养殖虹鳟与大西洋鲑肉质和营养成分比较研究

试验选取10尾贵州都匀养殖场的虹鳟(1562±32)g和10尾市场出售的挪威大西洋鲑(1856±45 g),采集其背部肌肉,分别进行质构特性及营养成分分析。结果表明:质构特性上,虹鳟肌肉的失水率显著低于大西洋鲑(P<0.05),剪切力显著高于大西洋鲑(P<0.05);常规成分中,虹鳟肌肉的粗脂肪含量显著低于大西洋鲑(P<0.05),二者的粗蛋白含量无显著差异(P>0.05);脂肪酸组成上,虹鳟肌肉的n-6多不饱和脂肪酸含量显著低于大西洋鲑(P<0.05),但基于脂肪酸组成获得的饱和度(S/P)、动脉粥样硬化指数(AI)、凝血指数(TI)和降胆固醇/致高血脂比率(HH)等指标无显著性差异(P>0.05);氨基酸组成方面,虹鳟肌肉内的人体必需氨基酸比例显著低于大西洋鲑(P<0.05),鲜味氨基酸含量显著高于大西洋鲑(P<0.05)。结果表明,养殖虹鳟在肉质质构上相比大西洋鲑较“干硬”,且虹鳟肌肉多不饱和脂肪酸和必需氨基酸含量均低于大西洋鲑。     

Relation of Water Temperature to Bacterial Cold-Water Disease in Coho Salmon,Chinook Salmon,and Rainbow Trout

Abstract

The effect of water temperature on the progress of experimentally induced Cytophaga psychrophila infection was investigated in juveniles of coho salmon Oncorhynchus kisutch, chinook salmon O. tshawytscha, and rainbow trout O. mykiss (formerly Salmo gairdneri). A virulent strain of C. psychrophila was administered to fish by subcutaneous injection. Infected fish were held in tanks containing pathogen-free well water at temperatures ranging from 3 to 23°C. Mean times from infection to death of the fish were shortest at 12–15°C, which were the temperatures associated with the shortest time for doubling the population of this bacterium in vitro. Juvenile steelhead (anadromous rainbow trout) injected with viable C. psychrophila cells and held in 22°C water did not become diseased.     

Effects of Salinity on Yersinia ruckeri Infection of Rainbow Trout and Brown Trout

Abstract

Juvenile rainbow trout Oncorhynchus mykiss and brown trout Salmo trutta acclimated to freshwater or salinities of 9.0‰ or less were exposed to Yersinia ruckeri, the bacterial pathogen that causes enteric redmouth disease (ERM). Both species of fish were kept in the same recirculating systems after bacterial exposure. Rainbow trout mortality was significantly (P < 0.05) different in each salinity: 96.5% in freshwater, 89.5% in water of 1.1‰ salinity, 81.3% in 3.0‰ salinity, and 75.0% in 9.0‰ salinity (model SE = 1.0). All deaths occurred between 3 and 12 d after exposure to Y. ruckeri. Only 2.3% of brown trout in all salinities died, and differences among treatments were not significant. For both fish species, Y. ruckeri was isolated from liver, spleen, and trunk kidney of fish dying during this experiment, and lesions of rainbow trout were consistent with ERM. Yersinia ruckeri was not isolated from brown trout surviving for 21 d after bacterial exposure but was isolated from 3 of 24 surviving rainbow trout; a polymerase chain reaction assay detected the DNA of Y. ruckeri in 3 additional rainbow trout survivors. Neither the lesions of fish with ERM nor the percentage of surviving fish subclinically infected with Y. ruckeri was affected by salinity. Bacterial growth in vitro was not affected by low (≤9.0‰) salinity; however, bacterial adhesion to polystyrene was significantly reduced as salinity increased. Although mortality caused by Y. ruckeri was significantly lower for rainbow trout in water with slightly increased salinity, none of the salinities tested was effective in preventing serious losses caused by this pathogen in recirculating systems.     

