One‐summer‐old rainbow trout (Oncorhynchus mykiss) were exposed to continuous hyperoxia (173 ± 24%) and three hyperoxic/normoxic treatments for 14 days. Hepatic glutathione status as the indicator of oxidative stress, as well as classical stress indicators such as hemoglobin, hematocrit and plasma cortisol levels, were measured during normoxic, constantly hyperoxic and the following episodically hyperoxic oxygen treatment regimes: 12 h hyperoxia:12 h normoxia (12 HYP:12 NOR), 24 HYP:24 NOR and 48 HYP:24 NOR. Constant hyperoxia tended to shrink erythrocytes, but the 12 HYP:12 NOR treatment increased the number of erythrocytes and thus enhanced the oxygen carrying capacity of blood. Similarly, a trend toward an elevation in plasma cortisol concentrations was detected in 12 HYP:12 NOR treatment group. The finding that elevated hepatic glutathione (GSH) levels (P < 0.01), indicative of enhanced potential of the liver tissue to resist oxidative stress, coincided with elevated cortisol levels might suggest that in the 12 HYP:12 NOR treatment physiological processes were recruited to increase oxygen carrying capacity in blood and to elevate protection against oxyradicals. However, none of the episodic hyperoxia treatments or continuous hyperoxia caused mortality or resulted in better growth. These data indicate that continuous hyperoxia (173 ± 24%) and hyperoxic‐normoxic treatments may be applied in intensive culture of rainbow trout provided that fish have at least 24 h in normoxia prior to the next bout of hyperoxia. Shorter recovery periods, like in a 12 HYP:12 NOR treatment, may result in the increased need of oxygen in tissues followed by an activation of glutathione dependent defence system against an increased oxygen load.
Highlights-Online water quality monitoring enables real-time data access and control in RAS -Nitrification can be rapidly started by using ammonia and nitrite salts -Low relative water renewal rate decreased rainbow trout growth
In recirculating aquaculture system (RAS), ammonium excreted by the fish is typically transformed to less toxic nitrate by microbial activity in bioreactors. However, nitrate-nitrogen load can be harmful for the receiving water body when released from the RAS facility. A new type of water treatment system for a RAS was designed, including a passive woodchip denitrification followed by a sand filtration introduced into a side-loop of an experimental RAS, rearing rainbow trout (Oncorhynchus mykiss). In the process, woodchips acted as a carbon source for the denitrification, aiming at a simultaneous nitrogen removal and reduction of water consumption while sand filtration was used to remove organic matter and recondition the circulating water. A variety of chemical analyses and toxicological tests were performed to study the suitability of the process and to ensure the absence of harmful or toxic substances in the system. The results did not show increased toxicity, and no increased mortality was reported for the raised species. After the start-up of the system, the concentrations of fatty acids (e.g., hexadecanoic acid
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