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1.
Abstract.— Young-of-the-year (Age 0+) walleyes Stizostedion vitreum were exposed to hydrogen peroxide at 10 mg/L for 1 h in an effort to increase their tolerance to subsequent exposures to hydrogen peroxide at therapeutic concentrations that are considered to be toxic. The effects of age of fish and water hardness on the effectiveness of this pre-treatment protocol were examined. Trials were performed in fish at four ages (50-d, 60-d, 86-d, and 95-d post-hatch) and under three different water quality conditions (soft water: hardness = 64.4 mg/L, alkalinity = 56.5 mg/L; medium hard water: hardness = 103.3 mg/L, alkalinity = 51.5 mg/ L; hard water: hardness = 130.3 mg/L, alkalinity = 92 mg/L). A benefit of pre-treatment was only observed when it was performed under hard water conditions and only with walleyes at 60- and 86-d post hatch. The pre-treatment protocol appeared to be detrimental to fish in the youngest age group (50-d post-hatch) under all three water quality conditions. 相似文献
2.
Hybrid walleye is important for recreational fisheries and is a potential aquaculture species in the north central region of the United States. Stress related to intensive culture conditions has been documented to cause eye lesions in fish. Finfish eyes do not have eyelids, hence the cornea is permanently exposed to mechanical damage and toxic substances. We documented various disorders of the eye in juvenile hybrid walleyes reared in a flow‐through tank system. Abnormalities include exophthalmia, enophthalmia, unilateral loss of globe and bilateral loss of globe. These lesions negatively affected body weight, specific growth rate and condition factor of hybrid walleyes reared in tanks. 相似文献
3.
Hydrogen peroxide has been the only medicine used to treat salmon infected with sea lice [Lepeophtheirus salmonis (Krøyer)] on many farms in Scotland since 1992 and reports have suggested reduced treatment efficacy. The present study tests the sensitivity of sea lice to exposure to hydrogen peroxide under farm conditions and also in vivo by comparing lice from a farm with suspected resistance and lice from a farm that had not been pre‐exposed to hydrogen peroxide. In bin treatments on fish from a farm treated with hydrogen peroxide on 41 occasions, numbers of ovigerous lice declined by only 15% and 16% in two replicates and other mobile stages by 25%. Where hydrogen peroxide had not been used, ovigerous females declined by 90% and 87% and other mobile lice stages by 97% and 99%. These trials and observed poor efficacy of cage treatments, for example only 7.5% reduction in lice numbers when fish were treated with 2000 p.p.m. for 20 mins, indicated resistance of lice to hydrogen peroxide. The mechanisms involved in the development of resistance, possible genetic selection for lice with reduced carapace permeability or detoxifying enzymes such as catalase, or tolerance through induction by subtherapeutic exposure are reviewed. Implications for lice control strategies relying on hydrogen peroxide are discussed. 相似文献
4.
《Journal Of Applied Aquaculture》2013,25(3-4):37-45
Abstract Hydrogen peroxide is increasingly being considered as a therapeutic compound in aquaculture. There is limited information regarding the decomposition rates of hydrogen peroxide under the environmental conditions found in production systems. Thus, the purpose of these experiments was to determine the persistence of hydrogen peroxide under different environmental conditions. Our results indicate that in the presence of aeration and/or organic matter, hydrogen peroxide concentration decreases to below the level of detection within 48-72 hours. Under static water conditions in the absence of aeration and organic matter, hydrogen peroxide concentration decreased to approximately 50% of the original concentration by day 6 and persists decreased to 0 mg/L by day 10. Information on the stability of hydrogen peroxide is essential to evaluate the toxicity of hydrogen peroxide to fish. 相似文献
5.
