Effects of ambient air temperature, humidity, and wind speed on seminal traits in Braford and Nellore bulls at the Brazilian Pantanal

Menegassi, Sílvio Renato Oliveira; Pereira, Gabriel Ribas; Bremm, Carolina; Koetz, Celso; Lopes, Flávio Guiselli; Fiorentini, Eduardo Custódio; McManus, C.; Dias, Eduardo; Rocha, Marcela Kuczynski da; Lopes, Rúbia Branco; Barcellos, Júlio Otávio Jardim

doi:10.1007/s00484-016-1167-2

Cited by 26 publications

(16 citation statements)

References 25 publications

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“…This indicates that although scrotal circumference was lower during winter and spring, the amount of sperm cells produced was not affected. European-breed bulls in the study, seemed to be more sensitive to heat stress and showed significantly lower sperm cell concentration during summer and autumn, when the mean ambient temperature reached an average of 30 o C. The negative effect of heat stress on spermatogenesis has been widely documented (Meyerhoeffer et al, 1985;Menegassi et al, 2016), and there are reports that mention that although ejaculate volume is not negatively affected by hyperthermia, initial motility, sperm concentration and total sperm counts decrease following exposure to temperatures above 29 o C and spermatogenesis is impaired at temperatures above 30 o C (Hansen, 2009). It is important to notice that semen characteristics are not immediately affected by high temperatures, and they do not return to normal until up to eight weeks following the end of heat stress (Hansen, 2009), which helps to explain the results of the lower sperm cell concentration found in European-breed bulls in the present study during the months of autumn that do not represent heat stress for the animals.…”

Section: Discussionmentioning

confidence: 73%

Effect of season on scrotal circumference, semen characteristics and testosterone serum concentration in Mexican Corriente and other beef breed bulls

et al. 2016

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To evaluate the effects of season on semen, scrotal circumference and testosterone concentration in Corriente and European-breed bulls, 758 samples were analyzed in four years. Comparisons were made between bulls of the same breed in different seasons and between bulls of different breeds in the same season. Scrotal circumference of both breeds was higher in the summer and autumn (P < 0.01). Sperm concentration, individual motility and live cells were lower in summer and autumn in European-breed bulls (P < 0.01). All percentages of sperm defects were higher, and testosterone was lower in European-breed bulls during summer and autumn (P < 0.01). Gross motility tended to be lower (P = 0.09) in European-based bulls during winter. Scrotal circumference was higher in Europeanbreed bulls than Corriente bulls in all seasons (P < 0.01). Ejaculate volume and sperm concentration were similar in Corriente and European-breed bulls in all seasons (P > 0.1). Individual motility was lower in Europeanbreed than in Corriente bulls in summer and autumn (P < 0.01 and <0.01). Live cells count was lower in European-breed than in Corriente bulls during the summer and autumn (P < 0.01 and <0.01). Major sperm defects were higher for Corriente than European-breed bulls during winter (P < 0.01). Minor cell defects were higher in summer and autumn (P < 0.01) in Europeanbreed than in Corriente bulls. Total defects were lower in Corriente than in European-breed bulls during summer and autumn (P < 0.01), and higher during winter (P < 0.01). Testosterone was higher in Corriente bulls during summer (P < 0.01) and autumn (P < 0.01) than in European-breed bulls. Gross motility was lower (P < 0.05) in European-breed than in Corriente bulls in winter. Season had no effect on most semen characteristics in Corriente bulls, while European-breed bulls had lower semen quality during the hotter seasons. This indicates a better adaptation of Corriente cattle, suggesting that these bulls can be used for mating all year in hot environments.

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Section: Discussionmentioning

confidence: 73%

Effect of season on scrotal circumference, semen characteristics and testosterone serum concentration in Mexican Corriente and other beef breed bulls

et al. 2016

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“…Previously studies by our group demonstrated that IRT can be used as an indirect technique to evaluate the effect of environmental stress on bull reproductive traits based on low scrotal TG and high OcT correlation (Menegassi et al., , 2016b). In rodents, the IRT technique is a good tool to assess temperatures on eyes, nose, internal and external ear suitable for detecting differences in heat stress in rabbits (Lima et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…Perhaps, thermographic image can provide a qualitative and quantitative map of the measured surface temperature that can be related to blood flow, distinct pathological conditions and reduced cellular activity (Ammer, ). Recently, it has been found that the use of IRT to evaluate environmental effects on sperm quality has a low correlation between TG and minor sperm defects that are also important for reproductive performance in bulls (Menegassi et al., 2016b). These distinctive characteristics on sperm parameters occur because the inflammatory lesions are related to changes in blood flow and this in turn can affect the scrotal skin temperature.…”

