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A ruthless fish killer: Treating and diagnosing Amyloodinium

Jeremy GosnellBy Jeremy Gosnell 4 years ago
Home  /  Science  /  A ruthless fish killer: Treating and diagnosing Amyloodinium

scribbled_angel_female_reefers_3[1]There are a variety of parasites that effect marine fish, but often aquarists are stricken with one of the two most common. Cryptocaryon irritans (marine ich) and Amyloodinium ocellatum (marine velvet) are both parasites that uncommonly kill wild marine fish, but can wreak havoc on captive systems. I would like to address the latter parasite, as it often causes quick mortality of fish and is tough to diagnose. When it appears on the skin of marine fish it can easily be misidentified, appearing similar to marine ich. Treatment for this parasite presents an unwelcome challenge for marine aquarists, first because it often strikes with no outward signs of infection and second because it’s seemingly impervious to hypo-salinity.    What is Amyloodinium: Amyloodinium is an extracellular parasite that has a free swimming life phase. It uses a root like structure called rhizoids to attach itself to the gill and skin tissue of marine fish. Amyloodinium is a dinoflagellate of the family Blastodiniphyceae. Most dinoflagellates are free swimming, often photosynthetic microbes within planktonic food webs, serving as important food sources for various fish species. Only Amyloodinium is reported to cause disease in marine fish. Life cycle and survivability:ssamyl17LgVarious studies have been conducted on Amyloodinium, mainly for the culture of food fish, specifically red drum and striped bass. The life cycle of the parasite is very similar to that of marine ich, meaning that it requires a fish host to survive and procreate. Once the parasite has embedded onto fish tissue, protected by the fish’s natural slime coat, it begins feeding off bodily fluids, dropping off within 7-10 days, falling into the substrate and reproducing up to 256 copies of itself. Like marine ich, encysted parasites are immune to any medication, with the only treatable part of the parasite’s life cycle being the free swimming stage. Amyloodinium is impervious to hypo-salinity and has been recorded in salinities down to 3 ppt, much lower than most marine fish can tolerate. Its fast life cycle leads to massive infestation of fish in the marine aquarium, once the life cycle has begun. It’s not uncommon for aquarists to start seeing loss of fish life within 12 hours of the parasite’s first symptoms. This parasite is perhaps both the deadliest and hardiest parasite that marine aquarists will encounter. Diagnosing and treating: Instead of re-iterate information second hand, I want to provide an outline for diagnosing and treating this parasite, based off personal experience. I recently had an outbreak of Amyloodinium over two aquariums on one central system: a 220 gallon along with a 150 gallon cube. Luckily I had the equipment on-hand to make an accurate diagnosis via microscopic evaluation of a gill biopsy. Like most marine fish parasites, there is more misinformation surrounding Amyloodinium than accurate, research based information, so I will provide a two reliable links at the bottom of this article. ssamyl10LgI first noticed signs of the parasite when a black tang quit feeding, remaining isolated at the bottom of the within some rockwork. I calculated the fish’s respiration rate at 120 breathes per minute, which is about 40 times higher than normal respiration. The fish showed no signs of outward parasitic infection. I removed the fish, offering it a freshwater bath (15 min) and secondary bath of Seachem Para Guard. After the bath, I placed the fish in a hospital tank and administered copper treatment. By the next morning the black tang was dead. I took a gill biopsy and put it under the microscope, noticing the tell-tale spots among the gill tissue indicating Amyloodinium infection. This gets us to the first part of dealing with this parasite, diagnosis. You need to know your fish, their habits, activity rates, etc. I would recommend that any marine aquarist have a baseline average for each fish’s respiration rate. This is easy to do, set a stopwatch for one minute and count how many times the gill moves during that time. Make note of it. If any of your fish show an increase in respiration, for no apparent reason (i.e. being chased by a tank mate) this could signal an Amyloodinium infection. The parasite has the nasty habit of infecting gill tissue first, often killing fish before the aquarist even realized anything was wrong. If a fish is not eating, listless and respiring quickly, then it’s best to assume it’s infected with Amyloodinium. As the infection progresses often fish flesh will appear hazy, or velvety (hence the parasite’s common name). Under the microscope it’s easy to see why, as thousands of tiny parasites are attached to the flesh. It’s not nearly as apparent as ich, which leaves easily spotted sugar like spots. In Amyloodinium infections, the flesh appears like it was rolled in flour. Using a flashlight and shining light down from above, normally you can spot individual cysts lining the fish’s skin. For an unskilled aquarist, this disease is terribly difficult to diagnose. To give you an idea of how fast this parasite moves, in the course of one day I lost one fish, diagnosed the parasite and already had another fish (an Achilles/goldrim hybrid) respiring quickly. The mistake I made, and one that I don’t suggest others make, was acting too slowly with the wrong medication. Since both infected aquariums are fish only tanks, I attempted treating the parasite with Seachem Para Guard since it’s not as adverse to fish as copper treatment. It was entirely ineffective in treating this parasite. My assumption is that the mechanism under which Para Guard acts (using a medicinal dye to kill parasitic life forms) is simply too slow to interrupt Amyloodinium’s life cycle. imagesTreatment (whether in a hospital tank, display tank or otherwise) should be swift and far reaching. Since it’s likely the aquarist will be unsure exactly what parasite they are dealing with, assume it’s Amyloodinium. A good start is administering freshwater baths to all fish exposed to the parasite. This does very little to encrusted parasites on the skim, protected by slime coats, but can remove parasites from gill tissue. After a freshwater bath, often the aquarist will find tiny spores floating along the container bottom. These are perfect for microscopic analysis of the parasite. There is conflicting information regarding temperature’s role in Amyloodinium’s life cycle. Some literature suggests it makes zero difference, others suggest it speeds the life cycle up and a few claim the warmer temperature allows the parasite to thrive. In my experience as an aquarist, warmer temperatures speed up the life cycle of ecto-parasites. This may be a result of speeding up physiological processes within fish, or a direct result on parasite physiology, but I do recommend a temperature increase when treating Amyloodinium. I increase temperature to 86 degrees, under which conditions major tissue infestation was gone in under three days. Copper is the weapon of choice in Amyloodinium infections. The links I provide will detail other treatments, but most are either too hard to acquire, or simply unsuitable for most marine aquarists. Others would require enhanced testing, and should only be administered by a veterinarian, as they have the ability to cause more harm than good, permanently damaging the ecological balance of your tank. I suggest and use Seachem’s Cuprimine, which is a chelated copper. This means the copper is bound to another ion, making it more stable in seawater, but also meaning that more copper will be needed to reach the desired saturation. I treat at a dosage of .7 mg/l. This is higher than recommended doses of .5 mg/l and is unadvisable if you have fish species sensitive to copper. Reality is, if a species is copper sensitive, than using copper in any regard will likely have fatal consequences. Also remember that chelated copper will require a special absorption media to remove from the water column at treatment’s end. Carbon will partially remove it, but using something along the lines of Copper-sorb will be more effective. There is conflicting evidence on the value of lowering light levels while treating an infection. Some literature suggests it may impede the parasites ability to find a host. Others suggest it does nothing. Reduced light levels does aid in helping keep fish calm and reducing stress. I suggest doing it, while treating the first stages of infection. During this time, use a flashlight to gauge the treatments progress at killing the parasite. To make things easy, I’ve developed a quick checklist for diagnosis and treatment:

