Thermal preference, critical thermal limits, oxygen routine consumption and active metabolic scope of Macrobrachium tenellum (Smith, 1871) maintained at different acclimation temperatures

Temperature is one of the most dominant environmental factor influencing the biology and performance of aquatic ectotherms in the wild and in culture conditions. Thus, the aims of the present study were to investigate thermoregulatory behavior, thermal tolerance and active metabolic scope in Macrobr...

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Veröffentlicht in:Latin american journal of aquatic research 2018-07, Vol.46 (3 SI), p.558-569
Hauptverfasser: Hernández-Sandoval, Pedro, Díaz, Fernando, Re-Araujo, Ana Denisse, López- Sánchez, J. Armando, Martínez-Valenzuela, María del Carmen, García-Guerrero, Marcelo, Rosas, Carlos
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Sprache:eng
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Zusammenfassung:Temperature is one of the most dominant environmental factor influencing the biology and performance of aquatic ectotherms in the wild and in culture conditions. Thus, the aims of the present study were to investigate thermoregulatory behavior, thermal tolerance and active metabolic scope in Macrobrachium tenellum. To fulfill our goal, we measure, the preferred temperature, critical threshold limits, thermal window width, oxygen consumption routine rate and active metabolic scope in the prawn M. tenellum acclimated to 20, 23, 26, 29 and 32[degrees]C. 9he preferred temperature obtained by the graphic acute method was 28.5[degrees]C. Acclimation temperature significantly affected the thermal tolerance which increased with the acclimation temperature. 9he scope for thermal tolerance had an interval of 25.3 to 27.7[degrees]C. 9he thermal window calculated for M. tenellum. was 325[degrees]C2. 9he acclimation response ratios had an interval of 0.42- 0.50. These values allow us to characterize these species as inhabitants of subtropical and tropical regions. 9he oxygen consumption routine rates increased as the acclimation temperature increased from 20 to 32[degrees]C. 9he range of temperature coefficient (Qio) between 29-32[degrees]C was the lowest, at 1.98. 9he active metabolic scope for prawns was the lowest for organisms acclimated to 20 and 32[degrees]C and the highest value was obtained at 29[degrees]C. 9he results obtained in the present study are important to determine the optimum conditions in which M. tenellum needs to live in the natural environment and may partially explain their wide distribution pattern along the Mexican Pacific Ocean littoral.
ISSN:0718-560X
0718-560X
DOI:10.3856/vol46-issue3-fulltext-9