Dee Montgomery-Brock Vernon T. Sato James A. Brock Clyde S. Tamaru 《Journal of the World Aquaculture Society》2001,32(2):250-254
Ectoparasite infections can cause death or a decline in the general health of farm-raised finfish. This paper reports the findings from two studies conducted to evaluate the efficacy of hydrogen peroxide as a therapeu-tant for the control of infections of Amyloodinium sp. on cultured Pacific threadfin Polydactylus sexfilis (locally called "moi"). Threadfin with amyloodiniasis collected from a commercial farm were used in both trials. Prior to the trials, and following hydrogen peroxide treatment, the extent of infection was determined by a gill biopsy procedure. An initial trial was conducted in the laboratory to assess the response of juvenile threadfin and Amyloodinium sp. trophonts to hydrogen peroxide exposure at four dosages: 0, 75, 150, or 300 mg/L for 30 min. In a trial on a commercial farm, a hydrogen peroxide treatment at 75 mg/L for 30 min was applied to juvenile threadfin in a grow-out tank. In both trials, hydrogen peroxide was immediately flushed from the culture system with sea-water after the 30 min exposure period. In the laboratory trial, treatment with 300 mg/L hydrogen peroxide resulted in 100% mortality of the exposed group of fish. However, single treatments with hydrogen peroxide at concentrations of 75 or 150 mg/L eliminated Amyloodinium sp. trophonts without causing loss of fish. In the field trial, a single treatment with 75 mg/L hydrogen peroxide greatly reduced levels of Amyloodinium infestation, and a second treatment 6 d later reduced Amyloodinium trophonts to a nondetectable level. These findings suggest that hydrogen peroxide is a suitable chemical for the treatment of amyloodiniasis of cultured, juvenile Pacific threadfin. 相似文献
6.
Spawning site fidelity and apparent annual survival of walleye (Sander vitreus) differ between a Lake Huron and Lake Erie tributary 
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下载免费PDF全文 Todd A. Hayden Thomas R. Binder Christopher M. Holbrook Christopher S. Vandergoot David G. Fielder Steven J. Cooke John M. Dettmers Charles C. Krueger 《Ecology of Freshwater Fish》2018,27(1):339-349
Fidelity to spawning habitats can maximise reproductive success of fish by synchronising movements to sites of previous recruitment. To determine the role of reproductive fidelity in structuring walleye Sander vitreus populations in the Laurentian Great Lakes, we used acoustic telemetry combined with Cormack–Jolly–Seber capture–recapture models to estimate spawning site fidelity and apparent annual survival for the Tittabawassee River in Lake Huron and Maumee River in Lake Erie. Walleye in spawning condition were tagged from the Tittabawassee River in Lake Huron and Maumee River in Lake Erie in 2011–2012. Site fidelity and apparent annual survival were estimated from return of individuals to the stream where tagged. Site fidelity estimates were higher in the Tittabawassee River (95%) than the Maumee River (70%) and were not related to sex or fish length at tagging. Apparent annual survival of walleye tagged in the Tittabawassee did not differ among spawning seasons but was higher for female than male walleye and decreased linearly as fish length increased. Apparent annual survival of walleye tagged in the Maumee River did not differ among spawning seasons but was higher for female walleye than male walleye and increased linearly as fish length increased. Greater fidelity of walleye tagged in the Tittabawassee River than walleye tagged in the Maumee River may be related to the close proximity to the Maumee River of other spawning aggregations and multiple spawning sites in Lake Erie. As spawning site fidelity increases, management actions to conserve population structure require an increasing focus on individual stocks. 相似文献
7.
《Journal Of Applied Aquaculture》2013,25(3):39-49
The toxicity of hydrogen peroxide (H2O2) to fingerling (80-160 mm total length) walleye, Stizostedion vitreum, was evaluated. Walleye were exposed in a 1 hour static bath to 50, 75, 100, 200, 225, 250, 400, and 600 ppm (µL/L) active ingredient (H2O2) in five experiments. Three to six replicates of each concentration were used in each experiment, with 25 fish per replicate. After resuming flow, concentrations of H2O2 in the tanks declined by 23.8% every hour, reaching 0 ppm (µL/L) about 3.5 hours after treatment. Mortalities, as well as dissolved oxygen, temperature, and H2O2 concentrations were monitored at 1, 12, 24, 48, 72, and 96 hours. Dissolved oxygen concentrations increased 0.25-1.16 ppm (µL/L) 1 hour after the addition of H2O2, because of the dissociation of H2O2 (2H2O2→2H2O + O2). The LC50 following a single 1-hour exposure ranged from 145.1 ppm (µL/L) at 12 hours to 142.8 ppm (µL/L) at 96 hours, which indicates that the toxic effect is mainly from initial contact. The toxicity threshold for walleye is about 50 ppm (µL/L) (1.3% mortality at 96 hours following 1 hour exposure). Other studies indicate that rainbow trout, Oncorhynchus mykiss, tolerate up to 250 ppm (µL/L) for 1 hour, but fingerling walleye should not be exposed to more than 50 ppm (µL/L) for the same exposure interval. 相似文献
8.
