Effect of temporal thermal stress on Penaeus vannamei: Growth performance and physiological plasticity

The present study evaluated the effect of temporal periods of hypothermia and hyperthermia, followed by an optimal temperature recovery phase on the growth, survival, and physiological response of Penaeus vannamei. Post-larvae were exposed to stress periods for 7 and 14 days at 22 °C and 32 °C each,...

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Published in:Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Molecular & integrative physiology, 2024-09, Vol.295, p.111653-111653, Article 111653
Main Authors: Barajas-Sandoval, Diana R., Escobedo-Fregoso, Cristina, Quiroz-Guzmán, Eduardo, Tovar-Ramírez, Dariel, Py, Clara Adèle, Peña-Rodríguez, Alberto
Format: Article
Language:English
Subjects:
Biochemical composition
Compensatory growth¸ survival
Enzyme activity
Penaeus vannamei
Thermal stress
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Summary:The present study evaluated the effect of temporal periods of hypothermia and hyperthermia, followed by an optimal temperature recovery phase on the growth, survival, and physiological response of Penaeus vannamei. Post-larvae were exposed to stress periods for 7 and 14 days at 22 °C and 32 °C each, followed by a recovery phase at 28 °C to complete seven experimental weeks, and were compared with a control group maintained at 28 °C. Weight gain, specific growth rate, feed intake, feed conversion ratio, and survival were weekly determined. Muscle, hepatopancreas, and hemolymph were sampled on the 14th day of the recovery phase for biochemical composition, and antioxidant and digestive enzyme activities determination. The shrimp presented a higher growth rate during short-term hyperthermia in contrast to shrimp under hypothermia that presented compensatory growth after thermal stress when the temperature was restored at 28 °C. Hyperthermia increased 12–13% the feed intake while this was diminished 21–29% by the hypothermia periods. Shrimp undergo metabolic adjustments following thermal stress, with short hypothermia increasing the lipase activity and lipid storage in the hepatopancreas, while short hyperthermia also enhances chymotrypsin activity and leads to higher protein and lipid accumulation. Conversely, prolonged hyperthermia induces greater energy consumption, depleting lipid and glycogen stores, while hypothermia causes scarce mobilization of energy reserves during recovery phase. Antioxidant enzyme activities were not affected by short-thermal stress (7d), while prolonged thermal stress (14d) significantly affected SOD, CAT, and GPx activities. The present study provides important insights into the physiological plasticity of P. vannamei during recovery from thermal stress. [Display omitted] •Shrimp P. vannamei has physiological plasticity during recovery from thermal stress.•The 7-day hypothermia increases lipase activity and lipid storage in P. vannamei.•Prolonged hyperthermia reduces lipids and glycogen stores in Penaeus vannamei.•Prolonged thermal stress affects SOD, CAT, and GPx activities in Penaeus vannamei.
ISSN:1095-6433
1531-4332
DOI:10.1016/j.cbpa.2024.111653