Relationship between thermal environment, thermoregulatory responses and energy metabolism in goats: A comprehensive review

“…Thyroid hormones play a special role in this process since a decrease in the synthesis of triiodothyronine and thyroxine at elevated temperatures leads to an increase in the intensity of oxidative processes in cells. This leads to an increase in oxygen consumption and cellular heat production, which increases the basal metabolic rate [6,8]. The redistribution of blood flow in this case is directed to a greater extent to the periphery, due to which there is a loss of excess heat.…”

“…This is expressed in changes in behavioral reactions, such as a decrease in the consumption of dry matter and an increase in water consumption. This leads to a change in microbial profile and a decrease in rumen activity, followed by a loss of productivity [6][7][8]. During the changes in humoral regulation (along the hypothalamic-pituitary-adrenal axis), hormones (prolactin, cortisol, triiodothyronine, thyroxine) perform thermoregulatory adjustments, directing metabolic reactions adjusted for heat stress [7,8].…”

“…This leads to a change in microbial profile and a decrease in rumen activity, followed by a loss of productivity [6][7][8]. During the changes in humoral regulation (along the hypothalamic-pituitary-adrenal axis), hormones (prolactin, cortisol, triiodothyronine, thyroxine) perform thermoregulatory adjustments, directing metabolic reactions adjusted for heat stress [7,8]. Thyroid hormones play a special role in this process since a decrease in the synthesis of triiodothyronine and thyroxine at elevated temperatures leads to an increase in the intensity of oxidative processes in cells.…”

“…The redistribution of blood flow in this case is directed to a greater extent to the periphery, due to which there is a loss of excess heat. Adaptive rearrangements require high energy costs, which leads to a decrease in productivity and a decrease in the content of fat, protein, lactose and some other indicators of milk quality [8,9]. Thus, the dominant of "productivity" is replaced by "the dominant of adaptation to elevated temperature" [7,10].…”

Seasonal Changes in the Antioxidant Activity and Biochemical Parameters of Goat Milk

“…Thyroid hormones play a special role in this process since a decrease in the synthesis of triiodothyronine and thyroxine at elevated temperatures leads to an increase in the intensity of oxidative processes in cells. This leads to an increase in oxygen consumption and cellular heat production, which increases the basal metabolic rate [6,8]. The redistribution of blood flow in this case is directed to a greater extent to the periphery, due to which there is a loss of excess heat.…”

“…This is expressed in changes in behavioral reactions, such as a decrease in the consumption of dry matter and an increase in water consumption. This leads to a change in microbial profile and a decrease in rumen activity, followed by a loss of productivity [6][7][8]. During the changes in humoral regulation (along the hypothalamic-pituitary-adrenal axis), hormones (prolactin, cortisol, triiodothyronine, thyroxine) perform thermoregulatory adjustments, directing metabolic reactions adjusted for heat stress [7,8].…”

“…This leads to a change in microbial profile and a decrease in rumen activity, followed by a loss of productivity [6][7][8]. During the changes in humoral regulation (along the hypothalamic-pituitary-adrenal axis), hormones (prolactin, cortisol, triiodothyronine, thyroxine) perform thermoregulatory adjustments, directing metabolic reactions adjusted for heat stress [7,8]. Thyroid hormones play a special role in this process since a decrease in the synthesis of triiodothyronine and thyroxine at elevated temperatures leads to an increase in the intensity of oxidative processes in cells.…”

“…The redistribution of blood flow in this case is directed to a greater extent to the periphery, due to which there is a loss of excess heat. Adaptive rearrangements require high energy costs, which leads to a decrease in productivity and a decrease in the content of fat, protein, lactose and some other indicators of milk quality [8,9]. Thus, the dominant of "productivity" is replaced by "the dominant of adaptation to elevated temperature" [7,10].…”

Seasonal Changes in the Antioxidant Activity and Biochemical Parameters of Goat Milk

“…Many factors (e.g., breed, genetics, health state, body condition, and skin color) affect metabolism, thermal exchange rate, and insulation, all of which contribute to animal thermal comfort [4]. The optimal internal temperature ranges for different animals and is determined by several factors, including the temperature of the ambient environment and energy requirements [5]. Throughout the world, small ruminants are affected by heat stress regularly [6,7].…”

Thermoregulation in Sheep and Goats: A Review

Thermoregulatory, behavioral, and productive responses and physical integrity of primiparous and multiparous cows on compost barn in Brazilian tropical conditions