Bacterial Diseases of Finfishes PDF

Summary

This document provides an overview of bacterial diseases affecting finfish. It covers various pathogens, associated diseases, symptoms, and treatments. The document is a comprehensive study guide or reference.

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BACTERIAL DISEASES OF
FINFISHES
BACTERIAL DISEASES OF FINFISHES
 Bacterial diseases - common in finfishes
 Most are opportunistic pathogens

 Include:
 Anaerobes
 Aerobes
 Gram-negative
 Gram-positive
 Clinical signs of bacterial diseases are non-
specific and include:
 lethargy, anorexia (loss of appetite), cutaneous
haemorrhages and ulcers, fin rot, ascites (“Dropsy”),
exophthalmia, and colour changes.
 BACTERIAL DISEASES OF FINFISHES

PATHOGEN DISEASE

ANAEROBES

Clostridium botulinum Botulism

Eubacterium sp. Meningitis
PATHOGEN DISEASE

AEROBES (GRAM-POSITIVE)
Coryneform bacteria Corynebacteriosis

Lactobacillus Lactobacillosis /
pseudokidney disease

Mycobacterium Mycobacteriosis / fish
tuberculosis

Nocardia Nocardiosis

Renibacterium salmoninarum Bacterial kidney disease

Streptococcus iniae Streptococcosis
PATHOGEN DISEASE
AEROBES (GRAM-NEGATIVE)
Edwardsiella tarda Edwardsiellosis /
Edwardsiella septicemia

Edwardsiella ictaluri Enteric septicaemia
Yersinia ruckeri Enteric redmouth /
Salmon blood spot
Aeromonas hydrophila Haemorrhagic
septicaemia / Motile
Aeromonas septicemia

Aeromonas salmonicida Furunculosis
Aeromonas sp. Fin rot
Aeromonas liquifaciens Eye disease
PATHOGEN DISEASE

Flexibacter Fin rot

Myxobacterium Bacterial gill disease

Pseudomonas sp. Red spot

Pseudomonas sp. Generalized septicemia

Pseudomonas sp. Fin rot

Pseudomonas flourescens Pseudomonas septicemia

Pseudomonas punctata Dropsy

Piscirickettsia salmonis Piscirickettsiosis

Vibrio alginolyticus Septicemia

Vibrio sp. Vibriosis
PATHOGEN DISEASE

Acinetobacter Acinetobacter disease
Pasteurella piscicida Pasteurellosis /
Pseudotuberculosis
Chlamydia Epitheliocystis

Tenacibaculum maritimum Tenacibaculosis

Flavobacterium columnare Columnaris disease
(Formerly - Flexibacter
columnaris)
Flavobacterium psychrophilum Bacterial cold water disease
(Formerly - Flexibacter (BCWD)
psychrophilus)

Flavobacterium sp. Flavobacteriosis
Flavobacterium branchiophila Bacterial gill disease
(Formerly - Flexibacter
branchiophila)
DISEASES CONSIDERED TO BE
BACTERIAL IN ORIGIN
Pathogen Disease

Bacteria Strawberry disease

Aeromonas, Fin and tail rot
Pseudomonas, Vibrio
MAJOR BACTERIAL PATHOGENS
AEROMONAS
 Aerobic Gram-negative cocci

 A. salmonicida - Furunculosis
 A. hydrophila - Motile Aeromonas Septicemia
 A. liquefaciens – Eye disease

 Significant resistance to both tetracycline and
sulfamerazine occur with these bacteria.
EDWARDSIELLA
 Aerobic Gram-negative cocci

 Edwardsiella is an important bacterial
pathogen of fish.

 E. tarda - Edwardsiellosis
 E. ictaluri -Enteric septicemia
YERSINIA
 Aerobic Gram-negative cocci

 Yersinia ruckeri - Enteric Redmouth
Disease

 An important pathogen of salmonids, but
does affect other species as well.
MYCOBACTERIUM
 Aerobic – acid fast
 Mycobacterial infections / Mycobacteriosis
caused by:
 Mycobacterium marinum

 Mycobacterium chelonae

 Mycobacterium fortuitum

 All freshwater and marine aquarium fish
RENIBACTERIUM
 Aerobic – Gram-positive rods

 Renibacterium salmoninarum - Bacterial
kidney disease
STREPTOCOCCUS
 Aerobic – Gram-positive cocci

 Streptococcus infections / Streptococcosis -
S. iniae, S. difficilis, S. parauberis, S.
milleri, S. shiloi
VIBRIO
 Aerobic Gram-negative

 Vibrio spp. are primarily pathogens of
marine fish.

