Difference between revisions of "Vibriosis - Fish"

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Also known as: ''''' Cold-water vibriosis ''''''''''Haemorrhagic syndrome '''''''''' Hitra disease''''''''''Red pest of eels '''''''''' Vibrio infections in fish'''''.
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{{Podcasts
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|link = https://bloomsbury.mediacore.tv/podcasts/wikivet-english/vibriosis-in-fish}}
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Also known as: '''''Cold-Water Vibriosis — Haemorrhagic Syndrome — Hitra Disease — Red Pest of Eels — Vibrio infections in fish'''''
 +
 
 
==Introduction==
 
==Introduction==
Vibriosis is one of the '''most prevalent fish diseases''' and is caused by bacteria belonging to the genus ''Vibrio''. One of the most important strain is '''''Vibrio anguillarum''''' which is of major importance to '''salmonid fish''' culture industry and is also known as '''Red pest of eels'''. ''V. anguillarum'' has been divided into two separate biotypes of which ''V. anguillarum biotype II'' has been renamed and classified as a new species ''Vibrio ordalii''. It casues haemorrhagic septicaemia and leucopenia.
+
Vibriosis is one of the '''most prevalent fish diseases''' and is caused by bacteria belonging to the genus ''Vibrio''. One of the most important strain is '''''Vibrio anguillarum''''' which is of major importance to '''salmonid fish''' culture industry and is also known as '''Red pest of eels'''. It is a gram negative curved and rod shaped bacterium with a single polar flagellum. Other species (e.g. ''V. salmonicida'') may have numerous polar flagella. ''V. anguillarum'' has been divided into two separate biotypes of which ''V. anguillarum biotype II'' has been renamed and classified as a new species ''Vibrio ordalii''. It causes '''haemorrhagic septicaemia and leucopenia'''.
Other members of the genus ''Vibrio'' have been associated with vibriosis outbreaks in fish and shellfish (molluscs and crustacean)and these include; ''V.salmonicida'', ''V.damsela'',  ''V.vulnificus biotype II'', ''V.tubiashii'' ,''V. carchariae'',  ''V. splendidus'' and ''V. pelagius''.
+
 
 +
Other members of the genus ''Vibrio'' have been associated with vibriosis outbreaks in fish and shellfish (molluscs and crustacean) and these include: ''V. salmonicida'', ''V. damsela'',  ''V. vulnificus ''biotype II, ''V. tubiashii'', ''V. carchariae'',  ''V. splendidus'' and ''V. pelagius''.
  
 
==Signalment==
 
==Signalment==
''Vibrio anguillarum'' is found in '''cultured and wild marine fish''' in shallow salt or brackish water during late summer. The pathogen was thought to be spread by contact with scavenging wild fish feeding around the farms but '''''V. anguillarum''''', has been '''found in the food of cultured and wild healthy fish''' <ref name="Frerichs and Roberts, 1989">Frerichs, G.N., Roberts, R.J., (1989) '''The bacteriology of teleosts.''' In: Roberts RJ, ed. ''Fish Pathology''. London: Baillière Tindall, 289-319.</ref>.
+
''Vibrio anguillarum'' is found in '''cultured and wild marine fish''' in shallow salt or brackish water during late summer. The pathogen was thought to be spread by contact with scavenging wild fish feeding around the farms but '''''V. anguillarum''''', has been '''found in the food of cultured and wild healthy fish'''<ref name="Frerichs and Roberts, 1989">Frerichs, G.N., Roberts, R.J., (1989) '''The bacteriology of teleosts.''' In: Roberts RJ, ed. ''Fish Pathology''. London: Baillière Tindall, 289-319.</ref>.
 +
 
 
Outbreaks of vibriosis have been seen in Pacific and Atlantic salmon, Trout, Turbot, Striped bass, Winter flounder, Cod, Red sea-bream, European and Japanese eel, Saithe (Pollachius Virens), Gilthead sea-bream, Sea mullet, Seriola, Channel catfish, [http://en.wikipedia.org/wiki/Milkfish/ Milkfish], [http://en.wikipedia.org/wiki/Ayu/ Ayu], and [http://en.wikipedia.org/wiki/Tilapia/ Tilapia].
 