The Impact of Egg Ozonation on Hatching Success,Larval Growth,and Survival of Atlantic Cod,Atlantic Salmon,and Rainbow Trout

The direct exposure of fish eggs to ozonated water has generated interest as a means of ensuring pathogen-free eggs without the use of harsh chemicals. However, there are numerous knowledge gaps, including safe contact times, exposure levels, and potential long-term effects on aquaculture species in both freshwater and seawater. The effect of different ozone (O₃) doses (0.5–1.0, 1.5–2.0, and 2.5–3.0 mg of O₃/L for 90 s) on recently fertilized eggs of Atlantic Cod Gadus morhua and eyed eggs of Atlantic Salmon Salmo salar and Rainbow Trout Oncorhynchus mykiss was evaluated in comparison with the effects of two commercial disinfectants: Perosan (0.004 mg/L) and Ovadine (100 mg/L). The impact of ozone application was evaluated based on hatching success, larval nucleic acid concentration, larval growth, and survival. Overall, results indicated that ozonation of Atlantic Cod eggs at a dose less than 3.0 mg/L for 90 s produced no negative effect on the larvae up to 30 d posthatch. Furthermore, ozonation of Atlantic Salmon and Rainbow Trout eggs generated no negative effect on the larvae, based on monitoring until 85% yolk sac re-absorption (16 d posthatch).

Received May 6, 2014; accepted October 24, 2014     

Experimental Infection of Rainbow Trout with Saprolegnia parasitica

Abstract

A method was developed to experimentally induce saprolegniasis in rainbow trout Oncorhynchus mykiss. The development of a reliable method to produce infected fish is essential to efforts to determine the efficacy of various antifungal treatments. Three methods for inducing saprolegniasis were evaluated in waters containing known concentrations of Saprolegnia parasitica zoospores. These methods included application of the following stressors to fish: (1) abrasion and dewatering, (2) water temperature increase, and (3) a combination of abrasion, dewatering, and temperature increase. Neither physical abrasion nor temperature increase stress alone was effective for inducing saprolegniasis. Only 25.9% of fish stressed by abrasion and dewatering alone became infected. Application of both abrasion and temperature stress, however, induced saprolegniasis in 77.8% of fish tested. Most of these fish became infected after 5 d of stress treatments. No fish became infected or died in the positive control group (not stressed but exposed to S. parasitica zoospores) or the negative control group (not stressed or challenged). This method should enable researchers to induce saprolegniasis in rainbow trout to study its pathogenesis or to test the efficacy of antifungal treatments. In conducting efficacy studies, it is important that therapeutic treatments begin promptly after the first signs of saprolegniasis are observed because the disease can progress very quickly and often results in mortality.     

Epidermal Tumors on Rainbow Smelt and Atlantic Salmon from Nova Scotia

Abstract

Epidermal tumors on rainbow smelt Osmerus mordax are described in detail for the first time. These tumors apparently progress from small preneoplastic lesions to papillomas, and to carcinomas on some males. These tumors and similar tumors on Atlantic salmon Salmo salar have not been previously reported from Canada. Tumors were found on rainbow smelt mainly in freshwater during the spring spawning run and on Atlantic salmon grilse in freshwater in October, These tumors varied in size and number on each fish. The smaller growths were usually translucent and whitish, with a smooth surface. Some larger tumors were papillomatous and appeared reddened because of increased vascularization. Preneoplastic lesions and papillomas had a thickened epidermis with an intact basement membrane, and most of the cells were enlarged. fn papillomas of rainbow smelt, tumor cells that were not close to papillae were vacuolated, and necrotic regions were present. Carcinomas on the heads of male rainbow smelt had regions of pleomorphic cells which invaded the subepithelial tissues and penetrated the cartilage of the mandible of two specimens found in brackish and seawater. Intranuclear basophilic inclusions suggestive of a viral agent were present in the tumors of both rainbow smelt and Atlantic salmon.     