 Vibriosis - V. damsela, V. alginolyticus, and
V. anquillarium.
FLAVOBACTERIUM
 Aerobic- Gram-negative rods
 Columnaris infection - Flavobacterium
columnare (formerly, Flexibacter
columnaris)
 Bacterial Gill Disease - Flavobacterium
branchiophilum
 Coldwater Disease / Peduncle disease -
Flavobacterium psychrophilium
 1. AEROMONAS HYDROPHILA
MAS- MOTILE AEROMONAS SEPTICEMIA

 A. hydrophila- opportunistic pathogen
 Causes Motile Aeromonas Septicemia
 Affects all freshwater fishes
 Characterized by:
 Fatal septicemia
 Exophthalmia
 Ascites / dropsy
 Ulcer formation
PATHOGEN

 A. hydrophila:
 Gram negative
 Motile
 Non-spore-forming
 Aerobe / facultative anaerobe

 Different serotypes have been observed
from various sources of fish, isolated in
different years and places
SUSCEPTIBLE SPECIES:

 Most cultured and wild fish are susceptible
to infection with A.hydrophila such as:

 Carp
 Channel catfish
 Eel
 Goldfish
 Trout
 Tilapia
PREDISPOSING / ENVIRONMENTAL FACTORS:
1. high temperature.
2. overcrowding.
3. reduction of oxygen.
4. malnutrition.
5. heavy infestation with parasites.
6. organic pollution.
7. high ammonia and nitrite level.
8. injuries or damage of the skin and gills.
9. rough handling and transportation of fish.

These factors play an important role in lowering
the resistance of fish body so fish become more
susceptible to infection.
TRANSMISSION OF THE DISEASE:
 Horizontal transmission
 It is distributed widely in water and sediments
of ponds
 can be transmitted by discharge from the
intestinal tract and external lesions on the skin.
 Parasitic damage and fungal infection of the
epidemic may allow the entry and spread of
infection among fish
 Carriers also play an important role in
transmission of the infection.
INCUBATION PERIOD:

 Depends upon the temperature of the
environment

 Acute cases may appear with four to ten
days after infection
CLINICAL SIGNS:
 Fatal septicemia
 Exophthalmia
 Reddening of the skin
 Accumulation of the fluid in the abdominal
cavity
 Dermal ulceration with hemorrhages and
inflammation
 Both dermis and epidermis are eroded
 Severe tail and fin rot
MORTALITY
 The disease caused about 80% mortality in
fish farming especially when the fish held
under stress.
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
TREATMENT AND CONTROL:
 Oxytetracycline
 Sulfamerazine

 Prolonged bath treatments with potassium
permanganate / 1-3% NaCl
 Control :
 Avoiding stress factors is the best method for
prophylaxis of the disease.
 Good hygiene
 Periodic drying of the pond
 Disinfection of ponds
 Eggs should be disinfected with acriflavine or
Betadine
 No commercial vaccine has been developed
2. FURUNCULOSIS

 Aeromonas salmonicida

 Characterized by formation furuncle or
boil-like lesions in various tissues of
the body

 Mostly associated with salmonids, but
other fish can be infected

 Obligate pathogen (fish to fish
transmission)
CAUSATIVE AGENT:
 Aeromonas salmonicida:
 Gram-negative
 Short bacilli
 Aerobic / also can grow as a facultative
anaerobe
 Not spore-forming
 Non-motile
SUSCEPTIBLE SPECIES:

 All species of the family salmonidae

 Other than the salmonids:
 Carp
 Catfish

 Young fish are more susceptible to the
disease than adult fish.
INCUBATION PERIOD:

 It is dependent on water temperature.

 At 20 0C - 4 to 20 days
PREDISPOSING / ENVIRONMENTAL FACTORS:

 Poor water quality.
 Physical damage of the skin or gills.
 Presence of ectoparasites and other
diseases.
 High temperature.
 High stock density.
 Rough handling.
MODE OF TRANSMISSION:

 Primarily horizontal
 No vertical demonstrated
 Horizontal - Contaminated water, carriers,
equipment, clothing, surface of aquatic birds
 The infection may occur through injuries of
the skin
 Reservoirs:
 Carrier fish
CLINICAL SIGNS:
 Rapid death of fish, especially young fish
 Raised furuncles
 Haemorrhages & skin lesions
 Darkening of skin
 Rapid breathing
 Exophthalmia
 Lethargy
 Soft and liquefied kidney
 Enlarged spleen
 Pale liver with haemorrhages
 Stomach & intestine may contain bloody mucous
 Swim bladder is hyperaemic (increase of blood flow)
 Fish may die within 2-3 days.
FURUNCULOSIS
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
 TREATMENT:
 Sulfamerazine: 150-220 mg/kg fish weight/day for
10-14 days.
 Oxytetracycline: 50-75 mg/kg fish weight/day for
10 days.
 Furazolidone: 25-100 mg/kg fish weight/day for 10
days.
 Oxolinic acid: 10-mg/kg fish weight/day for 10 days
CONTROL:
 Stress factors must be removed.