Outbreaks of vibriosis have been seen in Pacific and Atlantic salmon, Trout, Turbot, Striped bass, Winter flounder, Cod, Red sea-bream, European and Japanese eel, Saithe (Pollachius Virens), Gilthead sea-bream, Sea mullet, Seriola, Channel catfish, [http://en.wikipedia.org/wiki/Milkfish/ Milkfish], [http://en.wikipedia.org/wiki/Ayu/ Ayu], and [http://en.wikipedia.org/wiki/Tilapia/ Tilapia].
It can also affect molluscs and crustacean including European and Japanese oyster, Clam, Lobster and shrimp.
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It can also affect molluscs and crustacean including European and Japanese oyster, clam, lobster and shrimp.
Disease outbreaks can be influenced by water quality and temperature, the strain and virulence of the Vibrio bacteria and the amount of stress imposed upon the fish.
+
 
Other species of Vibrio affect a wide range of species for example V.salmonicida mainly affect Alantic salmon and trout and causes cold water vibriosis, V.damsela affects Blacksmith species http://en.wikipedia.org/wiki/Chromis_punctipinnis, V.vulnificus also known as V.anguillicidacuases disease in eels
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Disease '''outbreaks''' can be '''influenced''' by '''water quality''' and '''temperature''', the '''strain''' and virulence of the ''Vibrio'' bacteria and the amount of '''stress''' imposed upon the fish.
Both V vulnificus and V.damsela are both zoonotic. It is thought that the infection is caused from eating contaminated raw or undercooked seafood, in particular raw oysters. Immunocompromised and people with liver diseases are at increased risk.
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 +
Other species of ''Vibrio'' affect a wide range of species for example ''V. salmonicida'' mainly affects Alantic salmon and trout and causes cold water vibriosis, ''V. damsela'' affects [http://en.wikipedia.org/wiki/Chromis_punctipinnis/ Blacksmith species (''Chromis punctipinnis'')], ''V. vulnificus'' also known as ''V. anguillicidacuases'' causes disease in eels.
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Both '''''V. vulnificus''''' and '''''V. damsela''''' are '''zoonotic'''. It is thought that the infection is caused from '''eating contaminated raw or undercooked seafood''', in particular '''raw oysters'''. '''Immunocompromised''' and people with '''liver diseases''' are at '''increased risk'''.
  
 
==Clinical Signs==
 
==Clinical Signs==
Clincial signs of vibriosis are haemorrhage to intestines, body cavity, spleen and muscle, distended mucoid and necrotic intestine and petechiation, erosion and darkended colouration to the skin and fins. Changes to the eyes include distension and cloudiness and periorbital swelling occurs. White/grey lesions can be found on the intestines and spleen and in fry, splenomegaly can be seen.
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Clinical signs of vibriosis are '''haemorrhage''' to intestines, body cavity, spleen and muscle, '''distended mucoid and necrotic intestine''' and petechiation, erosion and '''darkended colouration''' to the '''skin''' and '''fins'''. Changes to the eyes include '''distension and cloudiness and periorbital swelling'''. White/grey lesions can be found on the intestines and spleen and '''in fry, splenomegaly''' can be seen.  
V. damsela and V.vulnificus causes severe, progressive necrotizing infection in humans.  
 
  
==Epidemiology==
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''V. damsela'' and ''V.vulnificus'' cause '''severe, progressive necrotizing infection in humans'''.
  
 
==Distribution==
 
==Distribution==
Asia, North America and Europe including outbreaks in the UK.
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'''Asia, North America''' and '''Europe''' including outbreaks in the '''UK'''.
  