Early Life Stage Survival and Susceptibility of Brook Trout,Coho Salmon,Rainbow Trout,and Their Reciprocal Hybrids to Infectious Hematopoietic Necrosis Virus

Abstract

Triploid (heat-shocked) and diploid groups of rainbow trout Oncorhynchus mykiss, brook trout Salvelinus fontinalis, coho salmon Oncorhynchus kisutch, and reciprocal hybrids were produced, monitored for early life stage survival, and evaluated for susceptibility to infectious hematopoietic necrosis virus (IHNV). The female rainbow trout × male brook trout triploid hybrids had significantly greater (P < 0.01) survival than the diploid hybrids of this cross. The heat-shocked hybrid group of the female rainbow trout × male coho salmon also exhibited significantly greater survival to the eyed egg stage of development than the untreated group of this hybrid. Studies of the susceptibility of treatment groups to a 1990 IHNV isolate from the Hagerman Valley were conducted by using a standardized immersion exposure procedure at one or two different mean body weights. The diploid brook trout and coho salmon and two triploid hybrids (female rainbow trout × male brook trout or male coho salmon) were significantly less (P < 0.05) susceptible to IHNV than the pure-species diploid and triploid rainbow trout groups.     

Comparison of Susceptibility of Five Cutthroat Trout Strains to Myxobolus cerebralis Infection

Abstract

Susceptibility to infection by the myxosporean parasite Myxobolus cerebralis was compared among strains of cutthroat trout Oncorhynchus clarki in two separate exposure tests in the laboratory. In both tests, each strain was exposed to 1,000 triactinomyxons/fish for 2 h in 8.0 L of water. In the first test, three strains of 10-week-old cutthroat trout were compared: two strains of Bonneville cutthroat trout O. c. utah (Bear Lake and southern Bonneville strains) and Yellowstone cutthroat trout O. c. bouvieri. In the second test, these strains plus Snake River fine-spotted cutthroat trout O. c. subsp. and Colorado River cutthroat trout O. c. pleuriticus were exposed at either 5 or 10 weeks of age. The prevalence of the M. cerebralis infection was determined by single-round polymerase chain reaction (PCR) assay 5 weeks after exposure. In the first test, the prevalence was significantly lower in the Bear Lake strain of Bonneville cutthroat trout (78.5%) than in the Yellowstone (97.8%) or southern Bonneville (100%) strains when exposed at 10 weeks of age. In the second test, the Bear Lake strain also had significantly lower infection rates after exposure at 5 (54%) or 10 weeks (82%) of age than the other four strains, which did not differ from each other (94–100%). The severity of the infection was also significantly reduced in Bear Lake Bonneville cutthroat trout, as suggested by the strength of the product of the single-round PCR assay. These results suggest that intraspecific differences in susceptibility to M. cerebralis infection exist, further supporting the need to maintain the genetic diversity among subspecies and geographic variants of cutthroat trout.     

Gill Infection Model for Columnaris Disease in Common Carp and Rainbow Trout

Challenge models generating gill lesions typical for columnaris disease were developed for the fry of both Common Carp Cyprinus carpio and Rainbow Trout Oncorhynchus mykiss by means of an immersion challenge and Flavobacterium columnare field isolates were characterized regarding virulence. Carp inoculated with highly virulent isolates revealed diffuse, whitish discoloration of the gills affecting all arches, while in trout mostly unilateral focal lesions, which were restricted to the first two gill arches, occurred. Light microscopic examination of the gills of carp exposed to highly virulent isolates revealed a diffuse loss of branchial structures and desquamation and necrosis of gill epithelium with fusion of filaments and lamellae. In severe cases, large parts of the filaments were replaced with necrotic debris entangled with massive clusters of F. columnare bacterial cells enwrapped in an eosinophilic matrix. In trout, histopathologic lesions were similar but less extensive and much more focal, and well delineated from apparently healthy tissue. Scanning and transmission electron microscopic observations of the affected gills showed long, slender bacterial cells contained in an extracellular matrix and in close contact with the destructed gill tissue.