 Pond drying and disinfection of pond and
equipments

 Prevent transportation of fish and water
movement from infected areas

 SPF fish eggs
3. AEROMONAS LIQUIFACIENS
POP EYE / EYE DISEASE

 Pop Eye itself is not a disease but a symptom of
an underlying problem

 Fluids build up either behind the eye or in the
eye itself

 The most common cause:
 is an injury to one or both eyes
 An infection
 or as a result of poor water quality conditions
 Bacterial eye disease – Aeromonas liquifaciens

 Symptoms: Cornea of eye becomes vascularised
and later becomes opaque; eye ball gets
decayed.
TREATMENTS:
 Separate the affected fish if possible or treat
the entire tank

 Check the water quality parameters

 30% to 50% water exchange

 Treat with an anti bacterial agent such as
Furan 2

 Chloromycetin (8-10 mg/litre) bath for 1 hour
for 2-3 days.
4. EDWARDSIELLOSIS
 Bacterial disease of a variety of fish species

 Caused by Edwardsiella spp.

 Characterized by septicaemia and abscess
formation.
PATHOGEN
 The genus Edwardsiella
 Includes two species of bacteria
 Edwardsiella tarda infects fish and other animals
 E. ictaluri infects fish only
 A member of the Enterobacteriaceae
 Small & straight rods
 Gram negative
 Motile and facultatively aerobes / anaerobic.
 Non-spore-forming
 Non-capsulated
 The optimum growth temperature range form
26 to 30 0C
SUSCEPTIBLE SPECIES

 Infects a wide variety of fish
 At least 21 species of fish are known to have
been infected and probably all species of fish
are susceptible under certain conditions
 The most predominant hosts are eel and catfish

 E. tarda infections are not limited to fish

 Often exist as part of the normal intestinal
microflora especially in fish eating birds,
reptiles, cattle and swine.
 Warm-blooded animals including humans have
been known to be susceptible to E. tarda.
 STRESS FACTORS
1. Fluctuating and high temperature of the water.
2. Low dissolved oxygen.
3. High organic content.
4. Overstocking.
5. High ammonia in water.
6. Rough handling of fish.
7. Improper diet.
TRANSMISSION
 Horizontal - The mode of transmission may occur from
fish to other fish via the water by organisms shed with
the faeces.
 Cannibalism of infected fish.
 Feeding of dead or infected carcasses.
 Carriers & Vectors:
 Birds help in spreading of infection by picking up dead fish
from one pond and flying to another pond and dropping the
infected carcasses to healthy one.
 Aquatic invertebrates
 Human beings
 Contaminated nets and equipment can transfer the disease
from pond to another.
 The micro-organism found normal in the intestinal tract
and when fishes put under any stress condition the
bacterium have ability to invade the fish and causes the
infection.
SYMPTOMS
 Sudden decrease in feeding

 Unusual swimming patterns - spiralling and surfing. Sometimes
hang in the water column with head up and tail down.

 Hole in head- Open lesions found on the head of diseased fish -
usually found in fingerling catfish and not seen in older one.

 Ascites.

 Exophthalmia.

 Pale colouration of skin and gills.

 Hemorrhages – at the base of fins, around the head, operculum and
abdomen.

 Spleen, kidney, liver may be soft, pale in color and have bloody
spots.

 The intestine is often filled with a bloody fluid.

 Small white nodules may be observed in the gills, kidney, liver and
spleen. These nodules are packed with bacteria.
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
5. ENTERIC SEPTICEMIA OF CATFISH (ESC)
EDWARDSIELLA ICTALURI
 Very common and devastating bacterial
problems in the commercial catfish
industry.

 Causes:
 Pathogen - virulent Edwardsiella ictaluri
 Stressed host
 Environment - that favors rapid proliferation of
the bacteria
PATHOGEN
 Causative agent - Edwardsiella ictaluri

 Gram-negative, rod shaped, weakly motile

 Thought to be obligate but can survive in
mud for 90 days.

 Similar to Edwardsiella tarda
SUSCEPTIBLE SPECIES
 Channel catfish most susceptible

 Trout, salmon and tilapia have been
experimentally infected but natural outbreaks
have not been reported
CLINICAL SIGNS
 Changes in swimming behavior:
 Spiraling
 Star gazing (head up - tail down)
 Changes in feeding
External Signs
 Ulcers
 Hole or lightened area on head
 Exophthalmia
 Swollen belly
Internal Signs
 Clear - straw colored or bloody fluid in body
cavity
 Spots in liver
 Hemorrhages in muscle
 Intestine often filled with bloody fluid
EXTERNAL SIGNS
ESC “HOLE IN THE HEAD”
TRANSMISSION
 Horizontal
 Enters through – Gills / oral cavity
 Transmitted through water
 Transmitted by cannibalism
 Transmitted by carrier fish, equipment and
birds
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
TREATMENT
 Treatment with medicated feeds

 Romet 30 and Romet B
 Sulfadimethoxine and ormetoprim
 Fed at recommended rate for 5 days

 Terramycin
 Fed at recommended rate for 10-14 days
 21 day withdrawal period
CONTROL AND PREVENTION
 Prevention by reducing stress
 Nutritional supplements

 Vaccination

 Treatment with medicated feeds
6. MYCOBACTERIOSIS
 Fish mycobacteriosis
 Caused by Mycobacterium spp.

