The Gill Pathogen Dermocystidium salmonis in Oregon Salmonids

Abstract

Intense infections of the gill pathogen Dermocystidium salmonis were associated with mortality of prespawning chinook salmon Oncorhynchus tshawytscha in several Oregon rivers in 1988. The occurrence of the pathogen in returning adult chinook salmon was monitored in several coastal Oregon stocks from 1989 to 1993. Although the prevalence of the pathogen was high in these fish (up to 66.6%), infection intensities were generally low, and no mortality attributable to D. salmonis was observed. In 1988, the pathogen was associated with a lethal epizootic among juvenile chinook salmon smolts at the Trask State Fish Hatchery near Tillamook, Oregon. Histological examination of gills from heavily infected fish revealed hyperplasia of gill epithelium and fusion of gill lamellae. When naturally infected smolts were transferred from fresh to salt water, the most heavily infected fish died within 10 d, and the number of D. salmonis cysts declined and disappeared from previously infected salmon after 21–42 d.     

Clinical and Pathological Effects of the Polyopisthocotylean Monogenean,Gamacallum macroura in White Bass

Abstract

An aquaculture research facility experienced high mortality rates in white bass Morone chrysops associated with a monogenean infestation of the gills, but not in striped bass Morone saxatilis in the same facility. All mortalities had pale gills. Monogeneans, identified as Gamacallum macroura (MacCallum and MacCallum 1913) Unnithan 1971, were found on the gills. Pale-gilled and healthy white bass were selected with no particular attention to condition for venipuncture and euthanasia for postmortem examination, including parasite counts from gills. The median packed cell volume (PCV) of fish with gill pallor was 12.5% (range 9–37%) while PVC of fish with more normal color was 30% (27–33%). Association between the PCV and gill pallor score was statistically significant, as was the association between PCV and the number of monogeneans found on the gills of each fish. Median estimated white blood cell count of fish with gill pallor, at 12.05 × 10^3/μL (range 3.8–24.7), was significantly lower than of apparently healthy fish: 24.7 × 10³/μL (17.3–31.5). Histopathology of the gill arches of pale-gilled fish revealed multifocal moderate to severe branchitis, focal areas of dilated hyperplastic lamellae occluded by fibrin, and monogeneans attached to the lamellae. Fish that were apparently healthy had grossly similar histologic lesions, but at lower frequency and severity.

Received May 27, 2011; accepted July 12, 2012     

Induction and Evaluation of Proliferative Gill Disease in Channel Catfish Fingerlings

Abstract

Proliferative gill disease (PGD) was first reported in channel catfish Ictalurus punctatus at commercial farms in 1981 and is caused by the myxozoan parasite Henneguya ictaluri. The disease affects the gills and is characterized by severe branchial inflammation, epithelial hyperplasia, lamellar fusion, and lysis of chondrocytes. Presumptive diagnosis is based on the presence of lytic areas in the cartilage of the primary lamellae on microscopic examination and is confirmed histologically by the presence of the organism. In these trials, PGD was induced by exposing channel catfish fingerlings to fresh or aged infectious water collected from a pond containing fish diagnosed with severe PGD. The severity of disease was graded by histological scoring and microscopic examination of wet mounts to determine the percentage of gill filaments containing chondrolytic lesions. Exposure of fish to infectious pond water was shown to produce pathological lesions consistent with PGD, and the percentage of gill filaments containing chondrolytic lesions was positively correlated with histological scoring of gill pathology. The number of trophozoite stages in the gills was shown to increase with the severity of the disease. In most cases, however, parasitic cells were not observed in tissue samples with chondrolytic lesions during the early stages of infection. These observations indicate that pathology and lysis of chondrocytes can occur prior to detection of the organism by histopathology. Exposing fish to infectious pond water that was aged for 1 d produced negligible gill pathology and implies that the infectivity of the H. ictaluri actinospore stage is short lived. Removing fish from the source of infection promoted repair of damaged gill tissue; within 14 d of fish transfer to clean water, gill pathology associated with the acute infection was negligible.     

