Fish and Marine Invertebrates: Health, Disease and Physiology
SUMMARIES OF ARTICLES ABOUT FISH AND MARINE INVERTEBRATES
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City fish take in antidepressants
Trout near Montreal may be affected by antidepressants in sewage
source: New Scientist vol 209 no 2797, January 29 2011 p5
Trout near Montreal, Canada, may be affected by antidepressants in sewage from the city. University of Montreal's Sebastien Sauve screened the muscles, livers and brains of trout exposed to sewage that came from Montreal, mixed with water from the St Lawrence seaway. The antidepressants found in the trout included Prozac. Sauve fears that the drugs could have an effect on fish behaviour in the long term.
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Accidental electroshock of fish in a recirculation facility
Effect of short, accidental electrical exposure on fish in
a research facility
source D.J. Pasnik et al
Veterinary Record vol 153 no 18, November 1 2003
starts p 562, 3 pages long
Fish can be hit by lightning, or affected by faulty electrical equipment.
This study shows the effects of a brief, accidental exposure on yellow perch,
kept in a lab setting. The fish were all found lying on the tank bottom, and
their bodies were distorted. The system was repaired, but the fish were subsequently
not able to eat unless fed by hand. Ten weeks after the event, they were euthanased.
The fish were examined and found to have luxations and vertebral fractures.
There were also haemorrhages in the fishes' dorsal musculatures. These injuries
were caused by the accidental shock, though the equipment was designed to
cut out after some 0.025 seconds. The spinal deformities seen in these fish
appear to be the result of severe contractions of white muscles. The vertebral
column absorbs stresses, and fractures or compresses. These fish did not show
signs of burns, which is to be expected, since they were immersed in water.
Electrocuted fish can be permanently deformed after electrical exposure, and
this can lead to 100% mortality rates. Nerve, tissue, and muscle damage can
result from exposure to electricity. Fertility, growth and stamina can be
affected, and changes in the blood chemistry of electrocuted fish have also
been noted, including higher levels of cortisol and glucose.
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Efficacy of bronopol against infection of rainbow trout (Oncorhynchus
mykiss) with the fungus Saprolegnia species
Bronopol found effective against Sarolengnia fungus infection
in brown trout
source: E Branson
Veterinary Record vol 151 no18, November 2 2002
starts p539, 3 pages long
Saprolegnia fungi are probably the pathogenic fungus species most commonly
affecting fresh water fish. The fungi tend to affect fish that are already
weakened by disease, injury or malnutrition. Handling may cause injury to
skin, which can lead to infection, which gives the fish the appearance of
having cotton wool patches. Malachite green, a teratogen and carcinogen, is
traditionally used to treat salmonids, but no licensed treatment for UK fish
farmers exists.
The trial sought to assess how useful bronopol could be in tackling a natural
Saprolenia infection affecting rainbow trout. Bronopol is an enzyme inhibitor,
and the formulation used came from Novartis Animal Vaccines. Eighty broodstock
were used in the trial, carried out after handling to strip their eggs. The
group was spilt into four groups of 20 fish each, moved to separate raceways
from a common raceway. Two groups were treated with bronopol at 20mg/litre
for 30 minutes per day, and two were given a placebo over 15 days.
The fish receiving bronopol showed zero infection level by the end of the
trial, compared with 40% for one group and 70% for the other at the start,
while the untreated fish showed an increased in infection from 35% to 55%
in one group, and 45% to 74% in the other. Some infections in the untreated
fish may have come from river water used in the raceways during the trial,
while the treated fish were protected against reinfection. No adverse reactions
to bronopol were apparent.
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Flavobacterium columnare (Flexibacter columnnaris) associated
with severe gill necrosis in koi carp (Cyprinus carpio L)
Columnaris disease in koi carp
source: A. Decostere et al
Veterinary Record vol 150 no 22, June 1 2002
starts p694, 2 pages long
Columnaris disease is common among edible and ornamental fish found in cold
and ornamental waters, and vets need to be able to recognise it and treat
it in time, or it can cause heavy losses.
