Stocking density within chick transport boxes: effects on leghorn chick stress and box microclimate

IF 1.6 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
S. Jhetam , T. Shynkaruk , K. Buchynski , A.G. Van Kessel , T.G. Crowe , K. Schwean-Lardner
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Abstract

Recommendations for the optimal stocking density (SD) of chicks within transport boxes have not previously been published, with current recommendations lacking scientific support. As a result of concerns from welfare organizations regarding high SD in delivery boxes, a field trial was conducted at a commercial hatchery to understand SD effects on chick stress and box microclimate. Lohmann LSL-Lite chicks (n = 3,630) were placed in plastic transport boxes (58 × 46 cm) for a 7-h simulated transport period (uncontrolled humidity; 27°C). The SD treatments (trt) used were 80, 100, or 120 chicks/box (33.4, 26.7, or 22.2 cm2/chick). Group body weight (BW); vent temperature; concentrations of corticosterone, electrolytes, and glucose; and yolk sac weights were measured pre- and post-trt. Temperature and relative humidity (RH) were recorded every 5 min in the boxes. Thermal images of the boxes were taken every h for box floor and chick surface temperature and to calculate spatial area used per chick. Body weight, vent temperature, yolk sac weights, and corticosterone concentration did not differ between SD trt post-trt. Box temperature and RH increased with increasing SD. Thermal images showed the minimum temperature was lowest, and temperature variability was greatest, in the 80 trt compared to the 100 and 120 trts. The spatial area used per chick differed between trt and chicks occupied less than the total spatial area available in all trt. In conclusion, within the conditions used in this study, altering SD did not affect bird wellbeing, but reducing the density increased temperature variability within the boxes.

雏鸡运输箱内的放养密度:对白羽雏鸡应激和箱内微气候的影响
关于雏鸡在运输箱内的最佳放养密度(SD)的建议尚未公布,目前的建议缺乏科学依据。由于福利组织对运输箱内高密度放养的担忧,我们在一家商业孵化场进行了一项现场试验,以了解高密度放养对雏鸡应激和箱内微气候的影响。将 Lohmann LSL-Lite 雏鸡(n=3630)放入塑料运输箱(58×46 厘米)中进行 7 小时的模拟运输(湿度不可控;27°C)。使用的 SD 处理 (trt) 为 80、100 或 120 只/箱(33.4、26.7 或 22.2 cm2/只)。试验前后测量了各组体重(BW)、排气温度、皮质酮、电解质和葡萄糖浓度以及卵黄囊重量。每 5 分钟记录一次箱内的温度和相对湿度(RH)。每隔一小时拍摄一次箱内热图像,以了解箱底和雏鸡表面温度,并计算每只雏鸡使用的空间面积。体重、排气孔温度、卵黄囊重量和皮质酮浓度在 SD trt 后-trt 之间没有差异。箱内温度和相对湿度随着标度的增加而增加。热图像显示,与 100 三周龄和 120 三周龄相比,80 三周龄的最低温度最低,温度变化最大。每只雏鸟使用的空间面积在不同三联箱中有所不同,雏鸟占用的空间面积小于所有三联箱的总空间面积。总之,在本研究使用的条件下,改变SD不会影响鸟类的健康,但降低密度会增加箱内的温度变化。
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
Journal of Applied Poultry Research
Journal of Applied Poultry Research 农林科学-奶制品与动物科学
CiteScore
4.10
自引率
10.50%
发文量
80
审稿时长
104 days
期刊介绍: The Journal of Applied Poultry Research (JAPR) publishes original research reports, field reports, and reviews on breeding, hatching, health and disease, layer management, meat bird processing and products, meat bird management, microbiology, food safety, nutrition, environment, sanitation, welfare, and economics. As of January 2020, JAPR will become an Open Access journal with no subscription charges, meaning authors who publish here can make their research immediately, permanently, and freely accessible worldwide while retaining copyright to their work. Papers submitted for publication after October 1, 2019 will be published as Open Access papers. The readers of JAPR are in education, extension, industry, and government, including research, teaching, administration, veterinary medicine, management, production, quality assurance, product development, and technical services. Nutritionists, breeder flock supervisors, production managers, microbiologists, laboratory personnel, food safety and sanitation managers, poultry processing managers, feed manufacturers, and egg producers use JAPR to keep up with current applied poultry research.
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