 
==Diagnosis==
 
==Diagnosis==
Presumptive diagnosis can be made from clinical signs especially characteristic red spots, swollen and dark lesions on the skin that bleed and ophthalmic changes; aAlthough some acute and severe cases die without clinical signs.   With V.anguillarum more severe pathology is seen in the descending gastrointestinal tract as the conditions become more alkaline. Most tissues are septic with no evidence of phagocytosis.   
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Presumptive diagnosis can be made from clinical signs especially characteristic red spots, swollen and dark lesions on the skin that bleed and ophthalmic changes; although some acute and severe cases die without clinical signs. With ''V.anguillarum'' more '''severe pathology''' is seen in the '''descending gastrointestinal tract''' as the conditions become more alkaline. Most tissues are septic with no evidence of phagocytosis.   
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 +
Identification methods include a '''culture medium for presumptive identification, a sensitivity assay to filter discs impregnated with a saturated solution of the vibriostatic agent 0/129 (2,4-diamino-6,7-diisopropylteridine), nitrate reduction, presence of oxidase, catalase and arginine decarboxylase, reaction with monoclonal antibodies and antiflagellar antiserum, and hybridization with specific 16S ribosomal ribonucleic acid (rRNA) oligonucleotides'''<ref name="Shewan et al., 1954">Shewan, J., Hodgkiss, W., Liston, J., (1954) '''A method for the rapid differentiation of certain non-pathogenic asporogenous bacilli.''' ''Nature'', 173:208-209.</ref> <ref name="Larsen, 1983">Larsen, J.L., (1983) '''''Vibrio anguillarum'': a comparative study of fish pathogenic, environmental, and reference strains.''' ''Acta Veterinaria Scandinavica'', 24(4):456-476.</ref><ref name="Tassin et al., 1983">Tassin, M.G., Siebling, R.J., Roberts, N.C., Larson, A.D., (1983) '''Presumptive identification of ''Vibrio'' species with H antiserum.''' ''Journal of Clinical Microbiology'', 18:400-407.</ref><ref name="Rehnstam et al., 1989">Rehnstam, A.S., Norqvist, A., Wolf-Watz, H., Hagström, Å., (1989) '''Identification of ''Vibrio anguillarum'' in fish by using partial 16S RNA sequences and a specific 16S rRNA oligonucleotide probe.''' ''Applied and Environmental Microbiology'', 55(8):1907-1910.</ref> <ref name="Alsina et al., 1994">Alsina, M., Picado-Martinez, J., Jofre, J., Blanch, A.R., (1994) '''A medium for presumptive identification of ''Vibrio anguillarum''.''' ''Applied and Environmental Microbiology'', 60:1681-1683.</ref><ref name="Martinez-Picado et al., 1994">Martínez-Picado, J., Blanch, A.R., Jofre, J., (1994) '''Rapid detection and identification of ''Vibrio anguillarum'' by using a specific oligonucleotide probe complementary to 16S rRNA.''' ''Applied and Environmental Microbiology'', 60(2):732-737.</ref>. '''''Vibrio'' species''' can be '''identified using monoclonal antibodies (MAbs)'''.
  
 +
'''''V. vulnificus''''' can be identified using an [[ELISA testing|ELISA]] for the haemolysin and PCR. Pathology for '''''V. ordalii''''' tends to be more localised to the muscle and areas of the salmonid skin, but can also be found in loose connective tissue of the gills, throughout the GI tract and in the pyloric caeca.
  
Identification methods include a culture medium for presumptive identification, a sensitivity assay to filter discs impregnated with a saturated solution of the vibriostatic agent 0/129 (2,4-diamino-6,7-diisopropylteridine), nitrate reduction, presence of oxidase, catalase and arginine decarboxylase, reaction with monoclonal antibodies and antiflagellar antiserum, and hybridization with specific 16S ribosomal ribonucleic acid (rRNA) oligonucleotides
+
'''''V. salmonicida''''' also known as '''haemorrhagic syndrome''', show haemorrhaging in the integument surrounding the internal organs and the fish are anaemic and fry show splenamegaly, cataracts and cranial haemorrhage. Whereas '''''V. damsela'''''  shows mainly ulcerations from 0.5-2cm in diameter and are characterised by muscle lysis and histiocytes within the dermis and skeletal muscle of ''Chromis punctipinnis''<ref name="Love et al., 1981">Love, M., Teebken-Fisher, D., Hose, J.E., Farmer, J.J., Hickman, F.W., Fanning, G.R., (1981) '''''Vibrio damsela'', a marine bacterium, causes skin ulcers on the damselfish ''Chromis punctipinnis''.''' ''Science'', USA, 214(4525):1139-1140.</ref>.
(Shewan et al., 1954; Shewan J, Hodgkiss W, Liston J, 1954. A method for the rapid differentiation of certain non-pathogenic asporogenous bacilli. Nature, 173:208-209.
 