  • Perform gill biopsy on deceased fish, or do a visual inspection of fish respiration rate or tissue condition.
  • Remove each fish, treat with a freshwater dip and move to a hospital tank if necessary. (Remember all fish within the tank have been exposed and are likely infected with the parasite.)
  • Raise copper level within treatment tank to .7 mg/l over the course of three days. Raise tank temperature to 86 degrees and dim lights – relying on moon lighting.
  • Keep light reduced and temperature high for the first seven days of treatment, testing copper level once in morning, once at night each day and after the addition of top off water.
  • During treatment, I recommend heavily vacuuming the substrate, which can remove encrusted parasites which are preparing to release up to 256 new free swimming infectious copies of themselves.
  • After seven days, if fish show no signs of rapid respiration, are feeding and tissue lacks evidence of parasite, reduce temperature and slowly return to normal lighting.
  • Maintain copper concentration at .7 mg/l for 14 days, dropping to .5 mg/l after and tapering off over the course of one month.
  • When treatment has ended, make sure to use a filter media to remove as much residual copper as possible. If the tank is stocked with liverock, sand, etc – it is inevitable that some copper has bound to those surfaces.
  • Treat any secondary infections. Once copper is removed I recommend a short treatment with Seachem Stress Guard, which serves as an antiseptic and mild anti-parasitic. This parasite leaves tiny wounds wherever it attaches too, meaning fish can be covered in hundreds of small wounds. I also recommend API’s Stress Coat, which is an aloe based product that aids healing. Copper is an immune-suppressant, and its use combined with tiny wounds lends well to secondary bacterial infection. When treating an outbreak, it’s best to prepare and treat for secondary infections.