One case involved 25 Japanese koi carp, which were hit by an outbreak in
May 2001. Their symptoms included hanging at the surface of the water, listlessness,
and lack of appetite. They did not show discolourations or skin lesions. They
then started gasping for air and lay side upwards, dying within 48 hours of
first showing symptoms. Nine of the koi died during a four-day period. The
temperature of the water was 20 deg c, while the pH, oxygen, ammonia and nitrate
levels were normal.
The kois’ gills showed an excess of mucusy secretion, visible as yellowish-white
areas through all the arches of the gill. Just a slight touch of the gill
tissue led to haemorrhage. No parasites were found in the gills or skin, nor
were there internal lesions found in post mortems of two euthanased fish.
Affected gill tissue was studied by histological examination. There were necrotic
cells, and long, slender bacteria in numerous clusters. The gill architecture
had totally disappeared in some of the koi. Incubation using Shieh plates
revealed F Columnare.
Treatment comprised oxytetracyline added at a dosage of 2.0g per 100 litres
during three days, repeating the treatment four days later. An additional
two koi died during the first day, but the remaining fish recovered, with
an improvement in appetite and activity levels.
This disease has been linked to poor environmental conditions and stress,
but this did not appear to be the case with these koi, and it may simply have
been an especially virulent strain. There have been comments on the different
virulence of strains of F columnare.
It is important to diagnose this disease early on, especially if a virulent
strain is involved, since fish that are badly affected usually have to be
euthanased, while earlu treatment can save the other fish. F columnare needs
special media to grow, and blood agar cannot be used. Vets can spot the typical
gill lesions, and can see the filamentous, long, slender bacteria, through
microscopial examination of gills. Vets can start treatment before getting
confirmation of the disease. Oxolinic acid, nifurprinol, and oxytetracycline
have all been successfully used to treat this disease.
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The eyes have it
Eye whites give off signals about health and social status
of salmon
source: New Scientist September 22 2001 p25
The eye whites of salmon give off signals about the health and social status
of the fish, according to Glasgow University’s Hayley Suter and team
from the unit for fish biology. The sclera, or white of salomn’s eyes,
is a light cream colour in dominant fish, becoming darker when the fish are
ill. Dark sclera are found in fish of low status, and their eye whites become
lighter if they are victorious in a battle, or eat a meal. A meal of a few
worms can lighten the colour of a low-status fish’s eye white.
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The tough get glowing
Genetically engineered zebra fish may be used to detect
pollutants
source: Kristin Ohlson
New Scientist January 12 2002
starts p37, 2 pages long
Zebra fish have been genetically engineered to glow when pollutant levels
are high. The fish were developed by University of Cincinnati’s Daniel
Nebert, an environmental geneticist, and Michael Carvan, specialist in aquatic
toxicology from the Great Lakes Water Institute of the University of Wisconsin-Milwaukee.
The research has involved using both a gene that responds to dioxins and PCBs,
and one that is involved in the production of luminescent chemicals used by
fireflies. Fish tend to accumulate toxins in their bodies, and react quickly
to rises in pollutant levels, though a luminometer has to be used to measure
the glow, since humans cannot see it unaided. The fish provide a more sensitive
way to detect pollution levels than most testing systems, except those that
are extremely expensive.
There are important applications for this work, such as detecting pollutants
in water supplying Clermont County from Lake Harsha, Ohio. This is a concern
due to the location of a dump of hazardous waste only 8 km from the lake.
A pilot study has already tested fish at a monitoring station for water quality
for Clermont County, and eight out of the ten fish survived, though zebra
fish are semi-tropical. The researchers have been unable to find enough funding
to progress to building up stable zebra fish lines, despite the importance
of their research.
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Enemy within
Coral reefs may have been hit by a virus
source: James Randerson
New Scientist October 13 2001 p18
A virus may have affected corals, causing them to be more vulnerable to warmer
seas temperatures, according to researchers from Plymouth’s Marine Biological
Association. They argue that this could explain why not all corals are affected
by warmer sea temperatures. The virus may be found in symbiotic algae that
provide energy for corals, through photosynthesis. A sea anemone, Anemonia
viridis, also has symbiotic algae. They heated water in which this anenome
lives, and a virus in these algae multiplied rapidly. It is not certain whether
corals are affected in this way, but they are closely related to anemones.
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