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Black Spot (Apophallus brevis) in Brook Trout

Volume 2, Issue 8
September 2000
Updated November 2002

Sand grain sized black spots on the skin of brook trout (Salvelinus fontinalis) and brown trout (Salmo trutta) are usually caused by a small immature larval trematode parasite named Apophallus brevis (Syn. A. imperator). “Black grubs,” “Black spot disease,” or “Neascus infection” can be found in many different fish species, and is a fairly common; however, the unsightly condition is caused by many different species specific parasites.

Black grub

The final host for the digenetic trematode A. brevis is naturally the Common Loon (Gavia immer); however, a variety of fish eating animals have also been experimentally infected including: cats, pigeons, gulls and muskrats. Adult worms live in the loon’s mouth where they produce eggs. The eggs are swallowed by the loon, pass through it’s digestive system unharmed and are released into the water with the loon’s feces. The eggs mature in water and release the ciliated miracidia, which then swim away and penetrate the appropriate molluscs (snails or less often clams), often only those of a certain genus. These molluscs are the first intermediate hosts of the trematode.

In the molluscs, the miracidium grows to become a redia (a saclike animal with a pharynx and a gut), which may produce either cercariae or sporocysts (sac-like animals without a pharynx or gut).

Brook trout with black spot

Figure 2. Brook trout with heavy black spot infestation.


The cercariae actively penetrate and migrate into the tissues of the second intermediate host, which is most often a fish. When a cercaria penetrates and migrates into the tissues of a fish, it causes obvious mechanical damage and hemorrhaging. The damage caused by one cercaria is negligible, but in greater numbers they may kill the fish. After the cercaria has localized and transformed into a metacercaria, little subsequent damage occurs, unless enough metacercariae accumulate that their collective mass interferes with the fish’s metabolism. The infected fish must be eaten by the final host to complete the trematode’s lifecycle. When the fish is eaten and digested by the loon, the metacercaria emerges from the fish flesh and migrates to the loon’s mouth where it matures to the adult egg producing worm. This completes its lifecycle. The worms are hermaphrodites having both male and female organs.

There is no practical treatment or control of this parasite available at this time.

Special points of interest:


A. brevis does not infect humans. Although a related species has been found in humans, several other mammals and birds.

Black grubs can be found in many different species of freshwater fishes.

A. brevis can live for 4 years in a fish.

Cooking fish kills the parasite.

Images in this document were made possible in part by a grant from the Maine Outdoor Heritage Fund.