Effects of Full-Stream Carbon Filtration on the Development of Head and Lateral Line Erosion Syndrome (HLLES) in Ocean Surgeon

Abstract

Head and lateral line erosion syndrome (HLLES) is a common but very poorly understood disease of marine aquarium fish. One suspected etiology is the use of granulated activated carbon (GAC) to filter the water. Seventy-two ocean surgeons Acanthurus bahianus were distributed among three carbon-negative control systems and three GAC-treated systems such that each tank contained approximately the same total body mass. Each replicate system was made up of two 250-L circular tanks with a common filtration system (6 fish per tank, 12 fish per replicate system). The GAC-treated tanks were exposed to full-stream, extruded coconut shell activated carbon, which produced a mean total organic carbon content of 0.4 mg/L. The results of this study indicate that extruded coconut shell activated carbon filtering at full-stream rates can cause HLLES-type lesions in ocean surgeons. The HLLES developed exponentially over 15 d, beginning in the chin region. This was followed by pitting in the cheek region, which expanded until erosions coalesced. Once the carbon was discontinued, the processes reversed in a mean time of 49 d. As the lesions healed, they reverted from the coalesced to the pitted stage and then darkened before returning to normal.

Received September 2, 2010; accepted March 20, 2011     

Fish nutrition. Brief review for the practitioner regarding food and ornamental fish

In behalf of the practitioner a short survey is given about nutrition of fish and shrimps. Interrelations between fish development and influences by their water ecosystem concerning temperature, mineral and gas levels, waterflow et cetera together with the supply of food are mentioned. Further comments are given about common nutritional needs of different species in connection with growth, bodyweight et cetera and purpose of fishkeeping for instance for consumption, reproduction or ornamentally in different systems from aquarium to lagoon. More specifically feed formulation from raw materials to complete diets and nutritional analyses in respect to allowances for maintenance and growth are discussed. Data about fresh- and saltwater species from tropical to arctic circumstances mentioning trout, salmon, catfish, carp, sea bass, shrimp et cetera are given. Some remarks about manufacturing, and application of complete compound feeds are added to the survey. In behalf of further study or for enhancement of knowledge a number of books are recommended in a list of references.     

A Single Sea Lamprey Attack Causes Acute Anemia and Mortality in Lake Sturgeon

Abstract

The effects of sea lamprey Petromyzon marinus parasitism on hematological variables have not been quantified for lake sturgeon Acipenser fulvescens. Our study objectives were to (1) assess changes in lake sturgeon hematology immediately after a single sea lamprey attack and after a 2-week recovery period and (2) assess changes in the histological condition of major hematopoietic organs. Lake sturgeon from four size-groups (470–570, 570–650, 650–760, and 950–1,500 mm fork length) were individually subjected to a sea lamprey attack in a series of 55 experimental trials. Survival of lake sturgeon after a single sea lamprey attack was size dependent, with fish in smaller size-groups exhibiting higher direct and indirect mortality than individuals in larger size-classes. The most sensitive blood chemistry variable was hematocrit: each 1% decline in hematocrit resulted in a 5.1% increase in mortality risk. Other important variables were plasma protein level, with a 10-g/dL decline resulting in a 4.2% increase in mortality risk; and hemoglobin, with a 1-g/dL decline resulting in a 2.9% increase in mortality risk. Most of the surviving lake sturgeon were unable to restore hemoglobin, hematocrit, and plasma protein to pre-attack levels by the end of the 2-week recovery period. We developed an index of histological spleen condition, which indicated that short-duration (<5-d) sea lamprey attachments depleted red blood cell reserves faster than longer-duration attacks. Our study results indicate that sea lamprey parasitism has the potential to induce acute anemia in lake sturgeon and that nonlethal attacks on smaller (<760-mm) fish can have serious physiological implications.

Received August 3, 2011; accepted February 2, 2012.     