Larsen, 1983; Larsen JL, 1983. Vibrio anguillarum: a comparative study of fish pathogenic, environmental, and reference strains. Acta Veterinaria Scandinavica, 24(4):456-476.  
 
Tassin et al., 1983; Tassin MG, Siebling RJ, Roberts NC, Larson AD, 1983. Presumptive identification of Vibrio species with H antiserum. Journal of Clinical Microbiology, 18:400-407.
 
Rehnstam et al., 1989; Rehnstam AS, Norqvist A, Wolf-Watz H, Hagström Å, 1989. Identification of Vibrio anguillarum in fish by using partial 16S RNA sequences and a specific 16S rRNA oligonucleotide probe. Applied and Environmental Microbiology, 55(8):1907-1910.
 
Alsina et al., 1994; Alsina M, Picado-Martinez J, Jofre J, Blanch AR, 1994. A medium for presumptive identification of Vibrio anguillarum. Applied and Environmental Microbiology, 60:1681-1683.
 
Martinez-Picado et al., 1994). Martínez-Picado J, Blanch AR, Jofre J, 1994. Rapid detection and identification of Vibrio anguillarum by using a specific oligonucleotide probe complementary to 16S rRNA. Applied and Environmental Microbiology, 60(2):732-737.
 
  
Vibrio species can be identified using monoclonal antibodies (MAbs). V.vulnificus can be identified using an ELISA for the haemolysin and PCR.
 
V.ordalii tends to be more localised to muscle and areas of the skin, possibly indicating transmission of the disease through salmonid integument, although it can also be found in loose connective tissue of the gills , throughout the GI tract and in the pyloric caeca
 
V.salmonicida also known as  haemorrhagic syndrome as  haemorrhages are mainly found in the integument surrounding the internal organs of the fish.  Fish are anaemic and fry show splenamegaly, cataracts and cranial haemorrhage.
 
V.damsela show ulcerations from 0.5-2cm in diameter and are characterised by muscle lysis and histiocytes within the dermis and skeletal muscle (Love et al., 1981). Love M, Teebken-Fisher D, Hose JE, Farmer JJ, Hickman FW, Fanning GR, 1981. Vibrio damsela, a marine bacterium, causes skin ulcers on the damselfish Chromis punctipinnis. Science, USA, 214(4525):1139-1140.
 
 
==Treatment==
 
==Treatment==
Fish can be treated with ampicillin, chloramphenicol, nalidixic acid derivatives, nitrofurans, sulphonamides and trimethoprim.
+
Fish can be treated with '''ampicillin, chloramphenicol, nalidixic acid derivatives, nitrofurans, sulphonamides''' and '''trimethoprim'''. Drug resistant strains have appeared because of extensive use of these chemicals.
 +
 
 
==Control==
 
==Control==
A formalin-killed V. anguillarium  vaccine is available  and can be administered via intraperitoneal injection, immersion or oral administration.
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A '''formalin-killed ''V. anguillarium'' vaccine''' is available  and can be administered via intraperitoneal injection, immersion or oral administration.
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{{Learning
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|flashcards = [[Vibriosis in Fish Flashcards]]
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}}
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==References==
 
