Marine Velvet (Amyloodinium)

Is that white patch on your fish a fungal infection or Marine Velvet? The difference matters, because the treatments don’t overlap.

You’ll see it called several things — Amyloodiniosis is the same thing. The naming inconsistency is part of why misdiagnosis is common.

Quick facts — the structured picture, before we get into the practical detail:

• Pathogen. Amyloodinium ocellatum (Parasite (dinoflagellate))
• Typical hosts. Most marine and brackish fish; severe in reef aquaria, sea bass, sea bream, snapper aquaculture
• Reported distribution. Worldwide in warm marine waters
• Temperature window. Outbreaks at 72–86 °F (22–30 °C) tropical reef temperatures
• WOAH-listed (notifiable). No

Background on the agent

Marine velvet disease is caused by Amyloodinium ocellatum, a parasite (dinoflagellate) in the Dinoflagellata.

Understanding the agent matters here because the wrong treatment class — antifungals for a bacterium, salt for a parasite that doesn’t tolerate it — wastes time you don’t have.

Being parasitic, this organism has a life cycle — usually with several stages, only some of which are vulnerable to treatment. That’s why most antiparasitic protocols require multiple doses 4–7 days apart: you’re targeting successive waves of the susceptible stage as eggs hatch or trophonts release. Stopping treatment after the visible parasites disappear means you’ve only killed the current generation; the next batch hatches in days.

Susceptible species: primarily Most marine and brackish fish. Different species within the same family show different vulnerability — even closely related fish can have wildly different clinical outcomes from the same pathogen. If you keep mixed species, observe each one independently; the apparently-healthy one may simply be a quieter carrier.

Recognizing it in the tank

Look for these signs, in this rough order of appearance:

• Dusty gold-brown coating on skin and gills, rapid respiration, gasping at surface, heavy mortality often before skin signs become obvious. Heavy, fast gill movement. Often at the surface near the filter outflow where oxygen is highest.

Useful observation method:

Lights up. Phone on video. 60 seconds of the fish swimming freely, then 60 seconds with you tapping the glass to startle them gently. Watch the video back — you’ll catch behaviors in playback you missed in real time. Asymmetric gill movement, slight fin clamp, brief flashing — all easier to see in slow motion than at tank-side.

Two signs in the same fish is suggestive. Three is a working diagnosis. Don’t wait for the full set before you act.

Water and environment factors

A tank-side checklist for the 2 weeks before symptoms appeared:

• New fish in the last 4 weeks. The single most common trigger, by a margin. If you skipped quarantine, this is your most likely vector.
• Recent temperature swing. A 3 °C / 5 °F change in either direction stresses the immune system enough to enable opportunistic pathogens.
• Ammonia or nitrite reading above zero. Even brief spikes damage gill tissue and open the door for secondary infection.
• Filter maintenance event. A full filter clean (vs. a rinse) can crash the bio-load briefly. Watch the next 48 hours closely.
• Aggressive tankmate. Bite wounds and abrasions are infection sites. The ‘pretty cichlid’ becomes the disease vector when a flank wound stops healing.
• Overstocking creeping up. Each new fish raises ambient pathogen load and competition for oxygen. Disease load rises non-linearly with stocking density.

For this specific disease, temperature matters: outbreaks concentrate at Outbreaks at 72–86 °F (22–30 °C) tropical reef temperatures. If your system runs through that band seasonally, raise vigilance during those weeks. Pond keepers in temperate climates should bookmark this — spring and autumn are when problems land.

What to do right now

What I do when I see this in a tank I’m advising on:

Isolate the affected fish. A bare-bottom hospital tank — heater, sponge filter pre-cycled, no substrate, no decor — lets you medicate at proper dosing without nuking the display’s biofilter or invertebrates. The hospital tank needs to match the display in temperature and parameters; sudden changes are an additional stressor the sick fish can’t afford.

Confirm the diagnosis before you medicate. Photo the symptoms (see the photo tip section), compare against reference images, and run the case through the Symptom Checker. Picking the wrong treatment class is worse than waiting an extra 12 hours to confirm. Don’t medicate blind.

Specific treatment. Copper at therapeutic levels in quarantine, hyposalinity, chloroquine phosphate (where available); never treat in main reef due to invertebrate toxicity

Test the water on the source tank. Even after moving the fish out, your display almost certainly has an underlying parameter issue that enabled the disease in the first place. Test ammonia, nitrite, nitrate, pH, and (where applicable) salinity, KH, and temperature. Fix what you find before reintroducing anything.

Do a 25% water change on the display. Not 50% — that’s a parameter shock to the remaining fish. 25% with temperature-matched, dechlorinated water, then test again 12 hours later.

Quarantine new fish for a minimum of 4 weeks. During an active outbreak, don’t add anything to the system. Adding a new fish into a sick tank is committing it to the same exposure with zero protection.

Track everything. A simple notebook entry per day — date, observations, treatment dose, water-test numbers — pays off if you need to consult a vet or if the same issue recurs in 6 months. Memory is unreliable here; written records aren’t.