Determination of primary structure of amberjack myosin heavy chain and its relationship with structural stability of various fish myosin rods 总被引:1,自引:0,他引:1
Reina Kawabata Nobuyuki Kanzawa Masahiro Ogawa Takahide Tsuchiya 《Fish physiology and biochemistry》2000,23(4):283-294
The structural stability of fish myosin depends upon species and temperatures of water in which fish live. Primary, secondary, and quaternary structures of myosin heavy chain (MyHC) from three species of fish living at different temperature ranges have been compared with those of rabbit MyHC in order to investigate the differences in stability. Primary structure of MyHC, although being accessible for warm-water and cold-water fish (carp and walleye pollack), was not available in previous for tropical-water fish literature; so in this study primary structure of MyHC of the tropical-water fish amberjack has been determined by cloning and sequencing its cDNA. The MyHC has 1938 amino acid residues (AA), which are almost as much as as those of carp and walleye pollack. The amberjack MyHC is 91–95% homologous with other fish and rabbit MyHCs. There is a discernible difference between animal species with stable myosin rod (amberjack, carp, and rabbit) and walleye pollack with unstable rod. Stable rod species have a high probability of forming coiled-coil around the COOH-terminal end of the rod, while the pollack has a low coiled-coil formation probability. In addition, the average scores of the coiled-coil for myosin rod were rabbit (1.738) > amberjack (1.691) > carp (1.680) > walleye pollack (1.674) which correlated exactly with the observed stability. The results suggest that coiled-coil forming ability, particularly around the COOH-terminal end, directs structural stability of fish myosin rod. 相似文献
9.
Some species of fish are more tolerant of rotenone, a commonly used non-specific piscicide, than others. This species-specific tolerance to rotenone has been thought to be associated with the uptake and the efficiency at which the chemical is detoxified. However, rotenone stimulates oxidative stress and superoxides, which are also toxic. Understanding the modes in which fish physiologically respond to rotenone is important in developing improved protocols for its application in controlling aquatic nuisance species. Using a molecular approach, we investigated the physiological and molecular mechanisms of rotenone resistance. Species-specific responses were observed when rotenone-sensitive silver, Hypophthalmichthys molitrix, and both rotenone-resistant bighead carp, Hypophthalmichthys nobilis, and bigmouth buffalo, Ictiobus cyprinellus, were exposed to rotenone. Rotenone levels in plasma were highest 90?min after exposure in both silver carp and bigmouth buffalo, but bigmouth buffalo tolerated over twice the burden (ng?mL(-1)?g(-1)) than silver carp. Expression of genes related with detoxification (cyp1a and gst) increased in silver carp, but either decreased or remained the same in bighead carp. Genes linked with oxidative stress in the cytosol (gpx, cat and sod1) and hsp70 increased only in silver carp after a 6-h exposure. Expression of genes associated with oxidative stress in the mitochondria (sod2 and ucp2) differed between silver carp and bighead carp. Expression of sod2 changed minimally in bighead carp, but expression of ucp2 linearly increased to nearly 85-fold of the level prior to exposure. Expression of sod2 and ucp2 did not change until 6?h in silver carp. Use of sod1 and sod2 to combat oxidative stress results in hydrogen peroxide production, while use of ucp2 produces nitric oxide, a chemical known to inhibit apoptosis. We conclude that the mechanism at which a fish handles oxidative stress plays an important role in the tolerance to rotenone. 相似文献
10.
Amoebic gill disease (AGD) of Atlantic salmon is treated commercially by bathing affected fish in freshwater. Recently, the efficacy of freshwater bathing has been questioned, and the aim of this study was to examine the potential for improving bathing efficacy using additives to the freshwater bath. AGD‐affected Atlantic salmon were bathed in 350 L tanks containing oxygenated freshwater to which chlorine dioxide (0–50 mg L?1), chloramine‐T (0–50 mg L?1) or hydrogen peroxide (0–100 μL L?1) was added. Before and following a 3‐h exposure to the freshwater and chemical additive, the gills were removed from a sub‐sample of fish and the number of live amoebae on the gills were counted and smears made for confirmation of the presence of Neoparamoeba pemaquidensis, the causative agent of AGD. Following a further 3‐h exposure, a sub‐sample of fish was bled from the caudal vein and the gills were removed for histological examination. Chlorine dioxide and chloramine‐T at 25–50 and 10–50 mg L?1, respectively, reduced the number of amoebae on the gills by approximately 50% compared with pre‐exposure numbers. The results from hydrogen peroxide treatment were equivocal and the toxicity of hydrogen peroxide was high. The toxicity of chlorine dioxide varied with freshwater hardness and/or suspended solid load, whereas chloramine‐T toxicity was low, with mortalities attributable only to elevated temperatures at the highest concentration tested. In conclusion, chlorine dioxide and chloramine‐T show promise as potential freshwater additives for the improved removal of N. pemaquidensis and possibly, other amoebae from the gills of commercially farmed Atlantic salmon. 相似文献
11.
