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Transporting weaned pigs to separated growing facilities is commonly practiced in the pig industry to improve farming efficiency. However, concurrent stressors during weaning and travel may lead to physiological and metabolic alternations and negatively impact overall health, growth performance, and productivity of the animals. Antibiotics were commonly applied as a mitigation strategy; however, there is an increasing consumer demand for antibiotic-free animal farming practices. L-glutamine supplementation was recently reported as a potentially viable nutraceutical replacement to the use of antibiotics. Currently, most published studies have focused on the animal productivity and general carcass characteristics of pigs undergoing these environmental stressors. However, little to no information is available on how these multiple stressors and mitigation strategies during the early phase of pig handling affect the final meat quality attributes. Therefore, the study objective was to determine the effect of L-glutamine supplementation on quality attributes of different muscles from pigs exposed to weaning and transport stress at different seasons.
Pigs were weaned and transported in 2 different seasons: thermal-challenged summer vs. thermal-neutral spring. Each group were BW-blocked and randomly assigned to 3 different diets (supplemented with non-antibiotic, antibiotic, and 0.20% L-glutamine) for 14 d after transport, then fed antibiotic free basal diets until market weight. After reaching market weight, 30 gilts (
Muscles from pigs transported under heat stress exhibited a decrease in tenderness and water-holding capacity as indicated by elevated shear force values, display loss, thaw loss, and cook loss (
The current results indicated that heat stress accompanied with transport stress at weaning could negatively affect meat quality characteristics, as shown by decreases in meat tenderness, WHC and oxidative stability. L-glutamine supplementation as a nutraceutical mitigation strategy showed a trend of resulting in better or equivalent impacts on meat quality attributes compared to meat from pigs treated with antibiotics.