Spatiotemporal variations on infrared temperature as a thermal comfort indicator for cattle under agroforestry systems

Spatiotemporal variations on infrared temperature as a thermal comfort indicator for cattle under agroforestry systems

With the expanding use of thermal assessment techniques in beef cattle, infrared thermography has become a promising tool for assessing the environment for animal thermal comfort. Goals of this study were: (1) to evaluate cattle thermal comfort in agroforestry systems with different shade availabili...

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Bibliographic Details
Published in:Journal of thermal biology Vol. 97; p. 102871
Main Authors: Karvatte, Nivaldo, Miyagi, Eliane Sayuri, Carvalho de Oliveira, Caroline, Mastelaro, Ariadne Pegoraro, de Aguiar Coelho, Flávio, Bayma, Gustavo, Bungenstab, Davi José, Alves, Fabiana Villa
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-04-2021
Elsevier BV
Subjects:
Agroforestry
Beef
Beef cattle
Cattle
Geostatistics
Heat
Humidity
Monitoring
Pasture
Shade
Thermal comfort indices
Thermography
Thermoregulation
Variation
Cattle
Geostatistics
Thermal comfort indices
Thermoregulation
Monitoring
Shade
Thermography
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Summary:With the expanding use of thermal assessment techniques in beef cattle, infrared thermography has become a promising tool for assessing the environment for animal thermal comfort. Goals of this study were: (1) to evaluate cattle thermal comfort in agroforestry systems with different shade availability (2) to verify the spatiotemporal variations of infrared temperature inside agroforestry systems, and; (3) to test infrared thermography as a potential tool to assess animal thermal comfort indices in agroforestry systems. A trial was carried out between June 2015 and February 2016, covering Central-Brazil's dry winter and rainy summer seasons, respectively. The experimental area of Embrapa Beef Cattle is located in Campo Grande (Mato Grosso do Sul), coordinates 20°24′53″ S, 54°42′26″ W and 558 m altitude. The 12 ha plot has two agroforestry systems varying shade availability. Traditional Black Globe Temperature and Humidity Index, Heat Load Index and Radiation Thermal Load were determined, from measurements using digital thermo-hygrometers, with datalogger. Surface temperature and humidity of tree canopies and pasture were determined using an infrared thermographic camera. Results show spatiotemporal variations in infrared temperature. This means that the environment inside agroforestry systems is not homogeneously comfortable for cattle, and the system with the lowest shade availability has the greatest heat accumulation area. Weak to strong associations were identified between infrared variables and thermal comfort indices (0.08 = r ≤ 0.75). Positive relationships were also obtained and equally well explained by the Black Globe Temperature and Humidity Index and Heat Load Index (0.55 = R2 ≤ 0.94). We conclude that infrared thermography can be used as a tool to assess thermal comfort indices in agroforestry systems and to determine onset of animal thermal stress from environment and heat body accumulation. [Display omitted] •Thermal comfort indices and infrared radiation were studied in agroforestry systems.•There are different thermal zones within agroforestry systems.•Heat accumulation occurs in a system with less shade availability.•There are infrared temperatures that indicate onset of environmental thermal stress.•Infrared thermography can be used as a tool to assess thermal comfort indices.
ISSN:0306-4565
1879-0992
DOI:10.1016/j.jtherbio.2021.102871