==References==
 
<references/>
 
<references/>
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Actis, L.A., Tolmasky, M.E. and Crosa, J.H. (2011). '''Vibriosis.''' In: '''Fish Diseases and Disorders, Volume 3: Viral, Bacterial and Fungal Infections,''' 2nd edition (eds. Woo, P.T.K. and Bruno, D.W.), ''CABI'', Wallingford, UK. pp. 570-605.
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{{CABI source
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|datasheet = [http://www.cabi.org/ahpc/Default.aspx?site=160&page=2144&LoadModule=datasheet&CompID=3&dsID=59324 vibriosis in fish]
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|date = 10 July 2011
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}}
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<br><br>
  
{{Learning
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{{Patrick Woo
|flashcards = [[''Vibriosis - Fish'' Flashcard]]
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|date = 31 August 2011
 
}}
 
}}
  
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{{OpenPages}}
  
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[[Category:CABI Expert Review Completed]][[Category:CABI AHPC Pages]]
[[Category:To Do - Jaimie Meagor]]
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[[Category:Fish Diseases]]
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[[Category:Zoonoses]]

Latest revision as of 17:44, 17 August 2012


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Also known as: Cold-Water Vibriosis — Haemorrhagic Syndrome — Hitra Disease — Red Pest of Eels — Vibrio infections in fish

Introduction

Vibriosis is one of the most prevalent fish diseases and is caused by bacteria belonging to the genus Vibrio. One of the most important strain is Vibrio anguillarum which is of major importance to salmonid fish culture industry and is also known as Red pest of eels. It is a gram negative curved and rod shaped bacterium with a single polar flagellum. Other species (e.g. V. salmonicida) may have numerous polar flagella. V. anguillarum has been divided into two separate biotypes of which V. anguillarum biotype II has been renamed and classified as a new species Vibrio ordalii. It causes haemorrhagic septicaemia and leucopenia.

Other members of the genus Vibrio have been associated with vibriosis outbreaks in fish and shellfish (molluscs and crustacean) and these include: V. salmonicida, V. damsela, V. vulnificus biotype II, V. tubiashii, V. carchariae, V. splendidus and V. pelagius.

Signalment

Vibrio anguillarum is found in cultured and wild marine fish in shallow salt or brackish water during late summer. The pathogen was thought to be spread by contact with scavenging wild fish feeding around the farms but V. anguillarum, has been found in the food of cultured and wild healthy fish[1].

Outbreaks of vibriosis have been seen in Pacific and Atlantic salmon, Trout, Turbot, Striped bass, Winter flounder, Cod, Red sea-bream, European and Japanese eel, Saithe (Pollachius Virens), Gilthead sea-bream, Sea mullet, Seriola, Channel catfish, Milkfish, Ayu, and Tilapia. It can also affect molluscs and crustacean including European and Japanese oyster, clam, lobster and shrimp.

Disease outbreaks can be influenced by water quality and temperature, the strain and virulence of the Vibrio bacteria and the amount of stress imposed upon the fish.

Other species of Vibrio affect a wide range of species for example V. salmonicida mainly affects Alantic salmon and trout and causes cold water vibriosis, V. damsela affects Blacksmith species (Chromis punctipinnis), V. vulnificus also known as V. anguillicidacuases causes disease in eels.

Both V. vulnificus and V. damsela are zoonotic. It is thought that the infection is caused from eating contaminated raw or undercooked seafood, in particular raw oysters. Immunocompromised and people with liver diseases are at increased risk.

Clinical Signs

Clinical signs of vibriosis are haemorrhage to intestines, body cavity, spleen and muscle, distended mucoid and necrotic intestine and petechiation, erosion and darkended colouration to the skin and fins. Changes to the eyes include distension and cloudiness and periorbital swelling. White/grey lesions can be found on the intestines and spleen and in fry, splenomegaly can be seen.

V. damsela and V.vulnificus cause severe, progressive necrotizing infection in humans.

Distribution

Asia, North America and Europe including outbreaks in the UK.

Diagnosis

Presumptive diagnosis can be made from clinical signs especially characteristic red spots, swollen and dark lesions on the skin that bleed and ophthalmic changes; although some acute and severe cases die without clinical signs. With V.anguillarum more severe pathology is seen in the descending gastrointestinal tract as the conditions become more alkaline. Most tissues are septic with no evidence of phagocytosis.