 Many fishes - freshwater, brackish water
and saltwater fishes.
 Characterized by:
 Emaciation (weight loss)
 inflammation of the skin
 exophthalmia
 ulceration
 greyish nodules in the internal organs.
PATHOGEN

 Pleomorphic
 Acid fast

 Non motile

 Non-sporulated
PATHOGEN

 Several species of mycobacterium known to
cause mycobacterial disease in fish.

 The most common species isolated form fish are:
 Mycobacterium marinum isolated from marine fishes.
 Mycobacterium fortuitum isolated from freshwater
and brackish water fishes.
 Mycobacterium cheloni isolated from pacific
salmonids.

 The optimum growth temperature is 25-35 0C
STRESS / PREDISPOSING FACTORS:

 Disease outbreaks in cultured fish appear
to be related to management factors such
as:
 The quality & quantity of nutrient and water
supplied.
 High stocking density.
 Poor management of fish farm.
SUSCEPTIBLE SPECIES:

 Mycobacteriosis - worldwide distribution in
fish population.

 About 167 species of both freshwater and
saltwater fishes have been reported as
hosts for this disease.

 Reported in freshwater prawn & cod.

 in aquarium fish

 in natural population
INCUBATION PERIOD:

 The incubation period varies greatly –
weeks / months to years

 depends on:
 susceptibility of fishes
 temperature
 severity of exposure.
MODE OF TRANSMISSION:
 Horizontal:
 Fish may be infected by ingesting feed & water
contaminated with faecal material, urine or
exudates from diseased animals that contain
mycobacteria.
 The infection may occur through the skin & gills
lesions caused by injure or parasitic infection.

 Carriers may play an important role in
spreading of the infection
 Snails
 Arthropods
CLINICAL SIGNS:
 Varies - depending on the species of fish affected &
water temperature
 Emaciation with reducing of growth rate.
 Loss of appetite of fish – anorexia
 Ascites
 Ulceration
 Deformities of the vertebral column and mandible.
 Fish show difficulties in maintaining balance.
 Exophthalmia and loss of one or both eyes
 Disease leads to loss of colouration in ornamental
fish.
 Loss of scales may be observed on the scales fishes.
 Gills are paler than normal and show thickened
areas on some filaments.
 Nodules in liver, spleen & kidney
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
TREATMENT AND CONTROL:

 There is no suitable treatment
 Mycobacterium spp. are mostly resistant to
conventional antibiotics
 Adding tetracycline to the water at dose 30
mg/l help in treatment of fish
 Chloramine B or T at a concentration of 10
mg/l for 24h is recommended for bath
treatment.
 Kanamycin (0.01%) mixed with food was
effective in treatment of disease among
ornamental fishes.
CONTROL OF DISEASE

 Stress factors must be removed.
 Dead fish must be removed & disposed - should
be treated at 76 0C for 30 minutes.
 Suspected or infected fishes should never be
introduced in to a pond or aquarium.
 Quarantine (2 months) is important in the
ornamental fishes
 Formalin or phenolic compounds should be
used as disinfections in fish farm at which the
disease have been recorded.
 SPF Fish egg
7. BACTERIAL KIDNEY DISEASE
 Renibacterium salmoninarum
 Family salmonidae

 Disease characterized by:
 dark coloration of the skin
 exophthalmia
 greyish or white abscesses in the kidney and
sometimes in visceral organs.
CAUSATIVE AGENT:
 Renibacterium salmoninarum
 gram-positive

 non motile

 short bacilli

 The optimum growth temperature is 15-17 0C

 Disease appears within 4 weeks.
SUSCEPTIBLE SPECIES:

 Family salmonidae
 Trout are also susceptible.
MODE OF TRANSMISSION:

 Horizontal transmission:
 Via oral route, skin erosions through
contaminated feed /water/other infected fishes
 Vertical transmission:
 through eggs.
 Vectors : Fishes and bivalve molluscs
 Carriers : salmonids species
CLINICAL SINGS:

 Darkness of the skin.
 Gills are pale in color.
 Exophthalmia
 Haemorrhages at the base of the fins.
 Abscesses on the skin. These abscesses may
rupture lead to ulcer formation.
 The body cavity has fluid. This fluid may be
yellowish or bloody.
 Swelling of the kidney.
 Presence of small abscesses in the kidney
and may also found in other internal
organs.
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
TREATMENT AND CONTROL:

 BKD is one of the most difficult of fish
diseases to treat with drugs

 because micro-organism is found
intracellular

 The disease can treated with clindamycin,
erythromycin, penicillin G, spiramycin, and
lincomycin.
CONTROL

