Asiel Villares scite author profile

Asiel Villares

2Publications

2Citation Statements Received

28Citation Statements Given

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University of Ciego de Ávila

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Euclidean distance: integrated criteria to study sheep behaviour under heat stress

et al. 2021

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DOI: 10.15835/nsb13110859 Livestock farming with sheep represents an important income stream. With climate change, domestic sheep are being exposed to heat stress which can have adverse effects on growth. Here, data regarding sheep behaviour in response to high temperature stress was analysed using the Euclidean distance method to integrate all variables into a single representative outcome that could summarize sheep behaviour. We studied the effects of two shepherding conditions either with or without the provision of shade. The number of animals eating grass, ruminating and resting either in the shade or directly in the sun were recorded over one year at two-week intervals. As the ideal behaviour (expert’s criteria), the following conditions were considered: maximum numbers of animals eating grass, ruminating and resting under shaded conditions were desirable; while the numbers of animals ruminating or resting under direct sunlight should be at a minimum. The statistical evaluation undertaken integrated these variables to identify the most significant effects of heat stress. Sheep spent most of the daylight hours engaged in eating and this activity was more intensive where shaded conditions were available. The Euclidean distance calculated for the group of animals maintained under shaded conditions was statistically lower (indicating better behaviour). Based on this, it is possible to accurately rank the treatments in terms of severity. The analysis indicates that the use of the Euclidean distance could be used to summarize a simplified outcome for observational data collected in behavioural studies in response to differing climatic conditions.

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Hierarchical cluster analysis: A statistical tool to study sheep behavior under heat stress

Serrano¹,

Villares²,

Manuel-Malamba³

et al. 2021

World J. Adv. Pharm. Life Sci.

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Sheep farming, and the income generated from this endeavor, contributes significantly to the global economy and rural livelihoods. Therefore, it is vital to maintain the productivity of this industry in the face of changing climate patterns. In the context of sheep farming, animals are exposed to a higher heat load as global temperatures are increasing, leading to heat stress. This heat stress conditions can adversely affect animal productivity and welfare resulting in reduced feed intake, physiological (panting, higher respiration, higher heart rate, etc.) and behavioral changes (lying down, standing, seeking shade, etc.) to compensate for increased heat load ultimately leading to lowered productivity. Considering this, it is important to monitor sheep behavior in order to implement improved management practices to compensate for changes in climate. The current short study investigated sheep behavior at different times throughout the day. The data generated was analyzed using the hierarchical cluster analysis method in order to integrate all variables into a single representative dendrogram that could summarize sheep behavior. While hierarchical cluster analysis has been applied in diverse scientific fields, as far as we know, the statistical application reported here is novel in the context of sheep behavior in response to climate change. We studied sheep behavior throughout the day (9:00 – 9:50; 10:00 – 10:50; 11:00 – 11:50; 14:00 – 14:50; 15:00 – 15:50; 16:00 – 16:50). Shade was provided in the form of trees. The following indicators were recorded over a period of twelve months at two week intervals: number of animals eating grass, ruminating and resting. The statistical evaluations undertaken resulted in the generation of a dendrogram which integrated all evaluated variables to categorize the behaviors undertaken at different times during the day. The dendrogram indicated three groupings of sheep behavior that were distinctly different from each other. The analysis shown here indicates that the use of hierarchical cluster analysis culminating in the construction of a dendrogram can effectively synthesize large datasets to outline similar relationships (in this study, this was in the context of observed behaviors). This statistical method applied to sheep physiological studies may help interpret experimental data in the context of climatic change.

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Asiel Villares

Euclidean distance: integrated criteria to study sheep behaviour under heat stress

Hierarchical cluster analysis: A statistical tool to study sheep behavior under heat stress

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