  The reality when dealing with this parasite is that it’s highly likely you will lose some livestock. A quick plan of appropriate action can help lessen the blow and allow the remaining fish to heal appropriately. Final thoughts:MV2The outbreak of Amyloodinium I am still treating for, occurred during a period where no fish were added to the tank (last fish added over 6 months ago), and no significant change in water quality was reported. This means that the parasite was either dormant in the substrate or imbedded on fish tissue with no outward signs of infection. Either or could be the case, and it’s important to understand that research has shown that some fish develop an interesting immune response to Amyloodinium. The parasite will embed and begin feeding, but the fish’s body produces something that nullifies the parasite. This means that even if all fish are removed from the display for an extended period of time, there is still a chance of parasitic reoccurrence. Quarantine and prevention, as always, is the best medicine, but even under the best circumstances, it’s not uncommon to come face to face with this common parasite. In wide spread aqua culture, Amyloodinium has been a serious threat to fisheries, and even with modern day technology proves difficult to entirely prevent or eradicate. An infestation of Amyloodinium doesn’t signal poor husbandry practices and many forum users like to believe, just an unfortunate scenario that will test your skills as an aquarist. Links:http://fisheries.tamu.edu/files/2013/09/SRAC-Publication-No.-4705-Amyloodinium-ocellatum-an-Important-Parasite-of-Cultured-Marine-Fish.pdfhttp://www.sci.sdsu.edu/salton/Amyloodiniumocellatum.html

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Jeremy Gosnell
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 Jeremy Gosnell

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Jeremy Gosnell has been an aquarist for nearly all of his life. While studying sociology in college, he began writing for Freshwater and Marine Aquarium Magazine, moving over to Fish Channel and Aquarium Fish International in 2005. In 2008 he began composing feature articles for Tropical Fish Hobbyist Magazine, and today serves as TFH's monthly saltwater Q&A writer, and is a member of the peer review content editorial board. After becoming a PADI certified dive master and specialty instructor, Jeremy trained with the Beautiful Oceans Academy as a science diver, specializing in coral reef biology, ecosystems and food chain hierarchies. He worked with Beautiful Oceans to promote scientific diving and underwater GPS coral reef mapping and bio-diversity studies for both scientific study and recreational dive charters. He holds various scuba related certifications including PADI master scuba diver, dive master, specialty instructor, DAN dive emergency specialist, marine wildlife injury specialist and several TECH REC technical certifications, including deep water diving, re-breather diving and cave diving. In his spare time Jeremy is a science fiction writer, and his debut novel Neptune's Garden was released in 2010. His second novel is being released later in 2015. Both books are oceanic in nature, exploring the existence of the mythical kingdom of Atlantis, from a scientific viewpoint.

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