Myxidium anatidum

The bile duct of a bird is probably the last place you'd expect to find a microscopic, parasitic relative of jellyfish, but that is exactly what the study featured in this post is all about. The parasite in question is a myxozoan, a type of single-celled parasites with complex life cycles which are found in a range of vertebrate animals. Evolutionary speaking, they're technically animals, but for whatever reason, over the course of their evolution, they had abandoned having bodies made of multiple cells to become the only known group of unicellular animals.

Left: Histology section show Myxidium anatidum spores in the bile duct, Centre: Myxidium anatidum myxospore under brightfield (top) and Nomarski Interference Contrast, Right: Photo of a bald eagle.
Photos from the paper (left), this paper (centre), and US Fish and Wildlife Service

There are over 2000 known species of myxozoan and most of them are usually found in fish, though there are also some species that infect amphibians and turtles. The myxozoan parasite being featured in this host was found in a rather unexpected host - a bald eagle, of all things. This eagle was found in Western Canada and was found in very poor condition prior to its death. The parasite's spores were found throughout the eagle's bile duct. While that may sound concerning, the parasite clearly played no role in the eagle's death. That's because based on the bird's condition when it was found and the toxicology findings, the eagle had died from lead poisoning. 

So why would a bald eagle be harbouring a type of parasite which is usually associated with fish and amphibians? While it is true that most myxozoan tend to be found in cold-blooded aquatic or semi-aquatic animals, some discoveries over the last decades have shown warm-blooded land-dwelling animals are not beyond the reach of these single-celled jellyfish cousins, and that includes the parasite found in the eagle's bile duct - Myxidium anatidum, a species that seems to specialise on our feathered friends

Myxidium anatidum was initially described back in 2008 from seven species of ducks (hence the "anatidum" species name) collected from across different parts of the United States. Much like with that bald eagle, the parasite resided in the bile duct and most of those infected ducks had died of other causes. This discovery overturned a lot of the previous assumptions about myxozoans and what they're capable of infecting, but since then there hasn't been any new findings about this peculiar parasite, which is still surrounded in mysteries. One such mysteries is the parasite's life cycle.

For other myxozoans, they have a complex life cycle which involves an asexual stage living in a vertebrate animal host, and the sexual stage living in either segmented worms or bryozoans (moss animals). But it is currently unknown how M. anatidum infects its feathery host, nor what invertebrate it infects for the sexual stage of its life cycle. 

When M. anatidum was initially discovered, researchers examined worms and fish from one of the ponds where an infected duck was collected, and while they did find some which were infected with myxozoans, none of them had M. anatidum. In nature, the prevalence of myxozoans in their worm hosts can be rather low, so it is possible that they had simply missed the infected worms, or the parasite was only present in worms during certain seasons, or perhaps the ducks have picked up the infection from elsewhere. Given what is known about myxozoan life cycles, since many ducks are dabblers, it is conceivable that they might have acquired the parasite through swallowing infected worms which had been hiding in the muck. 

But in that case, how did a bald eagle end up contracting this parasite? Bald eagles primarily eat fish, so it is possible that M. anatidum may have been using fish as a type of "paratenic host" - an animal that serves as an optional stopover that can potentially carry the parasite to its nominal host. It's kind of like going on a side quest which could help you complete the main goal. While the use of paratenic hosts is common among other parasites with complex life cycles, it has not been reported for myxozoans. But then again, myxozoans haven't been reported in bald eagles until now.

Since lead poisoning was what actually led to the infected eagle's death, there may be many other healthier bald eagles flying around with M. anatidum lurking in their bile duct. Between the eagles and the ducks, this humble parasite is clocking up some frequent flyer miles which its fish-infecting cousins could never hope to match. 

Reference:

Perdrizet, U. G., Lockerbie, B., & Bollinger, T. K. (2026). Myxidium anatidum in a Bald Eagle Haliaeetus leucocephalus from Western Canada. Journal of Wildlife Diseases 62: 257-259.