Charles C. Mischke Jeffery S. Terhune David J. Wise 《Journal of the World Aquaculture Society》2001,32(2):184-188
Proliferative gill disease (PGD) is a serious problem in the farm-raised channel catfish Ictalurus punctatus industry. Interrupting the life cycle of the sporozoan causative agent by eliminating Dero digitata worms from culture ponds would be one method of controlling PGD. Eight chemicals—sodium chloride, hydrogen peroxide, formalin, potassium permanganate, liquid copper sulfate, chloramine-T, rotenone and Bayluscide—were tested for acute toxicity against D. digitata . Static, single compound acute toxicity tests were conducted using three replications (10 worm/replicate) of six chemical concentrations and a control. Spearman-Karber analysis was used to calculate 24- and 48-h LC50 concentrations based on active ingredient for each compound. Calculated 24-h LC50 values were: sodium chloride 6,800 mg/L, hydrogen peroxide 13.2 μL/L, formalin 23.3 μL/L, potassium perrnanganate 5.7 mg/L, copper sulfate 7.6 mg/L, chloramine-T 29.5 mg/L, rotenone 0.26 μL/L, and Bayluscide 0.24 mg/L. Formalin and hydrogen peroxide may be options for eliminating D. digitata populations in ponds with fish because their LC50 concentrations were consistent with safe concentrations for fish. Rotenone, Bayluscide, chloramine-T, formalin, and potassium permanganate may be useful as a pond sterilization strategy by treating fingerling ponds prior to stocking fish each year. However, the presence of substrate and organic matter in ponds could impact the efficacy of the chemicals and D. digitata's response to treatment. Treatments should be further evaluated to determine field efficacy, procedures for use, and effects on cost of production. 相似文献
12.
Abstract – Piscivorous fish can affect prey growth in two ways: directly by reducing prey density and indirectly by inducing predator-avoidance behaviors. We investigated these two pathways in yellow perch ( Perca flavescens ) growth responses to walleye ( Stizostedion vitreum ) stocking in Canadarago Lake, New York (USA) using a 25-year time series. Before walleye stocking, yellow perch growth rate was low and independent of body size. As walleye abundance increased, yellow perch growth increased and became size-dependent. The switch to size-dependent growth occurred in 1 year, indicating a rapid behavioral response to predators. Mean growth rate increased more gradually and was linearly related to walleye density, indicating a slower numerical effect of walleye on yellow perch densities. Although the net effect was an increase in perch growth, small perch growth initially decreased as walleye became established. Therefore, the combination of numerical and behavioral effects produced a complex pattern of size-dependent changes in growth of yellow perch. 相似文献
13.
The influence of water levels on population characteristics of yellow perch, Perca flavescens (Mitchill), and walleye, Sander vitreus (Mitchill), was evaluated across a range of glacial lakes in north‐eastern South Dakota, USA. Results showed that natural variation in water levels had an important influence on frequently measured fish population characteristics. Yellow perch abundance was significantly (P < 0.10) greater during elevated water levels. Yellow perch size structure, as indexed by the proportional size distribution of quality‐ and preferred‐length fish (PSD and PSD‐P), was significantly greater during low‐water years, as was walleye PSD. Mean relative weight of walleye increased significantly during high‐water periods. The dynamic and unpredictable nature of water‐level fluctuations in glacial lakes ultimately adds complexity to management of these systems. 相似文献
14.
