Natalie Redman scite author profile

Land-based Atlantic salmon, Salmo salar, grow-out facilities utilize depuration to remediate off-flavor. Water used in this process is either discharged or repurposed as supply water in recirculating aquaculture systems (RAS). Both approaches require an understanding of water quality and waste production for water treatment decisions and compliance with pollution discharge standards; however, these data were lacking. Therefore, a study was carried out to characterize these parameters. To begin, 311 salmon(5-6 kg) originally cultured in freshwater RAS were stocked at 100 kg/m 3 in an 18 m 3 depuration tank. Feed was with-

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Reducing mortality associated with opportunistic infections in Atlantic salmonSalmo salarfry using hydrogen peroxide and peracetic acid

DiCocco

May

Crouse

et al. 2021

Aquaculture Research

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Developing efficacious protocols for applying water disinfectants to reduce opportunistic pathogen‐associated mortalities during the Atlantic salmon Salmo salar fry stage would be highly beneficial for producers. Atlantic salmon fry (0.47 g ± 0.02) were exposed to daily stressors over four weeks while providing daily 30‐min bath treatments of 15 mg/L hydrogen peroxide (H2O2), 0.2 mg/L peracetic acid (PAA) or 0.5 mg/L PAA. Survival was tracked, and skin and gill samples were collected at 2 and 4 weeks for histopathology. Moribund fish were regularly assessed via wet‐mount microscopy, with organisms resembling Saprolegnia spp. routinely observed on gills of affected fish. Tanks treated with H2O2 had significantly (p < 0.05) higher survival (83.7% ± 1.7) compared to controls (69.5% ± 5.2) while no significant differences were observed between either PAA treatments (76.6% ± 0.6 and 77.4% ± 3.0 survival in the 0.2 mg/L and 0.5 mg/L PAA groups, respectively) and controls. Interestingly, no significant differences were noted among treatments for waterborne Saprolegnia spp. concentrations through qPCR quantification. Lower total suspended solids (TSS) were observed in both PAA treatment groups; no other water quality differences were noted. No treatment impacts were observed through histopathology at either sampling point. These results suggest that, at the dosage and treatment regime tested, H2O2 can be a safe and efficacious water treatment for reducing Atlantic salmon fry opportunistic infection‐associated mortality during periods of physical and environmental stress. Assessments of alternative PAA treatment regimens should also be considered in future research aimed at reducing early life‐stage mortality in Atlantic salmon.

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Efficacy of BioRas ® Balance (an enzyme product) to break down hydrogen peroxide following routine treatment applications in aquaculture

May

Good

Redman

et al. 2022

Aquaculture Research

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Natalie Redman

Current research on the genetics of lactic acid production in lactic acid bacteria

Assessing peracetic acid for controlling post‐vaccination Saprolegnia spp.‐associated mortality in juvenile Atlantic salmon Salmo salar in freshwater recirculation aquaculture systems

Water quality, waste production, and off‐flavor characterization in a depuration system stocked with market‐size Atlantic salmon Salmo salar

Reducing mortality associated with opportunistic infections in Atlantic salmonSalmo salarfry using hydrogen peroxide and peracetic acid

Efficacy of BioRas ® Balance (an enzyme product) to break down hydrogen peroxide following routine treatment applications in aquaculture

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