Behavioural patterns of lambs detected with tri-axial ear-mounted accelerometers while grazing endophyte-infected perennial ryegrass

Bowen Fan, Racheal Bryant, Andrew Greer
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Abstract

The infection of the endophytic fungus (Epichloë festucae var. lolii) within perennial ryegrass (Lolium perenne) pastures can produce toxic alkaloids, including lolitrem B and ergovaline which can negatively impact animal welfare and behaviour through causing ryegrass staggers as well as poor growth and increased sensitivity to heat stress. Wearable 3-axis acceleration sensors can provide an alternative to automatically monitor individual grazing livestock who need essential treatment to minimise the impact of grazing pastures infected with an endophyte. The objective of this study was to categorise changes in ruminating, eating and other behavioural activities of grazing lambs exposed to endophyte-infected perennial ryegrass via commercial accelerometer sensors. Lambs were fitted with the ear-mounted accelerometer sensors (CowManager SensOors, Agis, Harmelen, the Netherlands) and allocated randomly within live-weight strata to graze either endophyte-free (Control) or wild−type endophyte-infected (Endophyte) perennial ryegrass pasture. Live weight change, behaviour and incidence of staggers were monitored over a 2-month grazing period. Moderately severe staggers (score 4/5) occurred in 40% of lambs in the Endophyte treatment with a mean staggers score of 2.33 ± 0.41 across the group. Compared with control lambs, endophyte-infected lambs compensated for reduced eating (−36.0 min/day) and inactive (−43.7 min/day) duration in favour of increased ruminating (+40.2 min/day) and active (+29.9 min/day) duration. The sensors also identified diurnal adaptations in behaviour of lambs which were affected by endophyte staggers, presenting significant effects of endophyte challenge by hour interaction on the diurnal eating duration (P < 0.001), diurnal ruminating duration (P < 0.001), diurnal inactive duration (P < 0.001), diurnal active duration (P < 0.001) and diurnal highly active duration (P < 0.001). In conclusion, these sensors were able to detect subtle changes in the behaviour of grazing sheep that can be used to detect subclinical symptoms of ryegrass staggers when consuming ryegrass staggers.

用三轴耳装加速度计检测羔羊在放牧受内生菌感染的多年生黑麦草时的行为模式
内生真菌(Epichloë festucae var. lolii)在多年生黑麦草(Lolium perenne)牧场中的感染会产生有毒生物碱,包括 lolitrem B 和 ergovaline,它们会导致黑麦草匍匐、生长不良和对热应激的敏感性增加,从而对动物福利和行为产生负面影响。可穿戴式三轴加速度传感器可以提供一种替代方法,自动监测需要进行必要治疗的个体放牧牲畜,以最大限度地减少放牧受内生菌感染的牧场所造成的影响。本研究的目的是通过商用加速度传感器对暴露在受内生菌感染的多年生黑麦草中的放牧羔羊的反刍、进食和其他行为活动的变化进行分类。羔羊被安装上耳装加速度传感器(CowManager SensOors,Agis,Harmelen,荷兰),并在活重分层中随机分配放牧无内生菌(对照组)或受野生型内生菌感染(内生菌)的多年生黑麦草牧草。在为期 2 个月的放牧期间,对活重变化、行为和踉跄症发生率进行监测。在内生菌处理中,40%的羔羊出现了中度严重的踉跄(4/5分),整个组的平均踉跄分值为 2.33 ± 0.41。与对照组羔羊相比,内生菌感染羔羊的采食(-36.0 分钟/天)和非活动(-43.7 分钟/天)时间减少,反刍(+40.2 分钟/天)和活动(+29.9 分钟/天)时间增加。传感器还能识别受内生菌滞育影响的羔羊昼夜行为适应性,内生菌挑战与小时的交互作用对昼间进食持续时间(P <0.001)、昼间反刍持续时间(P <0.001)、昼间不活动持续时间(P <0.001)、昼间活动持续时间(P <0.001)和昼间高度活动持续时间(P <0.001)有显著影响。总之,这些传感器能够检测放牧绵羊行为的细微变化,可用于检测食用黑麦草猝倒病的亚临床症状。
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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