Supplemental ascorbic acid does not affect inferred heat loss in broiler chickens exposed to elevated temperature

The provision of supplemental ascorbic acid has been reported to lower the body temperature of chickens maintained at elevated environmental temperatures. Since body temperature is the net effect of heat production and heat loss, it is not known if the reductions in body temperature were due to a lower heat production or an increase in heat loss. The purpose of this work was to determine if supplemental ascorbic acid facilitates heat loss in chickens exposed to an elevated temperature. On day 12 post-hatch broiler chickens were implanted intra-abdominally with a thermo-sensitive radio transmitter. The following day, birds were placed inside an indirect calorimeter maintained at 34 C for 24 h and provided water containing 0 or 400 ppm ascorbic acid. Oxygen consumption, carbon dioxide production, heat production, respiratory exchange ratio, and body core temperature were measured for 3 h; beginning 21 h after the birds were placed inside the calorimeter. No differences were observed in heat production or body core temperature between birds provided or not and 400 ppm ascorbic acid. This suggests that ascorbic acid has no effect on heat loss. Birds provided ascorbic acid did exhibit a significantly lower respiratory exchange ratio suggesting a greater utilization of lipid for energy production. Although lipid has a lower heat increment compared with protein and carbohydrate, the significance of this finding to birds exposed to elevated temperature is not known. In conclusion, under the conditions of this study the provision of supplemental ascorbic acid to broiler chickens maintained at an elevated temperature did not affect heat loss as inferred from measured heat production and body core temperature.

► 400 ppm ascorbic acid has no effect on heat loss from chickens maintained at 34 C.
► The respiratory exchange ratio (RER) was significantly lower with ascorbic acid.
► The lower RER indicates a greater reliance on lipids to meet energy demand.
► Significance of lower RER to birds in elevated temperature remains unknown.