 Drying and disinfecting the farm / equipment
 Restocking the fish farm with fish free from
disease.
 Control the wild fish from entering the fish
farm.
 The imported fish must be accompanied with
certification that the fish free from disease.
 SPF Fish egg
 Prevent movement of infected fish or fish eggs
from infected area to free one.
 Proper diet
 Prevent using of contaminated food or water.
8. ENTERIC REDMOUTH DISEASE
(HAGERMAN RED MOUTH)
 Pathogen - Yersinia ruckeri
 Affects salmonids species as well as non
salmonid species such as gold fish and carp
 The disease is characterized by:
 reddening in the mouth and throat or inflammation
and erosion of the jaws and palate
 darkening of the skin
 Exophthalmia
 inflammation of the intestinal tract.
 a.k.a. “Hagerman Redmouth”
 Rucker - First reported in 1958 in Hagerman
Valley.
 Named in 1978 Yersinia ruckeri
CAUSATIVE AGENT
 Yersinia ruckeri
 gram negative

 non spore-forming

 straight - rod-shaped

 Motile

 Optimum temperature for growth is 22 0C
MODE OF TRANSMISSION
 Horizontal
 contaminated food /water
 Injuries of the skin or scales or gills may also act as
route of infection.
 The organism may be present in the alimentary
tract and under stresses the bacterium may be
invade the fishes.
 Carriers - help in spreading the infection.
 Contact between healthy and diseased one.
STRESS FACTORS
 Rise of water temperature.
 Rough handling of the fish.

 Overcrowding

 Decrease in oxygen level.

 Poor feeding.
SUSCEPTIBLE SPECIES
 Salmonids species
 a few non-salmonids species - such as carp,
eel, sole, channel catfish and goldfish are
susceptible.
INCUBATION PERIOD
 five to ten days at 13 to 15 0C
experimentally.

 Water temperature and fish susceptibility is
responsible for determination of the
incubation period in all cases.
CLINICAL SIGNS

 The reddening of the throat and mouth because of
subcutaneous haemorrhages and hence the name.
 Erosion of the jaw and palate may occur.
 Haemorrhages occurs on the body surface, at gills tips, at
the base of the fins and around the lateral line.
 Darkening of skin my also occur.
 Fishes show partial or total blindness with exophthalmia
in one or both eyes.
 Some fishes show distended abdomen / may be emaciated.
 Congestion of the blood-vessels
 Haemorrhages found in liver, swim-bladder, lateral
muscles and adipose tissues.
 The kidney and spleen may be swollen.
 Intestinal tract is congested and filled with bloody mucous
especially the posterior part.
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
MORTALITY & MORBIDITY
 Young fishes are somewhat more
susceptible to ERM disease than older fish.
 Morbidity rate may be reach 100% in any
age and class of fishes.
 The mortality rate is usually higher in
younger fishes but is dependent upon fish
culture management.
TREATMENT
 Sulphamerazine: 265 mg/kg of fish/day for 3
days. Followed by 156 mg/kg of fish/day for
11 days.
 Oxytetracyclin : 55 mg/kg of fish/day for 10
days.
 Oxolinic acid: 10 mg/kg of fish/day for 10
days.
 Sulphamerazine and Furazolidone: 66
mg/kg of fish and 44 mg/kg of fish / day for
15 days.
CONTROL
 Stress factors must be removed.
 Keeping the water supply free from carrier
fish
 Eggs from infected brood stock should be
treated with antiseptic solution.
 Keep fish-eating birds and mammals away
from fish culture.
 Prevent movement of infected fish of
suspected culture to non-infected ones.
 Vaccination of fishes by oral route through
feed or by immersion or injection helps in
control of the disease.
9. PISCIRICKETTSIOSIS
 Piscirickettsiosis is a disease of salmonids
 caused by Piscirickettsia salmonis

 a significant disease problem in farmed
marine salmonids.
 First reported in coho salmon in Chile in
1989
PATHOGEN
 Gram-negative
 non-motile

 spherical to coccoid

 non-capsulated
HOST
 Salmonids, particularly Pacific salmon
vulnerable.
 Carriers - Wild fish, shellfish - crustaceans
all reported to harbor rickettsia but the
true source not established.
 Vectors (lice, isopods) may also be involved.
SYMPTOMS
 Skin lesions
 dark skin

 lethargy

 Anorexia (loss of appetite)

 nervous disorders in some cases

 ascites

 white nodules in liver and kidney

 Meningitis also reported is various fish
species.
TREATMENT & CONTROL

 Vaccines are used
 Chemotherapy used, although some resistance
developing
 10. PSEUDOMONAS SEPTICAEMIA
PSEUDOMONAS FLUORESCENS
 Affectsmost species of fishes
 caused by Pseudomonas sp.

