Infrared thermography as a method for evaluating the heat tolerance in dairy cows

The objective of this study was to determine whether infrared thermography is a useful tool for the recognition of dairy cows in a state of thermal heat stress, as well as to identify the best region of the animal to be evaluated for this recognition. Physiological variables, including rectal temperature, respiratory frequency, cardiac frequency, and panting score were recorded in 38 lactating cows. For the assessment of environmental parameters, a digital black globe thermometer (TGD-200 model) was used. Thermographic photographs of different regions of the body of cows were taken using an infrared camera (FLIR® System T300) and indicated respective superficial temperature. Physiological variables and superficial body temperature in different regions varied between genetic groups (Girolando: ½ Holstein × ½ Gir and ¾ Holstein × ¼ Gir; purebred Holstein). The environmental temperature ranged from 20.7 to 37.9 °C with a relative humidity reaching 95%. The mean rectal temperature (40.84 °C), respiratory frequency (111.36 breaths/min), and cardiac frequency (99.22 beats/min) were higher for pure Holstein than for Girolando cows. Positive correlations were found between the physiological parameters and thermographic measures. The highest positive correlation (0.74) was found between the temperature in the lateral region of the udder and rectal temperature. Thermography is a good indicator of thermal comfort. The best region to identify heat stress in cows using thermography is the lateral region of the udder

Physiological parameters in dairy cattle applied thermal stress

A seleção para produção de leite vem aumentando a suscetibilidade de vacas leiteiras ao estresse térmico, principalmente em raças europeias em regiões tropicais e sub-tropicais. Cerca de 95% do rebanho leiteiro no Brasil é composto por animais mestiços. O objetivo deste trabalho, conduzido no campo experimental José Henrique Bruschi da Embrapa Gado de Leite, em Coronel Pacheco – MG, durante o mês de março de 2013, foi investigar alterações nos parâmetros fisiológicos de vacas leiteiras que identifiquem com maior fidedignidade o estresse calórico. Foram realizadas coletas de sangue para análise do hematócrito (Ht), contagem de eritrócitos (ERI) e contagem de hemoglobina (HEMO), além do registro da temperatura retal (TR), da frequência cardíaca (FC), da frequência respiratória (FR), do escore de ofegação (EO) em 38 fêmeas bovinas em lactação, divididas conforme o grupo genético em ½, ¾ e puras, durante seis dias nos turnos da manhã e da tarde. Os dados foram submetidos à análise da variância considerando os efeitos de grupo genético, dias, turnos e suas interações, com medidas repetidas no tempo e regressão “broken-line”. Houve efeito significativo para a interação grupo genético*dia*turno para TR, FC, FR e EO. Os valores de TR, FC, FR e EO do grupo de vacas puras HO foram maiores em relação ao grupo ¾ e esse em relação ao grupo ½. No grupo de vacas puras, as variáveis fisiológicas aumentaram linearmente com o Índice de Temperatura e Umidade (ITU), sem apresentar inflexão. O ponto de inflexão das curvas de variáveis fisiológicas ocorreu num valor de ITU mais alto para o grupo ½ em relação aos demais. Os valores de Ht e HEMO foram distintos entre os grupos genéticos, mas não variaram com o ITU, mostrando que o estresse provocado não foi suficiente para alterar os parâmetros hematológicos medidos. A média de ITU durante o turno da manhã foi de 74, quando 70, 43 e 13% das vacas puras, ¾ e ½, respectivamente, se apresentavam com a FR acima dos padrões de referência. A FR foi o melhor indicativo do estresse térmico e seu valor crítico foi de 140mov/min para as vacas Girolando e 168 mov/min para a raça Holandesa. Vacas da raça Holandesa são mais sensíveis ao estresse térmico do que cruzas Holandês-Zebuíno.Selection for milk production has increased the susceptibility of dairy cows to heat stress, especially in European breeds reared in tropical and sub - tropical conditions. About 95% of dairy cattle in Brazil are crossbred animals. This study, conducted in the Embrapa Dairy Cattle José Henrique Bruschi experimental station, Coronel Pacheco - MG, was used to investigate changes in the physiological parameters of dairy cows to identify heat stress with greater reliability. Blood samples were collected for analysis of hematocrit (Ht), erythrocyte count (ERI) and hemoglobin count (HEMO), in addition to recording the rectal temperature (RT), heart rate (HR), respiratory rate (RR), panting score (PS) in 38 lactating cows. These varied according to genetic group (½, ¾ and pure bred Holstein (HO)), anda data was collected for six days in the morning and afternoon. Data were subjected to analysis of variance considering the effects of genetic group, days, time of day and their interactions with repeated measures and broken-line regression. Significant effects were found for the interaction between genetic group*day*time of day for RT, HR, RR and PS. These values were higher for pure HO cows were higher than in ¾ and ½ groups. In the HO group, physiological variables increased linearly with the Temperature Humidity Index, without presenting inflection in the regression. The inflection point occurred at a higher ITU highest value for the ½ group compared with the other groups. Ht and HEMO were different among genetic groups and did not vary with the ITU, showing that stress caused was not sufficient to alter the hematological parameters measured. The average THI during the morning shift was 74, when 70, 43 and 13 % of pure HO, ¾ and ½, respectively, presented FR above the standard. The FR was the best indicator of heat stress and its critical value was 140mov/min for Gir cows and 168 mov / min for Holsteins. Holstein cows are more sensitive to heat stress than crossbred Holstein- Zebu