Loma sp. in Salmonids from the Eastern United States: Associated Lesions in Rainbow Trout

Abstract

A microsporidian of the genus Loma was noted in the gills of rainbow trout Oncorhynchus mykiss from a state hatchery (Buford Trout Hatchery) in Georgia. Mortalities of varying severity occur at this hatchery every fall, and the microsporidian was noted during an experiment from August 1991 to January 1992 to determine the effects of water source on disease. Infections first appeared to be systemic in the October sample; xenomas were observed in heart, spleen, and peripheral vessel walls. The presence of unidentified intracellular material preceded the appearance of xenomas in all tissues, but whether this material was associated with inflammation or represented immature stages of the parasite has yet to be determined. These structures were also noted in the intestine and liver, although xenomas were not noted in these organs. Mature xenomas did not elicit an inflammatory response but appeared to be short-lived. When the xenoma wall ruptured and released spores, an inflammatory response was again observed. The prevalence and severity of the infection were determined in fish maintained in troughs with well water, Chattahoochee River water, or hatchery (treated river) water. The infection tended to be more prevalent and more severe in fish maintained in the hatchery or river water than in those maintained in the well water. Stress induced by poor water quality may increase mortality from this parasite. This report extends the range of Loma sp. into the eastern United States.     

Proliferative Gill Disease of Fish from the Tennessee-Tombigbee Waterway,Mississippi

Abstract

Proliferative gill disease (PGD), a condition not previously reported in wild fish, was found in two channel catfish Ictalurus punctatus sampled from the Tennessee-Tombigbee Waterway in Mississippi during June and July 1989. The parasite thought to cause PGD was observed in only one of the fish, but the distinctive lesions associated with this disease were prominent in both of the channel catfish. Organisms resembling the PGD parasite were also found in the gills of 4 of 18 largemouth bass Micropterus salmoides and 6 of 20 bluegills Lepomis macrochirus, but there was little or no host response to these parasites.     

Communications: Clearance of Amyloodinium ocellatum Dinospores by Artemia salina

Abstract

The potential for using nauplii of brine shrimp Artemia salina to remove the dinoflagellate Amyloodinium ocellatum from aquaculture systems for red drum Sciaenops ocellatus was investigated. Dinospores of A. ocellatum were dispensed in cell culture plates at a concentration of approximately 10,000/mL and were exposed to brine shrimp nauplii at concentrations of l, 2, 4, or 8 nauplii/mL over a 24-h period. 1n the presence of 8 nauplii/mL, dinospores were eliminated in 8 h. In another study, 300,000 dinospores were placed in 3 L of saltwater in two tanks, and l,000 nauplii were added to one tank. After 12 h, three 202-g red drums were placed in both tanks for an additional 12-h-exposure period, after which the fish were euthanized and the trophont load on gill filaments was assessed. Fish from the tank with brine shrimp nauplii had 65% fewer trophonts on their gills than those from the nontreated tank (10.75 versus 3.75 trophonts/filament). These data and the observation that dinospore remains could be observed in naupliar fecal casts suggest the potential value of brine shrimp as a bioremediation measure for this serious gill parasite.     

Beneficial Effects of Rhodotorula sp. C11 on Growth and Disease Resistance of Juvenile Japanese Spiky Sea Cucumber Apostichopus japonicus

The purpose of this study was to evaluate the effects of dietary administration of the live yeast, Rhodotorula sp. C11, on growth and disease resistance against Vibrio splendidus infection in juvenile Japanese spiky sea cucumber Apostichopus japonicus. Sea cucumbers were fed diets containing Rhodotorula sp. C11 at 0 (control), 10⁴, 10⁵, and 10⁶ CFU/g of feed for 45 d. There were three replicate tanks per dietary treatment. The specific growth rates were higher in all sea cucumbers treated with Rhodotorula sp. C11 than in the controls. Following a challenge with V. splendidus NB13, the cumulative prevalence and mortality of sea cucumbers fed diets supplemented with Rhodotorula sp. C11 were lower than in animals fed the basal diet. In sea cucumbers fed diets supplemented with Rhodotorula sp. C11 for 42 d, the only viable yeast found in the intestine was Rhodotorula sp. C11, which had counts of 1.58–1.98 × 10⁴ CFU/g. No yeast was isolated from the intestine of animals fed the basal diet. For the colonization study, 20 sea cucumbers from each dietary treatment were removed to separate tanks and fed the control diet from day 16 to day 46. The viable yeast (Rhodotorula sp. C11) counts in the intestine decreased to 60–80 CFU/g by day 37. Moreover, as demonstrated by denaturing gradient gel electrophoresis, Rhodotorula sp. C11 colonization of the intestine could be detected until day 46. The differences in culture and PCR-denaturing gradient gel electrophoresis may be due to differences in the sensitivity of both methods. The present result showed that Rhodotorula sp. C11 was able to successfully colonize the intestine of juvenile Japanese spiky sea cucumbers by dietary supplementation, which improved its growth and disease resistance.