 The disease is characterized by:
 septicemia
 high mortality
 normally a secondary invader

 hard to distinguish from Aeromonas
septicemia
 not a huge concern in fish
CAUSATIVE AGENT
 Pseudomonas fluorescens
 ubiquitous bacterium of soil, water

 Pseudomonas anguilliseptica causes red spot
disease in Japanese eel.
 gram negative rod-shaped bacteria

 non-spore-forming

 all are motile

 optimum temperature for growth is 20 to 25 0C.
SUSCEPTIBLE SPECIES
 All species of fishes are susceptible to
Pseudomonas infection under stress
conditions.
STRESS FACTORS
 Injuries or damage to skin or scales.
 Reduced dissolved oxygen.

 Presence of toxic substance in the water.

 pH variation

 Overcrowding of the fishes in farm.

 Malnutrition.

 Heavy infestation with parasites.
MODE OF TRANSMISSION
 Horizontal:
 The pathogen enters the host either
through the oral route or through broken
or abraded skin
 Damaged gills are also act as route of
infection.
 Carrier fishes may play a role in spreading
of the disease.
CLINICAL SIGNS
 Erythema (reddening of skin) - at the base
of fins, in the mouth under the lower jaw
and around the anus.
 Small haemorrhages

 The liver may be pale and haemorrhagic

 Kidney may be soft and liquefying

 Ascites
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
 TREATMENT AND CONTROL
 Treatment:
 oxytet (@50-75 mg/kg/f/day for 10 days)
 no vaccine yet
 Control
1. The stress factors must be removed.
2. Good management of the fish farm.
3. External disinfection reduces spreading of
the disease.
 11. BACTERIAL GILL DISEASE
(FLAVOBACTERIUM BRANCHIOPHILUM)
 Gill infections primarily in juvenile fish

 F. branchiophilum – pathogen

 affect primarily cultured and aquarium fishes

 Disease characterized by respiratory and
osmoregulatory impairment
CAUSATIVE AGENT
 Gill disease is caused by several agents:
 Myxobacteria (Flavobacterium
branchiophilum) in combination with
unfavorable environmental conditions. This
type termed (bacterial gill disease).
 Deficiency of pantothenic acid (Vit-B5). This
type is called nutritional gill disease.
 Chemical pollution or pesticides with
secondary mycotic infection (Haemorrhagic
gills disease).
STRESS FACTORS
1. Low oxygen content.
2. High turbidity of water.
3. High ammonia in water.
4. Change in pH of water.
5. Over stocking in fish farm.
6. Malnutrition of fish.
7. Mechanical injuries of the skin or gills.
8. Toxic inorganic and organic substances.
HOSTS
 Wide range of hosts
 Mainly salmonids

 Occurs in warm water fishes

 Carp, goldfish, catfish, eel and other fishes

 Fry stage more susceptible than adults
TRANSMISSION
 Transmission – horizontal - water to fish
 disease can be transmitted through injuries
of gills
 Reservoir – not clear

 Infected fish, mud, silt in water

Environmental factors:
 poor water quality, crowding, high organic
matter, stress, temp fluctuation
CLINICAL SIGNS
 Food intake by fish is reduced.
 Sluggish movement of affected fish.

 increased mucous secretion by the gills.

 Gills may be swollen and congested, which
results in their appearance deep red than
normal.
 In advanced cases gills lamellae are clubbed
and filaments may be fused together
 white to grey spots on the gills
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
MORTALITY AND MORBIDITY
 Morbidity rate is high and may reach 100%
 Mortality - 25% to 30%

 Morbidity and mortality rate from bacterial
gills disease are usually more severe than
environmental gill disease.
TREATMENT AND CONTROL
 Antibiotics used for treatment of bacterial
gill disease.
 Quaternary ammonium compounds
 Chloramine T
 Oxytetracycline
 External disinfectants are used for
treatment such as potassium permanganate
100mg/l for 30 second.
 Stress factors must be removed.

 Good management of the fish farm.
12. COLUMNARIS DISEASE (SADDLE BACK
DISEASE) - FLAVOBACTERIUM COLUMNARE

 Flavobacterium columnare (formerly,
Flexibacter columnaris)
 Affects mainly fresh water fishes - but also
occurs in brackish and sea water fishes
CAUSATIVE AGENT
 Flexibacter columnaris or Flavobacterium
columnare
 gram-negative rods

 motile by gliding movement

 Optimum - 4 and 30 0C
STRESS FACTORS
1. Rise of water temperature above 20 0C.
2. Rough handling and transportation of fishes.
3. Overcrowding in fish farm.
4. Physical injury of fish.
5. Low oxygen content.
6. Organic pollution of water.
7. Nutritional deficiency especially vitamins.
CHARACTERISTICS OF THE DISEASE
 Rarely occurs unless fish is stressed

 Most frequently occurs between March and
October when water temperatures are
higher
SUSCEPTIBLE SPECIES
 All freshwater fishes are susceptible to
infection
 Also occurs in brackish and seawater fishes.