Physiological parameters in dairy cattle applied thermal stress

A seleção para produção de leite vem aumentando a suscetibilidade de vacas leiteiras ao estresse térmico, principalmente em raças europeias em regiões tropicais e sub-tropicais. Cerca de 95% do rebanho leiteiro no Brasil é composto por animais mestiços. O objetivo deste trabalho, conduzido no campo experimental José Henrique Bruschi da Embrapa Gado de Leite, em Coronel Pacheco – MG, durante o mês de março de 2013, foi investigar alterações nos parâmetros fisiológicos de vacas leiteiras que identifiquem com maior fidedignidade o estresse calórico. Foram realizadas coletas de sangue para análise do hematócrito (Ht), contagem de eritrócitos (ERI) e contagem de hemoglobina (HEMO), além do registro da temperatura retal (TR), da frequência cardíaca (FC), da frequência respiratória (FR), do escore de ofegação (EO) em 38 fêmeas bovinas em lactação, divididas conforme o grupo genético em ½, ¾ e puras, durante seis dias nos turnos da manhã e da tarde. Os dados foram submetidos à análise da variância considerando os efeitos de grupo genético, dias, turnos e suas interações, com medidas repetidas no tempo e regressão “broken-line”. Houve efeito significativo para a interação grupo genético*dia*turno para TR, FC, FR e EO. Os valores de TR, FC, FR e EO do grupo de vacas puras HO foram maiores em relação ao grupo ¾ e esse em relação ao grupo ½. No grupo de vacas puras, as variáveis fisiológicas aumentaram linearmente com o Índice de Temperatura e Umidade (ITU), sem apresentar inflexão. O ponto de inflexão das curvas de variáveis fisiológicas ocorreu num valor de ITU mais alto para o grupo ½ em relação aos demais. Os valores de Ht e HEMO foram distintos entre os grupos genéticos, mas não variaram com o ITU, mostrando que o estresse provocado não foi suficiente para alterar os parâmetros hematológicos medidos. A média de ITU durante o turno da manhã foi de 74, quando 70, 43 e 13% das vacas puras, ¾ e ½, respectivamente, se apresentavam com a FR acima dos padrões de referência. A FR foi o melhor indicativo do estresse térmico e seu valor crítico foi de 140mov/min para as vacas Girolando e 168 mov/min para a raça Holandesa. Vacas da raça Holandesa são mais sensíveis ao estresse térmico do que cruzas Holandês-Zebuíno.Selection for milk production has increased the susceptibility of dairy cows to heat stress, especially in European breeds reared in tropical and sub - tropical conditions. About 95% of dairy cattle in Brazil are crossbred animals. This study, conducted in the Embrapa Dairy Cattle José Henrique Bruschi experimental station, Coronel Pacheco - MG, was used to investigate changes in the physiological parameters of dairy cows to identify heat stress with greater reliability. Blood samples were collected for analysis of hematocrit (Ht), erythrocyte count (ERI) and hemoglobin count (HEMO), in addition to recording the rectal temperature (RT), heart rate (HR), respiratory rate (RR), panting score (PS) in 38 lactating cows. These varied according to genetic group (½, ¾ and pure bred Holstein (HO)), anda data was collected for six days in the morning and afternoon. Data were subjected to analysis of variance considering the effects of genetic group, days, time of day and their interactions with repeated measures and broken-line regression. Significant effects were found for the interaction between genetic group*day*time of day for RT, HR, RR and PS. These values were higher for pure HO cows were higher than in ¾ and ½ groups. In the HO group, physiological variables increased linearly with the Temperature Humidity Index, without presenting inflection in the regression. The inflection point occurred at a higher ITU highest value for the ½ group compared with the other groups. Ht and HEMO were different among genetic groups and did not vary with the ITU, showing that stress caused was not sufficient to alter the hematological parameters measured. The average THI during the morning shift was 74, when 70, 43 and 13 % of pure HO, ¾ and ½, respectively, presented FR above the standard. The FR was the best indicator of heat stress and its critical value was 140mov/min for Gir cows and 168 mov / min for Holsteins. Holstein cows are more sensitive to heat stress than crossbred Holstein- Zebu

Infrared Thermography to Evaluate Heat Tolerance in Different Genetic Groups of Lambs

Heat stress is considered a limiting factor for sheep production. We used information from physiological characteristics linked to heat tolerance to determine whether infrared thermography temperatures were able to separate groups of animals and determine the most important variables in this differentiation. Forty-eight four-month-old male lambs from eight genetic groups were used. Physiological (rectal temperature–RT, heart rate–HR, respiratory rate–RR) and blood traits, infrared thermography temperatures, heat tolerance indices, body measurements, weight and carcass traits were measured. Statistical analyses included variance, correlations, factor, discrimination and regression. Observing the correlations between physiological characteristics (RT, RR and HR) with temperatures measured by infrared thermography, regions for further studies should include the mean temperature of flank, nose and rump. Results show that there are strong relationships between thermograph measurements and RR, RT and HR in lambs, which are suggested to be directly correlated with heat tolerance capacity of the different genetic groups evaluated in this study. The assessment of body surface temperature measured by the thermograph could be used as a noninvasive tool to assess heat tolerance of the animals