This is the first study to reveal gill lesions typical for columnaris disease at macroscopic, light microscopic, and ultrastructural levels in both Common Carp and Rainbow Trout following a challenge with F. columnare. The results provide a basis for research opportunities to examine pathogen–gill interactions.

Received January 10, 2014; accepted July 27, 2014     

Investigation of the Link between Broodstock Infection,Vertical Transmission,and Prevalence of Flavobacterium psychrophilum in Eggs and Progeny of Rainbow Trout and Coho Salmon

Abstract

The etiological agent of bacterial coldwater disease (BCWD), Flavobacterium psychrophilum, can be transmitted both vertically and horizontally. Outbreaks of BCWD can result in significant losses in salmonid aquaculture. Reduction of outbreaks in fry may be possible through implementation of a management strategy in which progeny of heavily infected broodstock are culled from the general population. Diagnostic assays to quantify F. psychrophilum concentrations in tissue samples and confirm presence of the bacterium in ovarian fluid have been previously validated. In the current study, these assays were used to screen 60 female Rainbow Trout Oncorhynchus mykiss and 60 female Coho Salmon O. kisutch broodstock at two aquaculture facilities. Eyed eggs from 10 female broodstock (five fish from each facility) exhibiting graded levels of infection were transferred to the University of Idaho and monitored through early life stages for the presence of F. psychrophilum. Female Rainbow Trout broodstock were not positive for F. psychrophilum by enzyme-linked immunosorbent assay (ELISA) and prevalence was low in these progeny. However, ELISA optical density values for kidney correlated to F. psychrophilum prevalence in progeny (r = 0.938, P < 0.05) of Coho Salmon. Nested PCR on ovarian fluid was not a reliable indicator of vertical transmission in either species as broodstock ovarian fluid results did not correlate to F. psychrophilum prevalence in eyed eggs. Further research with these assays is necessary; however, results from this study indicate that broodstock screening may be a potential tool for evaluating F. psychrophilum infection levels, which could become an important component for disease management.

Received December 19, 2012; accepted December 8, 2013     

An Uncommon Presentation of Fungal Infection in Atlantic Salmon Fry

Abstract

Moribund fry from several families of Atlantic salmon Salmo salar had a conspicuous cranial defect that corresponded with 18.3% (SD, 4.5%) mortality of fry. The lesion was characterized by a domed, epithelium-covered swelling centered over the optic tectum. The swelling was an edematous reaction to the extension of a fulminating necrotizing mycotic stomatitis and bronchitis into the cranial tissues including the ventral meninges. An oomycete is believed to be the pathogen. The percentage mortality of fry in each separately reared family ranged from 1.0 to 63.3%. An analysis of variance revealed that the differences in mortality among families were significant (P < 0.0001), and that the difference between replicates of each family, reared apart, were not significant. A possible genetic basis for resistance to fungal infection is discussed.     

Early Kinetics of Infectious Hematopoietic Necrosis Virus (IHNV) Infection in Rainbow Trout

Abstract

A series of experiments was carried out with infectious hematopoietic necrosis virus (IHNV; 193-110 isolate) in rainbow trout Oncorhynchus mykiss (weight, ～1.2 g) to determine the duration of the patent period and the timing of onset of the infectious periods. We first attempted to transmit IHNV to recipient fish from infected rainbow trout 2–3 d after they had been exposed. No infection transfer occurred despite high titers (10^4.79 to 10^4.91 plaque-forming units 5–8 d postexposure (dpe). To determine the number of secondary cases produced by one infectious individual, we exposed approximately 50 rainbow trout (weight, ～1.5 g) in each of seven replicate tanks to a donor fish that had been infected with virus by bath exposure 3 d earlier. The prevalence of infection in recipient fish rose from 0.84% at 2 dpe to 7.9% at 6 dpe. Maximum incidence (22 cases) occurred between 2 and 4 dpe. No disease-specific mortalities occurred in recipient fish during the experiment. The titer of virus in both recipient and donor fish increased from 2 to 4 dpe. There was a positive correlation between the level of infection among donors and prevalence values among recipient fish (r ² = 0.60). The level of challenge by one infectious fish under the conditions provided was enough for infection transfer from sick cohabitant to susceptible fish but was not enough for initiation of a full-scale epizootic among recipients.     