 Young fishes are more susceptible than
adult ones.
INCUBATION PERIOD
 Varies from less than 24 hours - two to
three days.
 Depends on stress factors
MODE OF TRANSMISSION
Horizontal:
1. Injuries of the skin or gills help in
transmission of the disease.
2. Movement of the infected fishes help in
spreading of the infection.
3. Carriers transmit the infection among
fishes.
CLINICAL SIGNS
 Lesions on body surface
 Pale discoloration at the base of fin

 Eroded skin

 Gills necrosis- complete destruction

 Increased mucous on skin

 Saddleback appearance

 Ulcers and lesions in skin leading to gray or
colorless skin ulcers
 Loss of appetite

 Lethargy
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
MORTALITY AND MORBIDITY

 Morbidity rate of columnaris disease in
unsanitary conditions may reach 100%.
 Mortality rate under the same condition
may reach 70% or higher among the young
and most susceptible fishes.
TREATMENT
1. Potassium permanganate: 500mg/100l for
1 hour by bath method.
2. Malachite green: 10mg/100l for 30-96
hours by bath method.
3. Oxytetracycline: 50-100mg/kg body
weight of fish/day for 10 days.
CONTROL
 Stress factors must be avoided.
 Proper nutrition - will reduce the rate of
disease.
 Lowering the temperature (adding cold water)
will reduce disease severity.
 Control of F. columnaris infection may be
possible by immunization.
13. COLDWATER DISEASE / PEDUNCLE DISEASE
FLAVOBACTERIUM PSYCHROPHILIUM
 Bacterial cold-water disease - CWD
 occurs more often in cold water fishes

 caused by Flavobacterium psychophilum or
Cytophaga psychophila
 characterized by tissue necrosis of tissue at the
base of the caudal fin (the caudal peduncle).
PATHOGEN
 Pathogen - Cytophaga psychrophila – then as
Flexibacter psychrophilus – now as
Flavobacterium psychrophilium
 Long slender Gram-negative rod

 motile by gliding movement

 aerobic

 Optimum temperature 4-23 0C
 HOST RANGE AND VECTORS
 All cold-water fishes are susceptible

 Most of aquarium fishes are also susceptible to
peduncle disease.
STRESS FACTORS
 Malnutrition of fish.
 Presence of toxic substance in the water.

 Rough handling of fish.

 Elevation pH of water.

 Poor water quality

 Over crowding increase the incidence of the
infection.
 Presence of organic matter favors infection
CLINICAL SIGNS CWD
 Tissue necrosis of tissue at the base of the
caudal fin (the caudal peduncle).
 Rough appearance of skin
 Erratic/spiral swimming
 External lesions / ulcers on fins, skin, muscle
 Inflammation and necrosis of the affected
area.
 Destruction and sloughing of fins.
 The necrosis of muscle tissue continues and
the vertebral column may be exposed before
fish dies.
 Development of deformities and/or nervous
disorders
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
MORTALITY AND MORBIDITY
 Morbidity may range from 1% to 50%
particularly where water temperature are
below 10 0C.

 Mortality may approach 70%.
TREATMENT AND CONTROL
 1. Potassium permanganate: 2mg/l by
flush method.
 2. Oxytetracycline in food: 50 mg/kg of
fish/day for 10 days.
 3. Sulpha drugs (sulphamethazine):
220mg/kg body weigh/day for 10 days.
 4. Stress factors must be removed.
 5. Good management of the fish farms or
aquaria helps in control of the disease.
 14. VIBRIOSIS
 Vibriosis is one of the most prevalent fish
diseases
 caused by bacteria belonging the genus Vibrio
 V.anguillarum, V. ordalii and V. salmonicida
 affect many marine and fresh water fishes
 The disease is characterized by:
 Septicemia
 Dermal ulceration
 Ascites
 Necrosis
CAUSATIVE AGENT
 Mainly V. anguillarum
 Gram negative
 motile
 non-sporulating
 non-capsulated
 Vibrio sp. ubiquitous in marine and brackish water
 Bacterial number high - high organic load.

 Incubation:
 Incubation period may be short (3 days)
 This depends on virulence of the pathogen and
susceptibility of the fishes.
SUSCEPTIBLE SPECIES
 At least 50 species of fishes are known to be
susceptible to V.anguillarum infection

 Most are marine & estuarine fishes
(salmonids, mackeral, herring etc.).

