Abstract
Oxygen limitation and dietary imbalances are key aspects influencing feed intake (FI) and growth performance in cultured fish. This study investigated the combined effects of hypoxia and dietary electrolyte balance on the growth performance, body composition and nutrient utilization in a rainbow trout (Oncorhynchus mykiss) isogenic line. Fish were fed ad libitum two experimental diets: electrolyte-balanced or -imbalanced diets (DEB 200 or 700 mEq kg−1, respectively) and exposed to normoxia or hypoxia (7.9 or 4.5 mg O2 l−1, respectively) for 42 days. DEB did not affect FI, growth performance or body composition. Nevertheless, hypoxia had a negative impact, reducing FI (6%), growth rate (8%), oxygen consumption (19%), energy (5%) and lipid (42%) contents. Digestible energy intake and heat production were higher in normoxic fish (40% and 23%, respectively), retaining 64% more energy in lipid or protein. Hypoxia reduced the apparent digestibility of dry matter, ash, protein, lipid, carbohydrates and energy. Trout fed DEB 700 diet were energetically less efficient, reflected in higher heat production and energy requirements for maintenance. FI was inhibited by low dissolved oxygen levels, but not by electrolyte-imbalanced diet, in spite of the higher energy requirements for maintenance. This study highlights the importance that dietary-electrolyte content and DO levels have on energy balance and growth performance when fish are fed to satiation.
Highlights
Feed intake (FI) is the main determinant of animal growth
The current study investigated the changes in feed intake (FI) on growth performance, oxygen consumption, nutrient digestibility, nitrogen and energy balance, together with several metabolic markers in an isogenic heterozygous family of rainbow trout (Oncorhynchus mykiss) subjected to a combination of nutritional (DEB 200 or dietary electrolyte balance (DEB) 700) and environmental challenges
oxygen consumption (OC) and the relation between OC and growth rate expressed by metabolic body weight (GRMBW) were significantly higher in normoxia than in hypoxia (24% and 14%, respectively)
Summary
Feed intake (FI) is the main determinant of animal growth. In fish, voluntary FI is influenced by dietary, environmental and/or physiological factors. It has been suggested that energy requirements for maintenance could be lessened in rainbow trout (Oncorhynchus mykiss) exposed to hypoxia[5], implying that nutrient utilization could be modulated by DO levels. The oxygen consumption in Nile tilapia were not altered by dietary lipid to carbohydrate ratios, while FI was affected[14] Both studies suggest that nutritional factors affecting energy use and oxygen availability could pose constraints on FI, fish may have effective mechanisms to compensate for changes in energy intake in order to achieve energy balance. Acid-base homeostasis disturbances appear to increase the oxygen consumption required for maintenance metabolism in fish, as the animal needs several energy consuming processes essential to keeping this balance. The enzyme carbonic anhydrase present in gill and kidney is involved in the regulation of acid-base balance of freshwater rainbow trout[20]
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