Received August 11, 2014; accepted November 14, 2014     

Infections of Edwardsiella tarda among Brook Trout in Quebec

Abstract

Acute bacterial septicemia is commonly diagnosed in brook trout Salvelinus fontinalis of Quebec, Canada. The agents most commonly isolated include Aeromonas salmonicida (furunculosis), Aeromonas hydrophila (motile aeromonad septicemia), and Pseudomonas species. Septicemia in brook trout caused by the gram-negative bacterium Edwardsiella tarda was diagnosed for the first time in the province of Quebec from two different fish farms producing stock for fee fishing establishments. Affected fish displayed nonspecific lesions associated with bacterial septicemia including hemorrhages on the gills and viscera and exophthalmia. Stress-associated immunosuppression due to an increase in summer water temperatures and lack of precipitation were considered as primary causes of these disease outbreaks.     

Experimental Induction of Proliferative Gill Disease in Specific-Pathogen-Free Channel Catfish

Abstract

Specific-pathogen-free channel catfish Ictalurus punctatus were exposed to sediment and mud from a pond containing channel catfish with proliferative gill disease. In one experiment, fish were to exposed to mud and sediment for 2 months in water maintained at 19°C. Fish were necropsied weekly, and certain tissues were examined histologically and ultrastructurally. Four trials were conducted with sediment samples from different epizootics of proliferative gill disease. In a second experiment, fish were exposed to sediment for 7 d in water maintained at 16, 19, or 26°C; the fish were then moved to clean water held at 16, 19, or 26°C. Fish were necropsied before transfer to clean water and weekly thereafter for 2 months. Channel catfish held at 19°C developed proliferative gill disease within 2 d of exposure to sediment. Primary cells of a uninucleate myxosporean parasite were present in the gills at the base of lamellae. These developed into plasmodia with numerous secondary cells, and some primary cells disintegrated, releasing their internal secondary cells. Similar development was observed in internal organs 1 week after appearance of the parasite in gills. Complete sporogony did not occur over the 2 months of this study. Plasmodia became necrotic and were not detected after 60 d. In fish exposed to sediment for 7 d at 16, 19, and 21°C, similar organisms were detected, but clinical disease occurred only at 19 and 26°C. Proliferative gill disease may be attributed to extrasporogonic stages of a myxosporean resembling Sphaerospora spp.     

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.     

Primary Isolation and Characterization of Tenacibaculum maritimum from Chilean Atlantic Salmon Mortalities Associated with a Pseudochattonella spp. Algal Bloom

Abstract

This study presents the first isolation of Tenacibaculum maritimum from farmed Atlantic Salmon Salmo salar in Chile. The isolate, designated T. maritimum Ch-2402, was isolated from gills of Atlantic Salmon at a farm located in region X, Los Lagos, Chile, during the harmful algal bloom caused by Pseudochattonella spp. in February 2016. The algal bloom is reported to have caused 40,000 metric tons of mortality in this salmon farming area. The bacterium T. maritimum, which causes tenacibaculosis, is recognized as an important pathogen of marine fish worldwide. Genetic, phylogenetic, and phenotypic characterizations were used to describe the T. maritimum Ch-2402 isolate. The isolate was similar to the type strain of T. maritimum but was genetically unique. Tenacibaculum dicentrarchi isolates were also recovered during sampling from the same farm. Based on the fact that T. maritimum has been shown to cause disease in Atlantic Salmon in other regions, the presence of this bacterium poses a potential risk of disease to fish in the Chilean aquaculture industry.