 Fresh water fishes are also susceptible to
vibriosis include carp, eel and tilapia.
STRESS FACTORS
1. High water temperature.
2. Over crowding in fish farm.
3. Organic pollution of the water.
4. Poor nutrition.
5. Poor water quality.
6. Improper handling.
MODE OF TRANSMISSION
 Horizontal:

 The infection may be transmitted through oral
route.
 External injures and external parasites may play a
role
 Carriers may be playing a role in spreading of the
infection.
 Contact between diseased fish & healthy one.
CLINICAL SIGNS
 Anorexia, anaemia, darkening of the skin, red
spots on skin, ulcers, hemorrhages, abdominal
distension
 Congestion and swelling of the spleen, liver and
kidney.
 Presence of clear viscous fluid within the
intestinal tract.
 Eyes are affected - lesions with oedema,
ulceration and exophthalmia.
 Fin rots and paleness of gills may be show in
chronic infection.
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
MORTALITY AND MORBIDITY
 Morbidity rate may reach 100%.
 Mortality rate among susceptible fishes
may reach 80%
TREATMENT AND CONTROL
 Broad spectrum antibiotics effective
 Increasing antibiotic resistance is observed

 Sulphamerazine : 12gm/100lb of fish/day for three
days followed by 7 gm/100lb of fish/day for 11
days.
 Oxytetracycline: 3-5gm/100lb of fish/day for 10
days.
 Furazolidone in feed: 100mg/kg/fish/6days.

Vaccination:
 Formalin-killed vaccine - very effective

 administered via injection
TREATMENT AND CONTROL
 Stress factors must be avoided.
 Good management of fish farm.

 Disinfection of the fish egg, equipment, pond.

 Feeding the viscera of infected fish as sources of
protein to healthy one should be avoided.
 Fishes from infected farm should be not move to
non-infected areas.
 Quarantine of new fish and good sanitation will
minimize the spread of infection.
 15. PHOTOBACTERIOSIS /PASTEURELLOSIS /
PSEUDOTUBERCULOSIS

 disease of marine and brackish water fishes

 caused by Photobacterium damselae subsp.
piscicida (formerly - Pasteurella piscicida)

 characterized by white granulomatous
lesions in the internal organs.
CAUSATIVE AGENT

 Photobacterium damselae subsp. piscicida

 Gram negative

 non-motile rod

 multiple drug resistance
SUSCEPTIBLE SPECIES

 A variety of fish species

 Perches, striped bass, black sea bream, red
sea bream, groupers
CLINICAL SIGNS
 Characterized by white granulomatous lesions
in the internal organs.

 Redness in the operculum

 Enlargement of the spleen

 Haemorrhages of the gills

 Necrosis in spleen and kidney

 Oedema
DIAGNOSIS:
 Case history
 Clinical signs

 Postmortem findings

 Microbiology - Isolation and identification of
the causative agent.
 Serological identification of the etiology by:
 a. Agglutination test.
 b. Precipitation test.
 c. Fluorescent antibody technique.
 d. ELISA.
TREATMENT AND CONTROL
 Oxytetracycline, Romet, oxolinic acid,
ampicillin and amoxicillin medicated feeds.

 Commercial vaccines are currently in the
developmental stage.
16. INFECTIOUS DROPSY
 16. DROPSY
 Dropsy is the build up of fluid inside the body
cavity or tissues of a fish.
 a symptom rather than a disease

 it can indicate a number of underlying
diseases, including bacterial infections,
parasitic infections, or liver dysfunction.
 Because dropsy is a symptom of an illness, its
cause may or may not be contagious.
 However, it is standard practice to quarantine
sick fish to prevent spreading
Bacterial Dropsy
CHARACTERISTICS
 Dropsy in fish is characterised by a swelling
of the abdomen.
 A.k.a ascites — is the accumulation of fluids
in the visceral cavity of a fish.
 Exophathalmia
 Scale protrusion - In severe cases the
distension is so great that the scales stand
out from the body.
 It often causes the fish scales to stick out
and gives the fish a “pine cone” like
appearance.
 They also appear listless / lethargic and
have a loss of appetite.
PATHOGEN
 the most common cause of dropsy is internal
bacterial infection.

 Several bacterial diseases including:
 Aeromonad disease (Aeromonas hydrophila)
 Pseudomonad septicemia (Pseudomonas fluorescens,
Pseudomonas punctata)
 Vibriosis (Vibrio anguillarum) — can result in
dropsy.
TREATMENT & PREVENTION

 Dip treatment in 5ppm potassium permanganate
solution for 2 minutes

 Monitor and maintain healthy water chemistry
 Observe your fish daily for signs of stress

 Don’t overcrowd your tank

 Feed a good quality food

 Maintain an appropriate water temperature.
 17. STRAWBERRY DISEASE

 A.k.a Red Mark Syndrome/ Cold Water
Strawberry Disease

 A severe dermatitis affecting the rainbow trout
Oncorynchus mykiss

 Cause
 Bacterial
 Allergic reaction

 Symptoms
 Rough reddened areas on the body surfaces
 Reddened raised inflammation on skin

 Morbidity 10-15%
 18. FIN & TAIL ROT
Aetiological agent:
 Vibrio, Aeromonas,
Pseudomonas

 It affect both adult and young

Symptoms:
 Infection during its early stage
appears as a white line on the
margin of the fin, fin rays
become brittle and start
breaking, eventually putrefies
and disintegrates

Treatment:
 1 minute dip treatment in
500ppm copper sulphate
solution.
THANK YOU