Fungus gnats survive winter half-frozen

By Ned Rozell

A few winters ago, Todd Sformo was out gathering hibernating insects from the woods near the Fairbanks International Airport. He searched for dead balsam poplar trees, looking for a beetle that spends its winters under the loose bark, exposed to the frigid air.

fungus gnats on the snow

Todd Sformo points out fungus gnats on the snow at the base of a balsam poplar tree. UAF photo by Todd Paris.

When he found a few of the beetles and placed them in plastic containers, he noticed thousands of wispy flies sharing space beneath the bark. He collected a few of them, even though he wasn't sure what they were. He had a few spaces available in a cooling chamber he was using to check the cold tolerance of the beetle, so he thought, "Why not test the mystery insect, too?"

As sometimes happens in science, tsshat chance decision led to a discovery. The second bug, a fungus gnat, survives the winter by allowing half of its body to freeze. The other half, including its head, stays thawed.

"It's simultaneously freeze-tolerant and freeze-avoiding," said Sformo, who is pursuing his doctorate at the University of Alaska Fairbanks' Institute of Arctic Biology in the lab of Professor Brian Barnes. "The Journal of Comparative Physiology B" will soon feature Sformo's paper on the fungus gnat.

Most insects that live this far north use one of two strategies to endure the frigid air of an Alaska winter. They either allow their bodies to freeze, removing water from within their cell walls to prevent ice crystals from puncturing them, or they flood their bodies with their own varieties of antifreeze before the cold air oozes over Alaska. The fungus gnat Exechia nugatoria does both. Scientists know of no other insect doing this, although years ago Keith Miller of UAF found a couple of insects that also showed two freezing events in the lab.

Sformo uncovered the fungus gnat's secret while he studied the red flat bark beetle's incredible resistance to freezing, which shares the fungus gnat's wintering tree. A few years ago, Sformo and others found that the beetle could withstand minus 240 degrees Fahrenheit without perishing. That is a bit of a head-scratcher when you consider the lowest temperature ever recorded on the planet was minus 129 degrees Fahrenheit. Why would a creature invest energy in a mechanism that protects itself from air that cold?

In the lab, Sformo placed the fungus gnats in the same deep-freeze solution into which he lowered the beetles. He chilled the insects until they gave off a spike of heat, an indicator of freezing. Because he was testing the fungus gnats in the same bath as the red flat bark beetles, Sformo lowered the temperature to an extreme of about minus 100 degrees Fahrenheit. To his surprise, Sformo found the fungus gnats showed two distinct freezing events, as if different parts of their bodies were freezing at different temperatures. One part was freezing at about minus 25 degrees Fahrenheit, and something else within them froze at minus 60 degrees below zero. When he warmed the insects back up from minus 25 degrees, most of them came back to life. None survived after dropping to 60 degrees below zero.

Adult fungus gnats look sort of like mosquitoes, with a head and chest (thorax) up front, and a cigar-shaped abdomen behind. Sformo wanted to see if a certain part was freezing before the other, so he snipped in half several fungus gnats.

He found that the abdomens froze at minus 25 degrees Fahrenheit, while the heads resisted freezing until temperatures got to 60 degrees below zero. Why would a creature allow part of its body to freeze, but not the other? Sformo isn't sure, but maybe having part of its body frozen allows a fungus gnat to lose less body moisture to evaporation during the long winter.

What makes the fungus gnat even more remarkable is that ice crystals within the frozen abdomen don't "seed" the unfrozen liquid in its head, causing it to freeze, said Jack Duman, an expert on insect cold-weather adaptation and a professor at the University of Notre Dame.

"Keeping body water unfrozen while it's in contact with ice is really hard to fathom," Duman said. "The mechanism must be very unusual."

Sformo knows a few things about the fungus gnat now

"I was lucky I had those other bugs going down (minus 100 degrees Fahrenheit) or else I wouldn't have found out," he said.

This column is provided as a public service by the Geophysical Institute, University of Alaska Fairbanks, in cooperation with the UAF research community. Ned Rozell is a science writer at the institute.

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