (DEB) of 160 (L-DEB) or 209 (H-DEB) over Days 15–41 (D15–41) of age. Over D36–41, ducks were provided with water alone or supplemented with betaine in the feed (BF), or betaine and an ‘in-house’ electrolyte (E) formulation at 50%, 100% or 150% (D36–41) or at 100% for only 36 h on D40–41. There were 12 treatments with four replicate pens for each treatment. On D36–41 of age, temperature was increased to 28–32°C for 9 h (from 08:30 hours to 17:30 hours) and then returned to 22–24°C for the remainder of the day. Individual liveweights were taken on D28, D35, D41. During these times, feed intake and water consumption were determined. On D41, one male and one female from each pen were weighed, euthanised and breast muscle was removed and weighed. Birds were collected for commercial processing at 04:00 hours on D42.

Key results

Over D15–35, the DEB had no effect on bird performance. Over D36–41, for liveweight gain (LWG) there were significant interactions between treatment × week (P < 0.001) and treatment × diet (P = 0.017). Supplements E150 and E100 + 36 h supported LWG more than did other treatments, while treatments BF, E50 and E100 supported higher LWG than in controls. On the L-DEB diet, the control birds had a LWG lower than in other treatments (P < 0.05). On the H-DEB diet, the E50 supplement had highest LWG, but comparable to that in E100 + 36 h. The supplements had no effects on breast muscle yield, weight losses during transport and lairage or processed carcass weights.

Conclusions

The electrolyte supplements supported higher LWG during exposure to moderately adverse high temperature. Supply for 36 h supported LWG equivalent or better than did other treatments given over 6 days. The benefits could be related to increased water intake and not just electrolyte supply.

Implications

Water electrolyte plus betaine supplementation supports improved Pekin duck performance during a moderately high temperature challenge.

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使用电解质和甜菜碱水补充剂来帮助在加工前一周暴露于不利高温环境中的商品北京鸭提高活重增重

背景在传统的开放式禽舍中饲养的商用北京鸭在夏季经常会出现热应激。补充电解质或渗透压可以帮助鸭子应对热应激。目的评估水电解质/甜菜碱补充剂或饲料中甜菜碱对暴露在高环境温度下的北京鸭生长性能的影响。方法给商业樱桃谷北京鸭饲喂日粮电解质平衡（DEB）为 160（L-DEB）或 209（H-DEB）的日粮，饲喂 15-41 日龄（D15-41）。在 D36-41 日龄期间，鸭子单独饮水或在饲料中添加甜菜碱（BF），或添加甜菜碱和 "内部 "电解质（E）配方，添加量为 50%、100% 或 150%（D36-41），或在 D40-41 日龄仅添加 100%，持续 36 小时。共有 12 种处理，每种处理有 4 个重复。D36-41日龄时，温度升至28-32°C，持续9小时（从8:30到17:30），然后在一天的剩余时间内恢复到22-24°C。在 D28、D35 和 D41 日测定个体活重。在此期间，测定了采食量和饮水量。在 D41 日，对每栏中的一雄一雌进行称重、安乐死、切除胸肌并称重。D42 日 04:00 时，收集鸟类进行商业加工。主要结果在D15-35期间，DEB对家禽的表现没有影响。在D36-41期间，处理×周（P <0.001）和处理×日粮（P = 0.017）对活体增重（LWG）有显著的交互作用。补充剂 E150 和 E100 + 36 h 比其他处理对活重增重的影响更大，而处理 BF、E50 和 E100 比对照组对活重增重的影响更大。在 L-DEB 日粮中，对照组家禽的 LWG 低于其他处理（P < 0.05）。在 H-DEB 日粮中，E50 补充剂的 LWG 最高，但与 E100 + 36 h 的 LWG 相当。补充剂对胸肌产量、运输和屠宰过程中的重量损失或加工后的胴体重量没有影响。结论电解质补充剂有助于提高暴露于中度不利高温条件下的LWG。连续供应 36 小时的电解质补充剂所支持的 LWG 相当于或优于连续供应 6 天的其他处理方法所支持的 LWG。这种益处可能与水摄入量的增加有关，而不仅仅是电解质的供应。意义补充水电解质和甜菜碱有助于提高北京鸭在中度高温挑战中的表现。

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来源期刊

Animal Production Science Agricultural and Biological Sciences-Food Science

CiteScore

3.00

自引率

7.10%

发文量

139

审稿时长

3-8 weeks

期刊介绍： Research papers in Animal Production Science focus on improving livestock and food production, and on the social and economic issues that influence primary producers. The journal (formerly known as Australian Journal of Experimental Agriculture) is predominantly concerned with domesticated animals (beef cattle, dairy cows, sheep, pigs, goats and poultry); however, contributions on horses and wild animals may be published where relevant. Animal Production Science is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.