Vaginal temperature modeling in Holstein cows and cluster analysis by the cophenetic correlation coefficient

Marcos Vinícius da Silva; Héliton Pandorfi; Maria Simone Mendes Peixoto; José Antonio Delfino Barbosa Filho; Gledson Luiz Pontes de Almeida; Iran José Oliveira da Silva; Kenio Patrício Lima de Oliveira; Vinícius de Sena Sales Viana; José Francisco de Oliveira-Júnior; Cristiane Guiselini; Gabriel Thales Barboza Marinho; Marcio Mesquita; Rodrigo Couto Santos; Gleidiana Amélia Pontes de Almeida Macêdo; Maria Beatriz Ferreira; Alexandre Maniçoba da Rosa Ferraz Jardim; Jhon Lennon Bezerra da Silva

doi:10.1016/j.jtherbio.2023.103580

Vaginal temperature modeling in Holstein cows and cluster analysis by the cophenetic correlation coefficient

J Therm Biol. 2023 Jul:115:103580. doi: 10.1016/j.jtherbio.2023.103580. Epub 2023 Jun 12.

Authors

Marcos Vinícius da Silva¹, Héliton Pandorfi², Maria Simone Mendes Peixoto³, José Antonio Delfino Barbosa Filho³, Gledson Luiz Pontes de Almeida², Iran José Oliveira da Silva⁴, Kenio Patrício Lima de Oliveira³, Vinícius de Sena Sales Viana³, José Francisco de Oliveira-Júnior⁵, Cristiane Guiselini², Gabriel Thales Barboza Marinho², Marcio Mesquita⁶, Rodrigo Couto Santos⁷, Gleidiana Amélia Pontes de Almeida Macêdo⁸, Maria Beatriz Ferreira⁹, Alexandre Maniçoba da Rosa Ferraz Jardim², Jhon Lennon Bezerra da Silva²

Affiliations

¹ Department of Agricultural Engineering, Federal Rural University of Pernambuco, Dom Manoel de Medeiros Avenue, SN, Dois Irmãos, Recife, Pernambuco, 52171-900, Brazil. Electronic address: marcolino_114@hotmail.com.
² Department of Agricultural Engineering, Federal Rural University of Pernambuco, Dom Manoel de Medeiros Avenue, SN, Dois Irmãos, Recife, Pernambuco, 52171-900, Brazil.
³ Department of Agricultural Engineering, Universidade Federal Do Ceará, 60440-900, Fortaleza, CE, Brazil.
⁴ Animal Environment Research Nucleus (NUPEA) - University of São Paulo (USP/ESALQ), Piracicaba, São Paulo, Brazil.
⁵ Institute of Atmospheric Sciences (ICAT), Federal University of Alagoas (UFAL), 57072-260, Maceió, Alagoas, Brazil.
⁶ Department of Agronomy, Federal University of Goiás, Esperança Avenue, Goiânia, 74690-900, Brazil.
⁷ Faculty of Agricultural Sciences, Federal University of Grande Dourados (UFGD), Rodovia Dourados-Itahum, km 12, Campus Universitário (Unidade II), Caixa-Postal: 533, Dourados 79804-970, MS, Brazil.
⁸ Universidade Federal Rural de Pernambuco, Departamento de Zootecnia, Rua Dom Manoel de Medeiros, s/n, 52171-900, Dois Irmãos, Recife, PE, Brazil.
⁹ Department of Forest Science, Federal Rural University of Pernambuco (UFRPE), Recife, Pernambuco, Brazil.

PMID: 37327615
DOI: 10.1016/j.jtherbio.2023.103580

Abstract

The objective was to establish a model for the prediction and characterization of vaginal temperature in Holstein cows, based on environmental predictors and thermal comfort indices, through cluster analysis, validation by the cophenetic correlation coefficient, and multiple regression analysis. The micrometeorological characterization of the site was carried out by recording the air temperature (T_air), the relative humidity (RH), the black globe temperature (BGT), the black globe temperature and humidity (BGHI), and dew point temperature (TDP). The recording of vaginal temperature (Tv) was performed in eight dairy cows using temperature sensors, equipped with data loggers, coupled with intravaginal devices. The data were analyzed using descriptive statistics and cluster analysis (CA) by using the hierarchical agglomerative method based on the value of the cophenetic correlation coefficient (CCC >0.70), in which representative physiological models were established, characterizing the Tv through multiple regression. In the afternoon the coefficient of variation (CV) was low for all variables, indicating homogeneity of the meteorological variables and efficiency of the ventilation system. The temperature and humidity index (THI) was mild only on the morning. There was a variation of 0.28 °C of Tv between shifts, sufficient to characterize the condition of comfort and stress of the animal, with values above 39 °C indicating animal stress. Tv showed strong correlation with BGT, T_air, TDP and RH, assuming that physiological variables, such as Tv, tend to have greater relationship with abiotic variables. Empirical models were established for estimating Tv based on the analyses performed in this study. Model 1 is recommended for TDP ranges of 14.00-21.00 °C and RH of 30-100%, while model 2 can be used for T_air situations up to 35 °C. The regression models for estimating Tv are promising for characterizing the thermal comfort of dairy cows housed in compost barn systems.

Keywords: Binding methods; Physiological models; Thermal comfort.

MeSH terms

Animals
Body Temperature*
Cattle
Cluster Analysis
DNA-Binding Proteins
Female
Hot Temperature
Humidity
Lactation*
Temperature

Substances

DNA-Binding Proteins