M. C. Ward D. W. Willis B. R. Herwig S. R. Chipps B. G. Parsons J. R. Reed M. A. Hanson 《Ecology of Freshwater Fish》2008,17(1):59-70
Abstract – Fisheries managers throughout the Prairie Pothole Region of Minnesota often use semi-permanent and permanent wetland basins to extensively culture walleye Sander vitreus fry. Waterfowl managers have expressed concern over this practice because of the potential influence that fish have on food resources used by waterfowl during development and migration. It is well known that native fathead minnows Pimephales promelas can have detrimental effects on macroinvertebrates, zooplankton, water clarity, epiphyton, and macrophytes in wetlands. Because walleye commonly become piscivorous as soon as mouth gape allows, walleye fry may suppress fathead minnow populations and improve wetland conditions for waterfowl. In this study, we quantify consumption estimates, specifically predation on fathead minnows, by age-0 and age-1 walleye reared in natural wetland basins. Six wetlands were stocked in mid-May 2001 and 2002 at a rate of 12,000 walleye fry ha–1 . Age-0 walleye were sampled bi-weekly from mid-June through mid-September 2001. Age-0 and age-1 walleye were sampled monthly from mid-May through mid-September 2002. A generalised diet shift from zooplankton to fish to macroinvertebrates was observed in 2001, whereas diets of juvenile walleye contained primarily macroinvertebrates in 2002. Stocked walleye quickly reduced fathead minnow populations in 2001 and suppression was maintained throughout 2002. Although walleye consumed primarily macroinvertebrates once prey fish populations became suppressed, consumption estimates of invertebrates by walleye were substantially less than those documented for fathead minnow populations. Thus, stocking age-0 walleye was an effective biomanipulation tool that substantially reduced fathead minnow densities and influenced lower trophic levels in these aquatic communities. 相似文献
15.
João Chambel Ricardo Costa Mónica Gomes Susana Mendes Teresa Baptista Rui Pedrosa 《Aquaculture International》2014,22(6):1743-1751
The aim of this study was to evaluate the effect of hydrogen peroxide, iodine solution (PVP) and methylene blue on eggs disinfection of three ornamental fish species, Danio rerio, Pterophyllum scalare and Gymnocorymbus ternetzi. The main idea was to create conditions to enhance the hatching rates. Eggs of each species were exposed to different concentrations of hydrogen peroxide (5, 10, 15 and 25 mg/L), PVP (0.25, 0.5, 0.75 and 1 mg/L) and methylene blue (0.5 1, 2 and 3 mg/L). The optimal doses ranged between species and chemicals: for G. ternetzi, the concentrations that high enhanced the hatching rate were 1 mg/L for the PVP treatment, 25 mg/L for the hydrogen peroxide treatment and 3 mg/L for methylene blue treatment; for P. scalare, the best results were achieved with 25 mg/L for hydrogen peroxide treatment and 3 mg/L for methylene blue treatment. By contrast, for all the different chemical did not increased the D. rerio hatching rate. Results showed that hydrogen peroxide and methylene blue are the most versatile, effective and safe to use in these species. On the other hand, PVP can be used but with many precautions due to very low safety margin. Results clearly show that the optimal concentration of chemicals for eggs disinfection is fish species dependent and it is completely wrong to extrapolate concentrations between different chemicals and fish species. Our study suggests that P. scalare can be used as a model in study of effectiveness of new chemicals with potential to disinfect water and increase hatching rates. 相似文献
16.
Walleye pollock Theragra chalcogramma is the most popular fish in Korea, often being used in a variety of food delicacies. However, since 2000, production of walleye pollock from distant-water fishing has been rapidly decreasing, and its domestic production is slowly dying out. Therefore, supply of walleye pollock to the Korean market has become heavily dependent on imports. Based on the supply–demand situation of walleye pollock in the Korean market and analyses of its production and markets, it can be undoubtedly predicted that there is a large potential for consumption of walleye pollock. From past records of walleye pollock consumption, Korea’s potential walleye pollock consumption can be estimated to be around 500,000 tons. However, it seems that the prospect of supplying such a high demand is not very bright. 相似文献
17.