Physiological parameters for thermal stress in dairy cattle

The objective of this study was to investigate changes in physiological parameters of dairy cows and understand which physiological parameters show greater reliability for verification of heat stress. Blood samples were collected for analysis and included hematocrit (Ht), erythrocyte count (ERY), and hemoglobin count (HEMO). In addition, physiological variables, including rectal temperature (RT), heart rate (HR), respiratory rate (RR), and panting score (PS) were recorded in 38 lactating cows. These varied according to genetic group (1/2, 3/4, and pure bred Holstein (HO)). Analysis of variance considering the effects of genetic group, days, and their interaction as well as linear and quadratic effect of the black globe humidity index (BGHI) was performed, as well as broken-line regression. These values were higher in pure HO than in 3/4 and 1/2 groups. The average BGHI during the morning was 74, when 70, 43, and 13% of pure HO, 3/4, and 1/2, respectively, presented RR above reference value. The RR was the best indicator of heat stress and its critical value was 116 breaths/min for 1/2, 140 for 3/4, and 168 breaths/min for pure HO cows. In the HO group, physiological variables increased linearly with BGHI, without presenting inflection in the regression. The inflection point occurred at a higher BGHI for the 1/2 group compared with the other groups. Hematocrit and HEMO were different among genetic groups and did not vary with BGHI, showing that stress was not sufficient to alter these hematological parameters. The 1/2 HO group was capable of maintaining normal physiological parameters for at least 3 BGHI units above that of HO and 1 to 3 units higher than 3/4 HO for RR and RT, respectively. Respiratory rate is the physiological parameter that best predicts heat stress in dairy cattle, and the 1/2 Holstein group is the best adapted to heat stress

Infrared thermography as a method for evaluating the heat tolerance in dairy cows

ABSTRACT The objective of this study was to determine whether infrared thermography is a useful tool for the recognition of dairy cows in a state of thermal heat stress, as well as to identify the best region of the animal to be evaluated for this recognition. Physiological variables, including rectal temperature, respiratory frequency, cardiac frequency, and panting score were recorded in 38 lactating cows. For the assessment of environmental parameters, a digital black globe thermometer (TGD-200 model) was used. Thermographic photographs of different regions of the body of cows were taken using an infrared camera (FLIR® System T300) and indicated respective superficial temperature. Physiological variables and superficial body temperature in different regions varied between genetic groups (Girolando: ½ Holstein × ½ Gir and ¾ Holstein × ¼ Gir; purebred Holstein). The environmental temperature ranged from 20.7 to 37.9 °C with a relative humidity reaching 95%. The mean rectal temperature (40.84 °C), respiratory frequency (111.36 breaths/min), and cardiac frequency (99.22 beats/min) were higher for pure Holstein than for Girolando cows. Positive correlations were found between the physiological parameters and thermographic measures. The highest positive correlation (0.74) was found between the temperature in the lateral region of the udder and rectal temperature. Thermography is a good indicator of thermal comfort. The best region to identify heat stress in cows using thermography is the lateral region of the udder

Physiological parameters for thermal stress in dairy cattle

ABSTRACT The objective of this study was to investigate changes in physiological parameters of dairy cows and understand which physiological parameters show greater reliability for verification of heat stress. Blood samples were collected for analysis and included hematocrit (Ht), erythrocyte count (ERY), and hemoglobin count (HEMO). In addition, physiological variables, including rectal temperature (RT), heart rate (HR), respiratory rate (RR), and panting score (PS) were recorded in 38 lactating cows. These varied according to genetic group (1/2, 3/4, and pure bred Holstein (HO)). Analysis of variance considering the effects of genetic group, days, and their interaction as well as linear and quadratic effect of the black globe humidity index (BGHI) was performed, as well as broken-line regression. These values were higher in pure HO than in 3/4 and 1/2 groups. The average BGHI during the morning was 74, when 70, 43, and 13% of pure HO, 3/4, and 1/2, respectively, presented RR above reference value. The RR was the best indicator of heat stress and its critical value was 116 breaths/min for 1/2, 140 for 3/4, and 168 breaths/min for pure HO cows. In the HO group, physiological variables increased linearly with BGHI, without presenting inflection in the regression. The inflection point occurred at a higher BGHI for the 1/2 group compared with the other groups. Hematocrit and HEMO were different among genetic groups and did not vary with BGHI, showing that stress was not sufficient to alter these hematological parameters. The 1/2 HO group was capable of maintaining normal physiological parameters for at least 3 BGHI units above that of HO and 1 to 3 units higher than 3/4 HO for RR and RT, respectively. Respiratory rate is the physiological parameter that best predicts heat stress in dairy cattle, and the 1/2 Holstein group is the best adapted to heat stress