A Comparative Investigation of Arcobacter cryaerophilus Infection among Albino Crosses and High- and Low-Body-Weight Rainbow Trout

Abstract

Arcobacter cryaerophilus was isolated from naturally infected rainbow trout Oncorhynchus mykiss, and its pathogenicity was tested by intramuscular injection into healthy 1-year-old high-body-weight (HBW) and low-body-weight (LBW) normally pigmented rainbow trout and albino crosses. Experimental infections caused deaths with gross clinical abnormalities such as exophthalmia, liver damage, bloody hemorrhagic kidney and heart, and swollen intestines. No significant differences in deaths were observed among the three infected fish groups. Hematocrit levels in blood of the experimentally infected HBW rainbow trout were significantly less than in healthy fish. No significant decreases were observed in the serum total protein of both the experimentally infected albino crosses and the high weight groups. Albumin and creatinine concentrations in serum were not significantly different among the three treatments.     

Toxicity of Copper Sulfate to Flavobacterium psychrophilum and Rainbow Trout Eggs

Abstract

Tests were conducted to determine the concentrations of copper sulfate needed to kill Flavobacterium psychrophilum, the cause of bacterial coldwater disease, either in vitro or on Rainbow Trout Oncorhynchus mykiss eggs. For the in vitro test, a plastic strip dipped in a solution of F. psychrophilum was exposed for 15 min to copper sulfate solutions of 0, 1, 5, 10, 20, 35, 50, 75, or 100 mg/L. Bacteria were “too numerous to count” at concentrations ≤10 mg/L CuSO₄; significant reductions in prevalence relative to untreated controls were noted for concentrations ≥35 mg/L. However, CFUs were still observed at 50 and 75 mg/L (20% of plates with tryptone yeast extract salts media). No yellow-pigmented CFUs typical of F. psychrophilum were observed at 100 mg/L CuSO₄. For the in vivo test, eggs were exposed for 15 min to 100, 300, 500, and 700 mg/L CuSO₄ or 100 mg/L iodine (control). Survival to hatch was significantly lower at 500 (44.3 ± 15.2%, mean ± SD) or 700 mg/L CuSO₄ (1.7 ± 0.8%) than for controls treated with 100 mg/L iodine (93.6 ± 0.9%) or at copper sulfate concentrations ≤300 mg/L. The 15-min LD₅₀ and LD₁₀ for copper sulfate were 461 mg/L (95% confidence interval: 457–466 mg/L) and 259 mg/L (251–266 mg/L). The prevalence of yellow CFUs at 100 mg/L CuSO₄ (40.0%) was significantly higher than in untreated controls. Significant reductions in yellow CFUs were achieved using 300, 500, or 700 mg/L CuSO₄ (7.5, 2.5, or 0.0% of plates with CFUs, respectively) or 100 mg/L iodine (2.5%), relative to untreated control eggs. Overall, since the concentrations of copper sulfate required to eliminate F. psychrophilum were toxic to the eggs, copper sulfate is not recommended for coldwater disease control in Rainbow Trout eggs based on conditions and parameters in this study.