Identification methods include a culture medium for presumptive identification, a sensitivity assay to filter discs impregnated with a saturated solution of the vibriostatic agent 0/129 (2,4-diamino-6,7-diisopropylteridine), nitrate reduction, presence of oxidase, catalase and arginine decarboxylase, reaction with monoclonal antibodies and antiflagellar antiserum, and hybridization with specific 16S ribosomal ribonucleic acid (rRNA) oligonucleotides[2] [3][4][5] [6][7]. Vibrio species can be identified using monoclonal antibodies (MAbs).

V. vulnificus can be identified using an ELISA for the haemolysin and PCR. Pathology for V. ordalii tends to be more localised to the muscle and areas of the salmonid skin, but can also be found in loose connective tissue of the gills, throughout the GI tract and in the pyloric caeca.

V. salmonicida also known as haemorrhagic syndrome, show haemorrhaging in the integument surrounding the internal organs and the fish are anaemic and fry show splenamegaly, cataracts and cranial haemorrhage. Whereas V. damsela shows mainly ulcerations from 0.5-2cm in diameter and are characterised by muscle lysis and histiocytes within the dermis and skeletal muscle of Chromis punctipinnis[8].

Treatment

Fish can be treated with ampicillin, chloramphenicol, nalidixic acid derivatives, nitrofurans, sulphonamides and trimethoprim. Drug resistant strains have appeared because of extensive use of these chemicals.

Control

A formalin-killed V. anguillarium vaccine is available and can be administered via intraperitoneal injection, immersion or oral administration.


Vibriosis - Fish Learning Resources
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Vibriosis in Fish Flashcards


References

  1. Frerichs, G.N., Roberts, R.J., (1989) The bacteriology of teleosts. In: Roberts RJ, ed. Fish Pathology. London: Baillière Tindall, 289-319.
  2. Shewan, J., Hodgkiss, W., Liston, J., (1954) A method for the rapid differentiation of certain non-pathogenic asporogenous bacilli. Nature, 173:208-209.
  3. Larsen, J.L., (1983) Vibrio anguillarum: a comparative study of fish pathogenic, environmental, and reference strains. Acta Veterinaria Scandinavica, 24(4):456-476.
  4. Tassin, M.G., Siebling, R.J., Roberts, N.C., Larson, A.D., (1983) Presumptive identification of Vibrio species with H antiserum. Journal of Clinical Microbiology, 18:400-407.
  5. Rehnstam, A.S., Norqvist, A., Wolf-Watz, H., Hagström, Å., (1989) Identification of Vibrio anguillarum in fish by using partial 16S RNA sequences and a specific 16S rRNA oligonucleotide probe. Applied and Environmental Microbiology, 55(8):1907-1910.
  6. Alsina, M., Picado-Martinez, J., Jofre, J., Blanch, A.R., (1994) A medium for presumptive identification of Vibrio anguillarum. Applied and Environmental Microbiology, 60:1681-1683.
  7. Martínez-Picado, J., Blanch, A.R., Jofre, J., (1994) Rapid detection and identification of Vibrio anguillarum by using a specific oligonucleotide probe complementary to 16S rRNA. Applied and Environmental Microbiology, 60(2):732-737.
  8. Love, M., Teebken-Fisher, D., Hose, J.E., Farmer, J.J., Hickman, F.W., Fanning, G.R., (1981) Vibrio damsela, a marine bacterium, causes skin ulcers on the damselfish Chromis punctipinnis. Science, USA, 214(4525):1139-1140.

Actis, L.A., Tolmasky, M.E. and Crosa, J.H. (2011). Vibriosis. In: Fish Diseases and Disorders, Volume 3: Viral, Bacterial and Fungal Infections, 2nd edition (eds. Woo, P.T.K. and Bruno, D.W.), CABI, Wallingford, UK. pp. 570-605.

CABIlogo

This article was originally sourced from The Animal Health & Production Compendium (AHPC) published online by CABI during the OVAL Project.

The datasheet was accessed on 10 July 2011.









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