Researchers hope study of brain worms in deer could help endangered moose - Action News
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Nova Scotia

Researchers hope study of brain worms in deer could help endangered moose

Researchers at Acadia University are studying the prevalence of brain worms in white-tailed deer with the hope their work will help endangered moose.

Worm infections are usually benign in deer but can be fatal for moose

A woman smiles as she holds up a deer head.
Willow Bennett, an undergraduate student at Acadia University, is studying the prevalence of brain worms in deer in Nova Scotia. The deer heads come from roadkill and hunters, and are provided by the Department of Lands and Forestry. (Submitted by Willow Bennett)

Every time Willow Bennett receives a cooler with a frozen deer head inside, she gets a little bit excited.

But the truly fascinating part comeslater, when she skins the head, opens the skull and examinesthe brain.

"It isn't for the faint of heart or the weak in the nose," Bennett says. "It definitely doesn't smell great it is carcasses. So it is a little mental leap to get over that you are cutting and opening deer heads."

Bennett is looking fortiny, string-like parasites called brain worms or meningeal worms that can live in the thin layer between the brain and the skull of deer.

The Acadia University undergraduate biology student is researching the prevalence of brain worms in Nova Scotia white-tailed deer something that hasn't been studied in decades.

A deer brain sits in a plastic container.
Bennett removes the brains of deer to search for meningeal worms. (Submitted by Willow Bennett)

While deer can usually live out their natural lives happily enough with a worm infection, the same is not true for mainland moose, an endangered species in Nova Scotia. The worms penetrate the brains of moose and cause severe neurological effects, paralysis, and eventuallydeath.

"It turns the moose into a zombie. So they can go blind,they go in circles and get hit by cars, they just don't seem like themselves. And that's why they usually have to be euthanized," Bennett said.

By working on understanding the prevalence and distribution of brain worms in deer, Bennett hopes other researchers can use her work to bring in conservation measures to protect mainland moose from infection.

Bennett's research supervisor at Acadia, professor emeritus Dave Shutler, said any direct application to moose is "a long way down the road."

"I don't want to get ahead of us, but it's, you know, there is the potential that we might want to medicate moose to prevent them from succumbing to the worm."

It is estimated there are fewer than 1,000 mainland moose in Nova Scotia.

Infection cycle involves slugs and snails

In deer, the worms mate on top of the brain and lay eggs that make their way through the bloodstreamto the lungs. Deer then cough up the larvae, which are expelled through feces. Snails and slugs are attracted to the algae on deer poop, and while they feed on the nutrients in the feces, they also pick up the larval stages of the worm.

Moose don't intentionally eat slugs and snails, but they caninadvertently consume them while feeding on vegetation, and if they ingest the larvae, the larvae can travel up the spinal cord to the brain, destroying nervous tissue along the way.

Small string-like worms lie in a container.
Brain worms in a container at a research lab at Acadia University. (Submitted by Willow Bennett)

The deer heads Bennett is studying were gathered by the Department of Lands and Forestry from roadkill and hunters.

So far, she's examined85 deer brains, and found worms in about 40 per cent of them, with an average of three to five wormsin the affected brains. Bennett hopes to study another 80 to 100 brains this fall as hunting season gets underway.

In order to get better geographic representation, she is hoping to get more samples from Digby, Yarmouth, Kings, Antigonish, and Guysborough counties.

Bennett is also analyzing the brains for mercury levels and coronavirus infection to see if those stressorscould be a factor in higher levels of brain worms.