Influence of thermal heat load accumulation on daily rumination time of lactating Holstein cows in a zone with temperate climate

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-01 DOI:10.1016/j.jtherbio.2024.103856
Theresa Müschner-Siemens , Andrea Palmini , Julia Heinicke , Gundula Hoffmann , Vitaly Belik , Thomas Amon
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Abstract

In the future, conflicts between animal welfare and climate change will gradually intensify. In the present study, we investigated the daily rumination time (RT) of lactating Holstein-Friesian cows in a zone with temperate climate and the effects of heat load duration and heat load intensity. Responses of individual cows to heat load were assessed, adjusting for milk yield, lactation number, days in milk as well as reproductive status and season. A total of 27,149 data points from 183 cows in a naturally ventilated barn in Brandenburg, Germany, were collected from June 2015 to May 2017. Ambient temperature and relative humidity were recorded at eight positions inside the barn every 5 min, and the temperature-humidity index (THI) was calculated. Based on THI, the degree of heat load was determined, using critical thresholds of THI = 68, 72, and 80. Daily RT was measured with a microphone-based sensor system (collar) on the cow's neck. The analysis models included autocorrelations in time series as well as individual cow-related effects. With each 5 min exposure to contemporaneous heat load, a decrease of approximately 1.17 min d−1 in RT per cow from non-heat stress to heat stress conditions by exceeding THI ≥68 (p < 0.01). This effect was intensified by exceeding the critical THI thresholds of 68 and 72.

As heat load duration and intensity increased, daily RT decreased in comparison to daily RT under non-stress conditions. High-yielding (>38.4 kg milk/day) cows were more influenced in rumination time than low-yielding (≤28.8 kg milk/day) cows. With moderate contemporaneous heat load, RT decreased by 0.14 min d−1 per 5 min in high-yielding cows compared to low-yielding cows under moderate heat load. A decrease of 0.1 min d−1 was found in daily RT of mid-yielding cows. However, the delayed effects of heat load (one to three days after the heat stress event) were associated with days in milk and reproduction status. When the heat load duration lasted for several days, the responses were less pronounced than the impacts of contemporaneous heat load (when the heat stress event lasted for one day). Delayed mild heat load resulted in an increase in RT by 0.13 min d−1 in lactating cows ≤60 DIM. This was also found with delayed moderate heat load. Lactating cows ≤60 DIM showed a rise of 0.09 min d−1 in RT. RT also showed interactions with reproduction status of cows under delayed moderate heat stress. Lactating cows with ≤180 days of pregnancy showed an increase of 0.61 min d−1 in RT. Similarly, cows with >180 days of pregnancy had 0.64 min d−1 more RT compared to non-pregnant cows. Further analysis with higher temporal resolution of RT than data accumulation in 24-h blocks as well as the assessment of the correlation between feed composition, intake and rumination will elucidate the influence of heat load on daily RT.

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热负荷累积对温带气候区泌乳荷斯坦奶牛每日反刍时间的影响
未来,动物福利与气候变化之间的矛盾将逐渐加剧。在本研究中,我们调查了温带气候区泌乳荷斯坦-弗里斯兰奶牛的每日反刍时间(RT)以及热负荷持续时间和热负荷强度的影响。在对产奶量、泌乳数、产奶天数以及繁殖状况和季节进行调整后,对奶牛个体对热负荷的反应进行了评估。从2015年6月到2017年5月,共收集了德国勃兰登堡州一个自然通风牛舍中183头奶牛的27149个数据点。每 5 分钟在牛舍内的 8 个位置记录一次环境温度和相对湿度,并计算出温湿度指数(THI)。根据 THI,使用临界阈值 THI = 68、72 和 80 来确定热负荷程度。每天的 RT 是通过奶牛颈部的麦克风传感器系统(项圈)测量的。分析模型包括时间序列中的自相关以及奶牛个体相关效应。每暴露于同期热负荷5分钟,每头奶牛的RT从非热应激到热应激条件下下降约1.17分钟/d-1,超过THI ≥68(p <0.01)。随着热负荷持续时间和强度的增加,与非应激条件下的日RT相比,日RT下降。高产(38.4 千克牛奶/天)奶牛的反刍时间比低产(≤28.8 千克牛奶/天)奶牛受到的影响更大。在中等热负荷下,高产奶牛的反刍时间比低产奶牛每5分钟减少0.14分钟/d-1。中产奶牛的日RT下降了0.1分钟/d-1。然而,热负荷的延迟效应(热应激事件后一至三天)与奶牛的产奶天数和繁殖状况有关。当热负荷持续数天时,反应不如同期热负荷(热应激事件持续一天)的影响明显。延迟轻度热负荷导致泌乳牛的RT增加0.13分钟/d-1,≤60 DIM。延迟中度热负荷也是如此。泌乳牛≤60 DIM时,RT上升0.09分钟/d-1。在延迟中度热负荷下,RT与奶牛的繁殖状况也有相互作用。妊娠期≤180天的泌乳奶牛的RT增加了0.61 min d-1。同样,与未怀孕的奶牛相比,怀孕180天的奶牛的RT增加了0.64分钟/d-1。进一步分析RT的时间分辨率(而不是24小时的数据累积),以及评估饲料成分、采食量和反刍之间的相关性,将能阐明热负荷对每日RT的影响。
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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