Section: Discussionmentioning

confidence: 99%

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Infrared thermography as a noninvasive method to assess scrotal insulation on sperm production in beef bulls

et al. 2017

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This study evaluated the thermoregulation and spermatogenic changes by scrotal temperature gradient using infrared thermography in testicular compromised bulls. Bulls were insulated (n = 6) for 72 hr and control animals (n = 3) remained without insulation during all the experimental period. Seminal evaluation was performed prior, at insult removal and once per week for 13 consecutive weeks. Mean temperature gradient in insulated animals was lower at the time of insulation removal compared to the week prior and after the insult (p < .05). Two weeks after insult, sperm motility was lower in insulated compared to control animals (p < .01) and spermatozoa total defects were higher in insulated compared to control animals (p < .05). Two and seven weeks after insult, the major defects were higher in insulated compared to control animals (p < .05). Scrotal temperature gradient showed a positive correlation with sperm mass motion (p < .01) and a negative correlation with ocular globe temperature (p < .01) in insulated animals. The infrared thermography can be used to evaluate ocular globe temperature in bulls; however, it is only effective to detect changes in scrotal temperature gradient at the insult removal.

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“…In the current study, the obtained THIs were considered below the temperature that impairs physiological disequilibrium due to thermal stress in animals, and thus it is likely that neither temperature nor humidity was high enough to cause testicular damage that may lead to direct consequences on testicular shape [13]. Recently, Brangus breed bulls showed a mean testicular gradient of 4.2, indicating a higher temperature gradient compared to Nelore (2.1) and Braford (3.3; 3/8 Nelore x 5/8 Hereford) bulls evaluated at the Pantanal region of Brazil [17]. The Braford breed is a mix of Bos taurus and Bos taurus indicus (3/8 Nelore x 5/8 Hereford), showing a significant adaptation to tropical and subtropical regions and presenting higher genetic potential to improve productivity efficiency.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of Scrotal Temperature in Different Testicular Shapes by Infrared Thermography in Braford Bulls

Fávaro

Pereira

Junior

et al. 2019

Acta Scientiae. Vet.

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Background:The mechanisms of testicular thermoregulation may influence the blood flow provided by the testicular artery, where the proper blood supply to the testicle is crucial for promotingspermatogenesis and reproductive function in bulls. The size and shape of the testicles are determined by genetic mechanisms and environmental effects. A better understanding of the relationships between the anatomical characteristics of the testicles and scrotum can support a better reproductive assessment. The purpose of the current study was to evaluate the testicular temperature of different scrotal shapes using infrared thermography in bulls. Materials, Methods & Results:We evaluated 132 Braford bulls with an average age of 24 months. The evaluation of breeding bull semen was performed prior to the beginning of the experiment. Then, animals were selected on the basis of the size of their testes, which was determined by dividing the average width by the average length. The scrotal circumference was measured with a millimeter tape positioned around the largest circumference. Testicular and ocular temperature measurements and analysis were conducted using an infrared thermal camera, Flir T440 with emissivity of 0.98 and thermal sensitivity of 0.05°C. Testicular scrotum temperature and testicular shape were analyzed with one-way ANOVA using Minitab 16, and values of P < 0.05 were considered statistically significant. We observed that 67.42% of testicle shapes were long-oval, and 32.58% were long-moderate. The testicular temperature was higher in bulls with the long-moderate shape compared to those with the long-oval shape (P < 0.05). The mean length was higher in long-moderate shaped testicles compared to those of the long-oval shape (P < 0.01). There was no significant differences in rectal and ocular temperatures or in scrotal circumference between bulls with long-moderate and long-oval shapes (P > 0.05). In addition, the mean width was lower in testicles of long-moderate shape compared to those of the long-oval scrotal format (P < 0.01). Discussion: The results obtained showed that Braford bulls with the long-moderate testicular shape have a higher testicular temperature to maintain proper thermoregulation. The present study demonstrated that IRT can be used to evaluate the testicular temperature in animals with different scrotal conformations. In this study, Braford bulls showed lower length and width values for animals having long-moderate (9.21 and 5.22, respectively) and long-oval formats (8.56 and 5.56, respectively). In contrast, previous reports examining Nellore bulls between the ages of 17-20 months found a predominance of the long oval shape followed by the long-moderate shape, which indicates a change in testicular shape as age progresses, resulting in a rounder testicular shape. Perhaps other factors, such as the external cremaster muscle and tunica dartos, cause the testicles to be retracted towards the body at lower temperatures while at high temperatures, relaxation occurs. The prevailing testicular shape i...

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Effects of ambient air temperature, humidity, and wind speed on seminal traits in Braford and Nellore bulls at the Brazilian Pantanal

Cited by 26 publications

References 25 publications

Effect of season on scrotal circumference, semen characteristics and testosterone serum concentration in Mexican Corriente and other beef breed bulls

Effect of season on scrotal circumference, semen characteristics and testosterone serum concentration in Mexican Corriente and other beef breed bulls

Infrared thermography as a noninvasive method to assess scrotal insulation on sperm production in beef bulls

Evaluation of Scrotal Temperature in Different Testicular Shapes by Infrared Thermography in Braford Bulls

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