Brad Neuschwanger scite author profile

Bacterial Kidney Disease, caused by Renibacterium salmoninarum (Rs), is widespread and can cause significant mortality at most life stages in infected salmonids. Rs is commonly found in inland trout, which can be carriers of the bacterium. Lethal spawns can be used to control vertical transmission to progeny through the culling of eggs from infected parents, but can be costly, time-consuming, and can negatively impact important and rare brood stocks. Erymicin 200 is an Investigational New Animal Drug (INAD) intended to reduce Rs levels in hatchery brood stocks and control vertical transmission to progeny. We tested the efficacy of Erymicin 200 injections in a positive, hatchery-resident rainbow trout (Oncorhynchus mykiss) brood stock in Colorado, USA. Brood fish age two and three were injected with 25 mg per kg of body weight Erymicin 200 three times prior to spawning. Erymicin 200 was effective in reducing Rs to below detectable levels in treated fish. However, both negative treated and control brood fish produced positive progeny, suggesting that Erymicin 200 did not prevent the vertical transmission of Rs.

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Vertical transmission of Renibacterium salmoninarum in cutthroat trout (Oncorhynchus clarkii)

Riepe

Fetherman

Neuschwanger

et al. 2023

Journal of Fish Diseases

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Pathogens established in aquaculture facilities are often difficult to eliminate without complete depopulation of the host species and decontamination of the unit (Behringer et al., 2020).As such, disease outbreaks can cause high economic and conservation losses (Shinn et al., 2015). Bacterial diseases are often one of the leading causes for high mortality events in hatchery facilities (Sudheesh et al., 2012). The bacteria Aeromonas salmonicida, causing furunculosis, has caused losses of up to 80% (Austin et al., 2007), and bacterial coldwater disease, caused by Flavobacterium psychrophilum, of up to 90% among reared salmonids (Barnes & Brown, 2011;Nilsen et al., 2011). In extreme disease outbreaks, mortality of up to 100% has been observed in rainbow trout (Oncorhynchus mykiss) due to Pseudomonas fluorescens (Pękala-Safińska, 2018). The number of pathogenic bacteria that are being isolated from reared fish has been steadily increasing (Harvel et al., 1999). Thus, understanding the transmission of

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Concentration, Life Stage, Feeding, Density, Flow, and Strain Effects on Formalin Sensitivity in Rainbow Trout (Oncorhynchus mykiss)

Fetherman

Neuschwanger

Praamsma

et al. 2023

Animals

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Formalin is one of the most widely used and effective chemotherapeutic compounds for treatment of fungal infections and external parasites of fish eggs and fish. However, exposure to formalin can cause mortality in eggs and fingerlings, dependent upon the concentration used and the rearing conditions in which fish are treated. Additionally, strains within a species can exhibit differential susceptibility to formalin. Four experiments were conducted to evaluate the differential sensitivity to formalin of four rainbow trout (Oncorhynchus mykiss) strains in both the egg and fingerling life stages. Eggs were exposed to concentrations of 1667, 2000, and 5000 ppm formalin, and sensitivity differed among the strains when formalin concentration exceeded 2000 ppm. Exposure to higher formalin concentrations (i.e., 5000 ppm) as eggs did not increase mortality when fish were re-exposed to concentrations of 0, 167, 250, or 500 ppm formalin at 77 mm total length (TL). Fish size affected formalin sensitivity, with larger fish (128 mm TL) exhibiting higher rates of mortality than fish ≤ 77 mm TL when exposed to 250 ppm formalin. The effects of crowding, feeding, flow, and density on the formalin sensitivity of 77 mm TL fish were also investigated. Mortality increased in fish crowded away from the inflow to prevent contact with formalin as it entered the tank, potentially the result of an increase in density index within the crowded tanks. Feeding fish on the day they were treated caused mortality to increase by 5.4 to 8.8% in fish exposed to 167 and 250 ppm formalin, respectively, and mortality differed by strain. Reducing flows by half resulted in doubled to quadrupled mortality, and increased densities resulted in increased mortality in some strains but not others. Hatchery managers should consider what effect rearing conditions and formalin concentrations might have on the strain of fish being treated, prior to large-scale treatment.

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