A comparative thermophysiological study between two purebred Saudi sheep under biometeorologically-simulated environment

Due to global warming, animal’s heat tolerance and adaptability characteristics to hot environmental conditions are attracting more research interest. The current experimental study was actually designed to evaluate and compare the heat tolerance efficiency of two purebred Saudi sheep when exposed to heat stress conditions under a biometeorologically-simulated environment similar to Kingdom of Saudi Arabia (KSA) semi-arid environment. A total of 20 healthy male growing lambs of Najdi and Naimi breed with an initial body weight of 24.71 ± 4.65 Kg and 4 month-old were used in a 2-phases experiment. During the preliminary phase (lasted for 3 weeks), lambs were placed under a stable thermoneutral condition. Meanwhile, simulation of the external environment was performed using climatic-controlled chambers during the experimental phase (lasted for 8 weeks). Several meteorological [ambient temperature (Ta), relative humidity (RH) and temperature humidity index (THI)] and thermophysiological [rectal temperature (Tr), skin temperature (Tsk), respiratory rate (RR), heat tolerance coefficient (HTC), adaptability coefficient (AC), internal (BTG_in), external (BTG_ex) and total (BTG_to) body thermal gradients] measurements were recorded at weeks 0, 4 and 8. The obtained meteorological data showed that the prevailed conditions in the climatic chamber exhibited (P < 0.05) elevated values compared to the chambers with control or thermoneutral conditions, which indicated that all lambs had undergone a different level of surrounding conditions, which was our goal in the first place. Notably, the obtained findings of all variables showed irrespective to the breed the same trend as they all were affected (P < 0.05) at the 4th weeks and slowly returned to their steady values by the 8th weeks, especially body temperatures. Under such hot climatic condition, lambs showed as well some breed difference, where Naimi lambs kept in eliciting (P < 0.05) higher values of RR, AC, and BTG_to as well as lower values of HTC compared to their Najdi associates. In conclusion, the outcomes might collectively enable us to initially recommend selecting Najdi breed over Naimi breed for herding under the hot environmental conditions of KSA. However, identification of genes responsible for acquiring heat tolerance ability of Najdi compared to Naimi is highly recommended in future studies.