Abstract
Decades of selective breeding for commercial purposes have rendered the broiler chicken (Gallus gallus domesticus) highly susceptible to heat and cold stress. A multitude of studies have documented the effects of thermal manipulation (TM) on broiler thermotolerance during periods of post-hatch heat stress, but very few have focused on the effect of TM on a broiler’s ability to withstand cold stress. Therefore, the primary objective of the current study is to determine the effects of TM on the acquisition of thermotolerance in broilers via their expression of the stress-associated 70 kilodalton heat shock protein (Hsp70) gene and heat shock factor 3 (HSF3) gene. Briefly, Hubbard broiler embryos were subject to TM by increasing the incubation temperature to 39 °C and 65% relative humidity (RH) for 18 h daily, from embryonic days (ED) 10 to 18. Broilers were then exposed to cold stress by decreasing the room temperature to 16 °C during post-hatch days 32 to 37. After thermal challenge, broilers were euthanized and hepatic and splenic tissues were collected. Our results showed that TM decreased the hatchability rate and body temperature but improved the body weight gain. TM generally decreased the hepatic expression but did not change the splenic expression of HSF3 during cold stress. In contrast, both hepatic and splenic Hsp70 expression decreased during cold stress. The results of the present study may suggest that TM significantly affects a broiler’s genetic response to cold stress.
Highlights
A broiler (Gallus gallus domesticus) is a meat-type strain of chicken that has been bred and reared solely for the purpose of meat production [1]
The control group was incubated at 37.8 ◦ C and 56% relative humidity (RH) during all days of embryonic development (ED), but the thermal manipulation (TM) group was incubated at 39 ◦ C and 65% RH for 18 h/day from embryonic days (ED) 10 to 18
TM led to significantly lower body temperatures (BT) in broiler chicks on all TM led to atime significantly hatchability rate inday comparison with
Summary
A broiler (Gallus gallus domesticus) is a meat-type strain of chicken that has been bred and reared solely for the purpose of meat production [1]. Broilers constitute an integral part of the modern human diet, and the rate of chicken consumption is increasing at a faster rate compared to any other meat type [2]. This was not always the case, as chicken only became a dietary staple after the mid-twentieth century, when the USDA launched the “Chicken of Tomorrow” contests to shift the focus of the poultry industry away from egg and towards meat production [3]. The poultry industry has exerted many artificial selection pressures on broiler chickens in order to breed for commercially desirable traits, mainly faster growth rates, increased breast meat yield, and improved feed-conversion ratios [4,5].
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