S. Hurwitz scite author profile

Chicks were conditioned by exposure to heat stress (36 +/- 1 C; to 80% RH) for 24 h at the age of 5, or 5 and 7 d. During conditioning, weight gain was depressed. Due to accelerated growth during the postconditioning period, a complete compensation for lost weight gain was achieved by the group conditioned at 5 d, but only a partial compensation was obtained in the group conditioned at both 5 and 7 d. At the age of 42 d, challenge with acute heat stress (35 +/- 1 C; 20 to 30% RH) resulted in a large increase in cloacal temperature of the controls and a more moderate increase in the conditioned chickens. Mortality during the thermal challenge was significantly higher in the control than that of the previously exposed (conditioned) groups. Conditioning at an early age resulted in hemodynamic changes (significant decrease in heart weight and hematocrit) and reduced plasma triiodothyronine (T3) concentration. The results suggest that reduced T3 and hemodynamic changes may be part of the mechanism associated with improved thermotolerance by early age temperature conditioning.

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The Performance of Broiler Chicks During and Following a Severe Feed Restriction at an Early Age

Plavnik

Hurwitz

1985

Poultry Science

181

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The Energy Requirements and Performance of Growing Chickens and Turkeys as Affected by Environmental Temperature

et al. 1980

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The energy requirements for growth and maintenance were studied in male and female chicks and turkeys, kept in environmental chambers for 4 to 5 weeks following the brooding period. In both species and sexes, the maintenance requirement decreased with constant temperatures from 12 to 24 C, reaching a low between 24 and 28 C, followed by an increase as the temperature was raised further. At 12 C, the maintenance ranged between 2.45 and 2.70 kcal/g 2 / 3 , for chicks and turkeys, respectively. Requirements for weight gain averaged 1.87 kcal/g and .7 kcal/g in chicks and turkeys, respectively. This species difference was explained on the basis of carcass composition. Turkeys fed a high-protein diet had an apparently greater maintenance requirement than those fed a diet appropriate for their age. Weight gain decreased between 19 and 34 C in chicks and between 18 C and 32 C in turkeys. Feeding of a high protein diet tended to reduce but did not overcome the growth depression by temperature. In turkeys, weight gain at 12 C was inferior to that at 18 C for both sexes. The calculated amino acid per kilocalorie dietary requirements for 6-week-old chicks increased with temperature to a peak at 27 C, followed by a decrease as the temperature was raised further. (

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Blood system response of chickens to changes in environmental temperature

et al. 1997

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Hemodynamic changes were studied in broiler chickens during exposure to constant temperatures (10 to 35 C) or diurnal temperature cycles (10:30 C and 15:35 C), and during acute heat or cold. Packed cell volume (PCV) was significantly high at low constant temperatures (10 and 15 C), whereas at high temperatures (30 and 35 C) plasma volume (PV) was significantly high. A linear relationship between hematocrit and heart weight was observed and indicates an adaptation of heart mass to changes in cardiac output and hematocrit to meet the demands of increased basal metabolic rate. Only during the diurnal temperature cycle of 15:35 C did a significant increase in PV occur when ambient temperature (Ta) was raised form 15 to 35 C. Acute exposure of chickens to high temperature did not affect PV or PCV, but resulted in hyperthermia (44.7 +/- 0.4 C). Changes in PCV are probably related to modulation of the supply of oxygen to accommodate changes in heat production. The significant hypervolemia observed at high temperatures could occur to provide the fluid needed for heat dissipation by panting. The lack of response of the blood system to acute temperature changes may be at least partially responsible for the chickens' failure to control body temperature.

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Physiological responses of chickens and turkeys to relative humidity during exposure to high ambient temperature

Yahav

Goldfeld

Plavnik

et al. 1995

Journal of Thermal Biology

151

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S. Hurwitz

Induction of Thermotolerance in Male Broiler Chickens by Temperature Conditioning at an Early Age

The Performance of Broiler Chicks During and Following a Severe Feed Restriction at an Early Age

The Energy Requirements and Performance of Growing Chickens and Turkeys as Affected by Environmental Temperature

Blood system response of chickens to changes in environmental temperature

Physiological responses of chickens and turkeys to relative humidity during exposure to high ambient temperature

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