November 21, 2017 6.15pm EST
Turtles can’t head south for the
winter, so they hibernate in rivers, lakes and ponds. (Pexels)
Author, Jacqueline Litzgus,
Professor, Department of Biology,
Laurentian University
Disclosure statement
Jackie Litzgus receives funding
from the Natural Sciences and Engineering Research Council, and Ontario
Ministry of Natural Resources and Forestry's Species at Risk Stewardship and
Research funds. She is affiliated with Laurentian University, the Algonquin
Wildlife Research Station, Canadian Herpetological Society, American Society of
Ichthyologists and Herpetologists, and Society for the Study of Amphibians and
Reptiles.
To breathe or not to breathe,
that is the question.
What would happen if you were
submerged in a pond where the water temperature hovered just above freezing and
the surface was capped by a lid of ice for 100 days?
Well, obviously you’d die.
And that’s because you’re not as
cool as a turtle. And by cool I don’t just mean amazing, I mean literally cool,
as in cold. Plus, you can’t breathe through your butt.
But turtles can, which is just
one of the many reasons that turtles are truly awesome.
As an ectotherm — an animal that
relies on an external source of heat — a turtle’s body temperature tracks that
of its environment. If the pond water is 1℃, so is
the turtle’s body.
But turtles have lungs and they
breathe air. So, how is it possible for them to survive in a frigid pond with a
lid of ice that prevents them from coming up for air? The answer lies in the
relationship between body temperature and metabolism.
A cold turtle in cold water has a
slow metabolism. The colder it gets, the slower its metabolism, which
translates into lower energy and oxygen demands.
When turtles hibernate, they rely
on stored energy and uptake oxygen from the pond water by moving it across body
surfaces that are flush with blood vessels. In this way, they can get enough
oxygen to support their minimal needs without using their lungs. Turtles have
one area that is especially well vascularized — their butts.
See, I wasn’t kidding, turtles
really can breathe through their butts. (The technical term is cloacal
respiration.)
Not frozen, just cold
We are not turtles. We are
endotherms — expensive metabolic heat furnaces — that need to constantly fuel
our bodies with food to generate body heat and maintain a constant temperature
to stay alive and well.
When it’s cold out, we pile on
clothes to trap metabolic heat and stay warm. We could never pick up enough
oxygen across our vascularized surfaces, other than our lungs, to supply the
high demand of our metabolic furnaces.
Turtles will bask in the sun to
warm up and ease their crampy muscles. (Patrick Moldowan), Author provided
For humans, a change in body
temperature is a sign of illness, that something is wrong. When a turtle’s body
temperature changes, it’s simply because the environment has become warmer or
colder.
But even ectotherms have their
limits. With very few exceptions (e.g., box turtles),
adult turtles cannot survive freezing temperatures; they cannot survive having
ice crystals in their bodies. This is why freshwater turtles hibernate in
water, where their body temperatures remain relatively stable and will not go
below freezing.
Water acts as a temperature
buffer; it has a high specific heat, which means it takes a lot of energy to
change water temperature. Pond water temperatures remain quite stable over the
winter and an ectotherm sitting in that water will have a similarly stable body
temperature. Air, on the other hand, has a low specific heat so its temperature
fluctuates, and gets too cold for turtle survival.
An ice-covered pond presents two
problems for turtles: they can’t surface to take a breath, and little new
oxygen gets into the water. On top of that, there are other critters in the
pond consuming the oxygen that was produced by aquatic plants during the
summer.
Over the winter, as the oxygen is
used up, the pond becomes hypoxic (low oxygen content) or anoxic (depleted of
oxygen). Some
turtles can handle water with low oxygen content — others cannot.
Snapping turtles and painted
turtles tolerate this stressful situation by switching their metabolism to one
that doesn’t require oxygen. This ability is amazing, but can be dangerous,
even lethal, if it goes on for too long, because acids build up in their
tissues as a result of this metabolic switch.
But how long is “too long”? Both
snapping turtles and painted turtles can survive forced submergence at cold
water temperatures in the lab for well over 100 days. Painted turtles are the
kings of anoxia-tolerance. They mobilize calcium
from their shells to neutralize the acid, in much the same way we take
calcium-containing antacids for heartburn.
In the spring, when anaerobic
turtles emerge from hibernation, they are basically one big muscle cramp. It’s
like when you go for a hard run — your body switches to anaerobic metabolism,
lactic acid builds up and you get a cramp. The turtles are desperate to bask in
the sun to increase their body temperature, to fire up their metabolism and
eliminate these acidic by-products.
And it’s hard to move when
they’re that crampy, making them vulnerable to predators and other hazards.
Spring emergence can be a dangerous time for these lethargic turtles.
Field biologists tend to do their
research during the spring and summer, when animals are most active. But in
Ontario, where the winters are long, many turtle species are inactive for half
of their lives.
Understanding what they do and
need during winter is essential to their conservation and habitat protection,
especially given that two-thirds
of turtle species are at risk of extinction.
X marks the spot. Former graduate
student Bill Greaves tracks turtles during a cold Ontario winter. Author
provided
My research group has monitored
several species of freshwater turtles during their hibernation. We attach tiny
devices to the turtles’ shells that measure temperature and allow us to follow
them under the ice.
We’ve found that all
species choose
to hibernate in wetland
locations that hover just above freezing, that they move around under the
ice, hibernate in
groups and return to the same places winter after winter.
Despite all this work, we still
know so little about this part of turtles’ lives.
So, I do what any committed
biologist would do: I send my students out to do field research at -25℃. We are
not restricted to fair-weather biology here.
Besides, there is unparalleled
beauty in a Canadian winter landscape, especially when you envision all of
those awesome turtles beneath the ice, breathing through their butts
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