Received July 7, 2011; accepted March 17, 2013     

The Effects of Myxobolus cerebralis on the Physiological Performance of Whirling Disease Resistant and Susceptible Strains of Rainbow Trout

Abstract

The development of rainbow trout Oncorhynchus mykiss strains that are resistant to whirling disease has shown promise as a management tool for populations in areas where Myxobolus cerebralis is present. However, the physiological effects of the disease on characteristics necessary for fish survival in natural river conditions have not been tested in many of these strains. Five rainbow trout strains were evaluated for their swimming ability and growth characteristics in relation to M. cerebralis exposure: the resistant German rainbow trout (GR) strain (Hofer strain), the susceptible Colorado River rainbow trout (CRR) strain, and three intermediate (hybrid) strains (F₁ = GR × CRR; F₂ = F₁ × F₁; B₂ = backcross of F₁ × CRR). Three broad response patterns among strain and exposure were evident in our study. First, exposure metrics, growth performance, and swimming ability differed among strains. Second, exposure to the parasite did not necessarily produce differences in growth or swimming ability. Exposure to M. cerebralis did not affect batch weight for any strain, and critical swimming velocity did not differ between exposed and unexposed families. Third, although exposure did not necessarily affect growth or swimming ability, individuals that exhibited clinical deformities did show reduced growth and swimming performance; fish with clinical deformities were significantly smaller and had lower critical swimming velocities than exposed fish without clinical deformities. Research and management have focused on GR × CRR hybrid strains; however, given the performance of the GR strain in our study, it should not be discounted as a potential broodstock. Additional field trials comparing the GR and F₁ strains should be conducted before wholesale adoption of the GR strain to reestablish rainbow trout populations in Colorado.

Received September 9, 2010; accepted May 27, 2011     

Multiplication of Infectious Hematopoietic Necrosis Virus in Rainbow Trout following Immersion Infection: Whole-Body Assay and Immunohistochemistry

Abstract

The sites of replication of infectious hematopoietic necrosis virus (IHNV) in infected tissues were detected in fingerling rainbow trout Oncorhynchus mykiss by in situ histologic techniques following immersion infection. Virus antigens in tissues were detected by a neutralizing mouse monoclonal antibody and a one-step anti-mouse biotin-streptavidin conjugated to horseradish peroxidase. The efficiency of infection and virulence of the virus determined by mortality rates showed high virulence of the selected IHNV isolates, and viral replication in individual fish showed that virus content of the fish increased rapidly from the second day to the seventh day postinfection. The earliest viral lesions following infection were detected in the epidermis of the pectoral fins, opercula, and ventral surface of the body. Virus lesions became evident in kidneys on the third day. By the fifth day, when there was a significant increase in virus titer, foci of viral replication were detected in gill tissue and in the anterior internal tissues below the epidermis. Subsequently, extensive virus replication and tissue destruction were observed in the spleen, dorsal adipose tissues, ventricle, and pseudobranch. Replication in the liver, the muscularis layers of the digestive tract, and the general body musculature followed later. These infection experiments indicated that the epidermis and gills of fish constitute important sites of early IHNV replication.     

Gill Ectoparasites of Juvenile Rainbow Trout and Brown Trout in the Upper Colorado River

Abstract

During 1996 and 1997, 112 rainbow trout Oncorhynchus mykiss and 204 brown trout Salmo trutta, all young of the year, were sampled from a 40-km study area of the upper Colorado River and were examined for gill parasites. Ambiphrya, Chilodonella, Ichthyobodo, Apiosoma, Trichodina, Trichodinella, Tripartiella, Epistylis, and an unidentified cochliopodid amoeba were the representative protozoan genera observed on fish examined. Significant month–year–species interactions (P = 0.0295) were revealed, reflecting the changes in infestation prevalence among months, years, and species of salmonid. Greater ectoparasite richness was observed in downstream sections of the study area, most notably near Hot Sulphur Springs, Colorado. Peaks of infestation intensity and ectoparasite richness occurred in August and September of both years, presumably because of high mean water temperatures and low flows during that time.     