For the keeper reading this with a problem in front of them right now: don’t medicate in the next 15 minutes. Spend that 15 minutes on observation and water testing. The diagnosis you’ll arrive at from the cooler analysis will be better than the one you’ll commit to under stress. Two hours of right treatment beats two days of wrong.

Common missteps to avoid

Common missteps that cost fish:

Don’t add another fish during an active outbreak. Even if the new fish looks healthy, you’ve now committed the new arrival to the same exposure with no chance to quarantine. Wait until the affected fish has been symptom-free for at least 4 weeks.

Don’t increase temperature blindly. It’s a common forum suggestion that helps for some parasites and hurts for several bacterial and viral conditions. Check the pathogen first.

After treatment: what comes next

Recovery happens on three timelines, and confusing them costs fish:

Behavioral recovery is fastest. Appetite and normal posture often return within 3–5 days of effective treatment. This is not the same as recovery.

Surface healing takes 1–2 weeks. Ulcers close, fungal patches clear, fins begin to regrow.

Pathogen clearance is the longest — finishing the full prescribed treatment course matters even when the fish looks good. Stopping early breeds resistance.

Track all three separately. The fish behaving normally on day 4 doesn’t mean treatment is done.

Avoiding a repeat

Habits that prevent the majority of disease introductions, in rough order of impact:

Quarantine new arrivals for at least 4 weeks. This is the single biggest lever you have. Most introductions of disease into established tanks come from un-quarantined new fish or live plants/decor with adherent water. A separate 10-gallon tank with a sponge filter is sufficient for most species and costs less than one decent fish.

Stable water parameters. Test weekly even when the tank looks fine. Ammonia and nitrite at zero, nitrate under control (under 20 ppm for sensitive species, under 40 ppm for hardier ones), pH consistent across tests. Most outbreaks follow a measurable water-quality slip the keeper didn’t catch — not because the parameters are bad in absolute terms but because they shifted enough to stress the fish.

Don’t overstock. Crowding raises ambient pathogen load and lowers individual immunity. The most disease-free tanks I’ve seen are the ones that look slightly empty. A rule of thumb worth more than the standard ‘inch per gallon’ is to stock for half the bioload your filter is rated for, leaving headroom for water-quality buffering.

Equipment hygiene. Dedicated nets, siphons, and buckets per tank. If you must share, disinfect with a bleach dip (1:19 with water, 60 seconds, thorough rinse, then a 24-hour air dry). Color-coded gear per tank is a 5-dollar fix for what otherwise becomes a recurring problem.

Watch the fish daily. Two minutes per tank, every morning, with the lights on full. You catch the first hour of trouble that way — and the first hour matters. Build it into a routine you can’t skip; with the coffee, with the dog walk, whatever sticks.

Source matters. Buy from sellers who actively quarantine their incoming stock. The premium price reflects fewer disease introductions downstream. A fish that’s 30% more expensive but doesn’t bring in pathogens has saved you more than the markup.

Don’t ignore live plants and decor as vectors. Snails, tubifex worms, and any wet surface from another system carries water and the microbes in it. Rinse new plants thoroughly; consider a hydrogen peroxide dip (3% solution for 30 seconds, then rinse) for plants from unknown sources.

Mind the temperature range. Outbreaks are concentrated at Outbreaks at 72–86 °F (22–30 °C) tropical reef temperatures. If your system runs there seasonally, raise vigilance during those weeks. For pond keepers, this often means heightened spring and autumn watching when water temperatures pass through the danger band twice a year.

When to get professional help

Some conditions are beyond home treatment. Reach out to an aquatic veterinarian if:

• Symptoms haven’t improved after 7–10 days of correct treatment.
• The fish is a high-value specimen and definitive diagnosis is worth the cost.
• You’re seeing the same pattern recurring in your system after treatment ends.
• The disease is one of the WOAH-listed conditions — reporting may be legally required in your region.

Email-based consultation with photos is widely available now and far cheaper than an in-person visit.

Marine-specific considerations

For reef and saltwater keepers:

Marine systems present unique constraints on disease treatment that freshwater keepers don’t face:

• Copper is the workhorse for many parasites — and lethal to invertebrates. Anything with a reef tank treats infected fish in a quarantine tank, full stop. Dosing the display is non-starter.
• Specific gravity matters for diagnosis. Hypo-salinity (1.009) treats some marine parasites and stresses others — confirm the pathogen before you drop salinity.
• Cleaner shrimp aren’t a cure. They reduce parasite load but won’t clear an active infection. Use them as a complement to chemistry, not a replacement.

A note on look-alikes

If two diseases come up as candidates and you can’t tell them apart, treatment overlap is rare — picking wrong means a wasted week. Use the Symptom Checker to narrow it down, or check the photo galleries on the related pages below.

The keepers who consistently avoid trouble with this one are the boring ones — they quarantine, they don’t overstock, and they look at their fish every morning. Be boring.

You may also want to read

• Branchiomycosis — for keepers narrowing down between this and a look-alike condition.
• Trichodina Infestation — for keepers narrowing down between this and a look-alike condition.

Source

Primary reference: Noga, E.J. (2010) Fish Disease, 2nd ed..

Editorial review by the Fishy Farmacy team. Last reviewed: May 2026.