Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Lernaea
1.
2. • Lernaea species, commonly known as ―anchorworms,‖ are
crustacean, copepod parasites that can infect and cause
disease and mortality in many types of freshwater
fishes, especially wild-caught and pond-raised species.
• Lernaea cyprinacea, one of the more common species, is found
worldwide. It is most common in cyprinids, including
koi, common carp, and goldfish
5. • Common sites of lernaea infections include the skin, fins, gills,
and oral cavity
• When female parasites attach to the fish, they burrow deep
into the tissues and eventually embed an anterior anchor into
the fish’s body. Intense focal inflammation and hemorrhage
can occur at the attachment site, making the area appear red
and ulcerated.
6.
7. • When seen by the naked eye, the most commonly observed life stage
of the organism—the adult female—appears as a small, thin ―thread‖
or ―hair‖ approximately 25 mm long.
• Under the microscope, the long, tubular body has an anchor on the
anterior end and paired egg sacs on the posterior end
• The anchor, located in the anterior (―head‖) region, is typically
embedded into the host’s tissue, while the posterior end, with its egg
sacs, extends out into the water column. Juvenile life stages,
especially the copepod stages, may also be seen on skin, fin, or gill
samples with use of a microscope
8.
9.
10. Symptoms of anchor worm can be as follows:[2]
• Anchor worms (lernaea) can be seen with the naked eye
• Frequent rubbing or "flashing"
• Localised redness
• Inflammation on the body of the fish
• Tiny white-green or red worms in wounds
• Breathing difficulties
• General lethargy
11.
12. • Individual lernaeids can be removed from the affected fish using
forceps.
• Consultation with a fish health professional is necessary to ensure
legal and appropriate drug or pesticide use.
• It should be noted that the only available treatment regimen
for lernaea in food fish species is salt.
• In one salinity study with l. Cyprinacea, a percentage of adult females
survived fairly prolonged exposure, up to 22.4 g/L seawater (ppt) for
up to 6 days.
• At 25.6 ppt, adults were killed by day 2.
13. • Development of younger life stages that did hatch was prevented if
the parasites were exposed for at least 5–6 days at 4.8 g/L.
• For food fish that can tolerate the salinity, 4.8 g/L seawater for up to
about 30 days is the best choice to control the parasite because other
drugs and pesticides are not legal for treatment of food fish species.
• Adult female lernaeids are more tolerant of salt, additional measures
may be necessary to effectively break the parasite life cycle.
• Removing fish from the system for 7 days will break the life cycle in
the tank because larval stages cannot survive without a host for this
time period.
14. • Diflubenzuron (also known as dimilin) is a pesticide that interferes
with growth of the parasite and will kill molting adult and larval stages
at a dose of 0.066 mg diflubenzuron/liter.
• Then 4.8 g/L seawater for up to about 30 days should help control the
parasite as long as the fish can tolerate this salinity level. Fish can
also be removed from the system for 7 days to break the lernaeid life
cycle within the tank.)
• Wounds resulting from an infection with lernaea should be closely
monitored, and optimal water quality should be maintained for the
duration of treatment to minimize risk of secondary bacterial and
15. • For non-food fish species, such as ornamental production or
home aquarium situations, additional treatments besides salt
are available.
• Prolonged immersion with an organophosphate such as
trichlorfon is an effective treatment for ornamental fish.
• A 30-minute bath with 25 mg/l potassium permanganate will
kill larval lernaeids, but adults may survive.
16.
17. • Incoming fish must be strictly quarantined and tested in
order to avoid introducing lernaea to a system.
• This is especially important with food fish species because
treatment options are so limited.
• Before they are introduced into a system, all fish, especially
high risk species such as carps (e.G., Goldfish and koi), should
be visually screened for adult parasites and then monitored
regularly during quarantine. If the parasite is detected, early
intervention will result in the most successful outcome
Editor's Notes
Infestations with Lernaea are most prevalent in the summer months and occur more commonly in stagnant or slow-moving water bodies.Approximately 110 species of lernaeids (Lernaea and Lernaea-like parasites) have been described.; however, it can infect other species of fish and has caused major kills in Arkansas catfish in ponds that were also stocked with bighead carp. Lernaea has also been reported to infest amphibians.
Lernaea (anchorworm) life cycle. The entire life cycle may take from 18-25 days at approximately 25-30oC.
Large numbers of lernaeids in copepodid stages can kill small fish by damaging their gills and making it hard for the fish to breathe.
While an infection by small numbers of parasites isn’t necessarily fatal, it is extremely irritating to the fish. Lernaea can cause intense inflammation, leading to secondary bacterial (e.g., Aeromonashydrophila) and fungal infections.
Because adult female Lernaea may be confused with plant fibers, fungi, or other organisms, a fish health professional should be consulted for an accurate diagnosis. Use of a microscope to examine wet mounts of affected areas (skin, gill, oral cavity, fins) will be necessary to confirm the presence of this parasite.
However, the removal is not always complete; sometimes the anchor portion remains embedded. The forceps method is impractical on a large scale, and other methods are recommended. Regardless of the method used, treatment of the entire system is necessary in order to treat all the fish and to control all life stages of the parasite, including those stages that survive off the host. Adult female lernaeids can survive 30 days on a fish host and are hardier than younger life stages; therefore, treatment should continue for several weeks.
Interestingly, there is evidence suggesting that successfully treated fish may become resistant to future infections with Lernaea.
Interestingly, there is evidence suggesting that successfully treated fish may become resistant to future infections with Lernaea.
Interestingly, there is evidence suggesting that successfully treated fish may become resistant to future infections with Lernaea.