Purification and Partial Characterization of a Rainbow Trout Egg Lectin

Abstract

A lectin that agglutinates rabbit red blood cells (RBCs) and human type B RBCs was isolated from ova of rainbow trout Oncorhynchus mykiss. Hemagglutination of rabbit RBCs was inhibited completely by 10 mM L-rhamnose but not by certain other sugars, 100 mM EDTA, or 100 mM 2-mercaptoethanol. Partial purification of this hemagglutinating material was achieved by affinity chromatography of an H₂O-dialyzed yolk homogenate on rhamnose-linked Sepharose. A polyacrylamide gel electrophoresis (SDS-PAGE) performed on this sample revealed two polypeptides with approximate molecular masses of 19 kilodaltons (kDa) and 30 kDa. By fast-phase liquid chromatography, proteins with a molecular mass of less than 20 kDa were separated from other elements of the affinity-purified hemagglutinating material. These proteins were found to lack hemagglutinating activity. When a western blot with rabbit antilectin antiserum was performed against yolk extract, rainbow trout serum, or yolk from larvae, a 30-kDa polypeptide was detected within all three samples. If the rainbow trout serum and egg lectins are the same molecule, then the biological function of the rainbow trout egg lectin may include host defense or perhaps a basic, homeostatic mechanism such as glycoprotein transport     

Multiplication of Infectious Hematopoietic Necrosis Virus in Rainbow Trout following Immersion Infection: Organ Assay and Electron Microscopy

Abstract

Sequential spread of infectious hematopoietic necrosis virus (IHNV) to tissues of rainbow trout Oncorhynchus mykiss was examined following immersion infection with two different isolates of IHNV, a pathogenic strain and a nonpathogenic strain from rainbow trout. Virus strain 193–110 was highly pathogenic to 1-month-old rainbow trout and caused 100% mortality within 13 d, whereas strain RB-76 was much less virulent, causing 50% mortality by the 19th day. Virus titers of 1-month-old fingerling fish dying soon after infection were significantly higher than titers of those dying later. Assays of dissected tissues showed that gills of infected 2-month-old fingerlings contained virus as early as 16 and 20 h postinfection, with definite replication occurring at 48 h. The early presence of the virus in the gills followed shortly by appearance of the virus in the kidneys and spleen indicated that the virus spreads rapidly to the target organs. Virus was detected in many other organs at lower levels on the third day and increased to higher levels during the following days. Heart tissue had high titers later in the infection. When 4-month-old rainbow trout were infected with strain 193–110, the mortality was reduced and delayed, whereas those infected with strain RB-76 produced no mortality. Assays on the day of death of these older fingerlings infected with strain 193–110 revealed that fish dying soon after infection also had higher titers than those dying later. Electron microscopic examination offish organs showed the presence of typical IHNV particles budding off from various tissue cells of affected organs, including gill tissue. The destructive effect of the virus was particularly noticeable in the disarrangement of heart muscle organelles.     

Immune Response of Rainbow Trout to Extracellular Products of Mycobacterium spp.

Abstract

A primary intraperitoneal (IP) vaccination of extracellular products (ECP) from Mycobacterium spp. (strains TB40, TB267, or Mycobacterium marinum) mixed with Freund's incomplete adjuvant and followed by a secondary IP injection at 8 weeks resulted in the elevation of both the nonspecific and the specific immune responses of rainbow trout Oncorhynchus mykiss. Increased nitroblue tetrazolium and phagocytosis activity were observed in these fish; peaks in activity occurred at weeks 2 and 6 after primary immunization with a third peak at week 10. Lysozyme activity, on the other hand, peaked at weeks 2 and 8 after primary immunization except in the TB40-immunized group. A third peak of lysozyme activity was observed at week 10 after primary immunization. The activity of the specific immune response was monitored by an enzyme-linked immunosorbent assay and Western blot. The results indicate that antibodies to the ECP of Mycobacterium spp. were present in rainbow trout serum and that they reacted with major ECP antigens at 65 and 16 kDa (kilodaltons) as well as with some minor antigens at 48, 46, and 40 kDa.