Received November 6, 2016; accepted May 29, 2017 Published online July 26, 2017     

饲料中添加活性酵母制剂对刺参生长、免疫力和抗病力的影响

本试验旨在研究饲料中添加活性酵母制剂对刺参生长、免疫力和抗病力的影响。采用单因素试验设计,通过在商品配合饲料中分别添加0(对照)、0.025%、0.050%、0.100%、0.200%和0.400%的活性酵母制剂,配制6种试验饲料,饲喂平均初始体重为(4.0±0.1)g的刺参6周。每种饲料设3个重复,每个重复放养15头刺参。6周的养殖试验结束后,每个重复选取10头刺参,每头刺参通过体壁注射灿烂弧菌(Vibrio splendidus)菌悬液0.1 m L(菌悬液浓度为1.5×109CFU/m L),观察记录灿烂弧菌攻毒14 d内的累计死亡率。结果表明:饲料中添加活性酵母制剂能显著提高刺参的特定生长率(P0.05),刺参特定生长率在添加量为0.200%时最高。饲料中添加活性酵母制剂后,刺参体腔液中过氧化氢酶(CAT)活性显著增加(P0.05);活性酵母制剂添加量为0.050%~0.400%时,刺参体腔液中溶菌酶(LZM)活性显著高于对照组(P0.05);活性酵母制剂添加量为0.200%~0.400%时,刺参体腔液中酸性磷酸酶(ACP)活性显著高于对照组(P0.05);活性酵母制剂添加量为0.400%时,刺参体腔液中超氧化物歧化酶(SOD)活性显著高于对照组(P0.05)。饲料中添加活性酵母制剂可降低攻毒14 d后刺参的累计死亡率,活性酵母制剂添加量为0.200%时,累计死亡率最低。由此可知,在本试验条件下,饲料中添加活性酵母制剂可促进刺参生长,提高免疫力和抗病力。综合分析刺参的生长、免疫力和抗病力以及实际生产情况,刺参饲料中活性酵母制剂的适宜添加量为0.200%~0.400%。     

Two mortality events in sea-caged yellowtail kingfish Seriola lalandi Valenciennes, 1833 (Nannopercidae) from Western Australia

In November 2008 a commercial sea-cage operator farming yellowtail kingfish, Seriola lalandi, in Western Australia reported more than 70% mortality of the sea-caged fish. Several parasites and potentially pathogenic bacteria were isolated from the fish, but despite a detailed laboratory investigation the cause of the mortality event was never ascertained. That episode of deaths was followed in January 2009 by a smaller mortality event in fish in a sea cage that had been stocked several weeks earlier. Pathogens similar to those seen in the first mortality event were isolated, but again a single causative agent could not be identified. Multiple stress factors resulting in immunosuppression may have precipitated the mortality events.     

Amoeba‐like Infections in Cultured Marine Fishes: Systemic Infection in Pompano Trachinotus falcatus L. from Singapore and Gill Disease Associated with Paramoeba sp. in Sea Bream Sparus aurata L. from Greece

Two cases of Amoeba‐like infections in cultured warmwater marine fish are described, an unusual systemic infection in pompano Trachinotus falcatus L. from Singapore and a gill infection in Mediterranean sea bream Sparus aurata L. All pompano showed marked systemic infection of Amoeba‐like parasites in gills, kidney, intestine, pancreas and spleen. The most severe lesions were in the gills and renal tissue with minimal tissue reaction in other organs.     

Effects of variable periods of food deprivation on the development of enteric septicemia in channel catfish

Enteric septicemia of catfish (ESC), caused by the bacterium Edwardsiella ictaluri, is the most significant bacterial disease affecting channel catfish Ictalurus punctatus. Withholding feed during outbreaks of ESC is a widely accepted industry practice used to control losses from the disease. Scientific evidence concerning the validity of the practice is contradictory. Two studies were conducted to further evaluate the survival of channel catfish fingerlings following variable periods of feed deprivation before and after exposure to E. ictaluri in controlled aquarium experiments. In the first study, feed was withheld for varying time periods before bacterial challenge. After bacterial challenge, feed was either withheld or fish were fed daily. The second study utilized fish fed daily or fish deprived of feed 7 d before bacterial challenge. Daily feeding was resumed 4, 48, and 96 h after fish were exposed to E. ictaluri. In both experiments, the prechallenge feed treatments did not affect mortality. In contrast, withholding feed after bacterial challenge reduced mortalities by 52% in experiment 1 and by 45% in experiment 2. The highest mortality was observed when fish were fed immediately after immersion exposure and the lowest when fish were completely denied feed or fed daily starting 96 h after challenge. This reduction in mortality occurred when the concentration of E. ictaluri in aquarium water was negligible. These data suggest that when E. ictaluri is present in the water, feeding fish increases mortality by enhancing oral exposure to the pathogen.