2011
DOI: 10.1111/j.1740-0929.2011.00967.x
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Effect of summer heat environment on body temperature, estrous cycles and blood antioxidant levels in Japanese Black cow

Abstract: This study investigated the effect of summer heat environment on estrous cycles and blood antioxidant levels in Japanese Black cows. A total of 13 non-lactating Japanese Black cows (summer: 9, winter: 4) were examined. Body temperature was measured rectally and intravaginally using a thermometer and data logger, respectively. Estrous behavior was monitored using a radiotelemetric pedometer that recorded walking activity. Rectal temperatures were higher during summer than winter (P<0.001). There was an acute in… Show more

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Cited by 85 publications
(90 citation statements)
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References 54 publications
(66 reference statements)
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“…pathways they are involved in HS response in animals Sakatani et al 2012). Study of genetic factors for HS in dairy cattle should be valuable to evaluate the availability of genetically superior animals that can respond better to changing temperatures without any significant drop in production rate and also for identifying target genes and genomic region for breeding genetically superior animal with increased tolerance to HS.…”
Section: Introductionmentioning
confidence: 99%
“…pathways they are involved in HS response in animals Sakatani et al 2012). Study of genetic factors for HS in dairy cattle should be valuable to evaluate the availability of genetically superior animals that can respond better to changing temperatures without any significant drop in production rate and also for identifying target genes and genomic region for breeding genetically superior animal with increased tolerance to HS.…”
Section: Introductionmentioning
confidence: 99%
“…BERNABUCCI et al (2002) also defined a decrease in blood GSH-Px activity during the summer months. Levels of blood SOD, GSH-Px and glutathione decreased in high ambient temperature during the summer (SAKATANI et al, 2012). However, no information regarding the relationship between milk GSH-Px and heat stress is present in the literature.…”
Section: Discussionmentioning
confidence: 85%
“…However, high ambient temperature has been found to induce free radical production. Decreased antioxidant enzyme activity during the summer months has been reported in several studies, while levels of antioxidant and oxidant enzymes in blood have been used to analyze the relationship between heat stress and oxidant levels (BERNABUCCI et al, 2002;SAKATANI et al, 2012;TURK et al, 2015), but studies based on milk samples are missing.…”
Section: Introductionmentioning
confidence: 99%
“…Con el estrés calórico, no sólo disminuye la intensidad sino también la duración del estro, aumentan las ovulaciones silenciosas y la incidencia de anestro (Wakayo et al, 2015). La intensidad del estro, medida como actividad (pasos) fue 2,34 veces menor en verano que cuando se midió durante el invierno (Sakatani et al, 2012b). La tasa de no retorno a celo (NRR) durante 90 días para el primer servicio, es decir, vacas que quedaron preñadas después del servicio, varió entre 15,8 y 23,6% entre animales expuestos a estrés calórico y animales en ambiente termoneutral, donde los animales expuestos al estrés calórico tuvieron menores NRR que aquellos animales servidos en ambiente termoneutral (Al-Katanani et al, 1999).…”
Section: Comportamiento Reproductivo Ante Periodos De Estrés Caloricounclassified