This study aimed to evaluate the effect of enriching Artemia nauplii with vitamin C (ascorbyl-6 palmitate) or vitamin E (α-tocopherol acetate), 20% w/w, together with a mixture of concentrated eicosapentaenoic acid (EPA, 20:5 n-3) and docosahexaenoic acid (DHA, 22:6 n-3) on the growth, survival, and stress resistance of fresh water walleye Stizostedion vitreum larvae. Either cod liver oil (CLO) or EPA/DHA ethyl esters concentrate was used as lipid sources in the Artemia enrichment. Walleye larvae were fed ad libitum for 40 days. At day 40, submersion in salt water (25 g L−1 ) was performed to evaluate larvae resistance to stress. EPA and DHA levels in walleye juveniles fed EPA/DHA-enriched Artemia increased significantly, by an average of 650% compared with fish fed non-enriched Artemia . A significant increase was found for vitamins C (71.8 ± 1.0 and 42.7 ± 1.2 μg g−1 wet weight (WW)) and E (17.0 ± 3.7 and 6.5 ± 0.9 μg g−1 WW) concentrations in fish fed enriched and unenriched Artemia , respectively. Growth was comparable throughout treatments, whereas survival was significantly higher in fish fed CLO-enriched Artemia nauplii compared with fish fed Artemia nauplii enriched with EPA/DHA concentrate. The addition of vitamin C increased fish survival by 1.4-fold compared with fish fed Artemia enriched with only EPA/DHA concentrate. The survival of the latter was similar to control fish ( Artemia without enrichment). The supplementation of vitamin E did not affect fish survival significantly. Stress tests revealed that the resistance of walleye larvae to salinity changes increased when Artemia enrichment was supplemented with vitamin C. However, walleye larvae fed CLO-enriched Artemia had the best performances in the stress test. 相似文献
18.
Walleye Sander vitreus (Mitchill) are relatively resistant to experimental infection with VHSV IVb and extant walleye strains vary in susceptibility 下载免费PDF全文
下载免费PDF全文 J Grice A Reid A Peterson K Blackburn L Tubbs S Lord P Huber R Horricks B Dixon N C Bols J S Lumsden 《Journal of fish diseases》2015,38(10):859-872
19.
Effect of hydrogen peroxide as treatment for amoebic gill disease in Atlantic salmon (Salmo salar L.) in different temperatures 下载免费PDF全文
下载免费PDF全文 Kristine Hov Martinsen Audur Thorisdottir Marie Lillehammer 《Aquaculture Research》2018,49(5):1733-1739
Amoebic gill disease (AGD) is a pathogenic disease in salmonids caused by Neoparamoeba perurans. Treatment of AGD infection has been through freshwater bathing of the fish. However, as the availability of fresh water is often limited, hydrogen peroxide has been introduced as an alternative treatment. This study investigated the effect of hydrogen peroxide as treatment for AGD‐infected salmon (Salmo salar L.,) at different seawater temperatures and hydrogen peroxide dosages. In total, 600 fish were challenged with N. perurans and the severity of the AGD infection was measured using a gill score scale. After challenge and disease development, the fish were distributed into 12 tanks. The treatment was performed at different seawater temperatures (8°C, 12°C, 17°C) using different hydrogen peroxide doses. Each temperature included an untreated control group. Linear models were used to analyse gill score. A significant effect of treatment was found (?0.68 ± 0.05) regardless of dose and temperature, suggesting that hydrogen peroxide was effective in treating AGD. When the model included dose, a negative linear relationship between dose and gill score was found. The study proved that treatment of AGD with hydrogen peroxide was successful, as gills partially recovered following treatment and further disease development was delayed. 相似文献
20.
Amoebic gill disease (AGD) of cultured salmonids in Tasmania is caused by the amphizoic parasitic amoeba Neoparamoeba pemaquidensis. The freshwater tolerance of amoebae isolated from the gills of AGD-affected salmon (predominantly N. pemaquidensis) was tested in vitro using a trypan blue exclusion assay. Amoebae exposed to water containing high concentrations of Ca2+ or Mg2+ (200 mg l−1) showed high levels of survival up to 3 h of exposure. Exposure to water containing elevated Na+, choline chloride or water at different pH all had no significant survival of amoebae. Exposure of amoebae to different concentrations of chlorine dioxide, chloramine-T or hydrogen peroxide in artificially hard water demonstrated that chloramine-T and hydrogen peroxide were the most efficacious at killing amoebae in vitro. This work suggests that the hardness of freshwater may be an important factor for the survival of marine amoebae (predominantly N. pemaquidensis) on the gills of AGD-affected salmon and have significant implications with regard to the efficacy of freshwater bathing practices for the control of AGD on farms. Additionally, chloramine-T and hydrogen peroxide appear to be efficacious at killing marine gill amoebae in vitro and may be useful for the control of AGD in farmed Atlantic salmon. 相似文献