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The Conversation
The Conversation
Environment
Benjamin Sonnenberg, Ph.D. Candidate in Ecology, Evolution and Conservation Biology, University of Nevada, Reno

The chickadee in the snowbank: A 'canary in the coal mine' for climate change in the Sierra Nevada mountains

Mountain chickadees struggle with snow extremes. Benjamin Sonnenberg

Wet snow pelts my face and pulls against my skis as I climb above 8,000 feet in the Sierra Nevada of eastern California, tugging a sled loaded with batteries, bolts, wire and 40 pounds of sunflower seeds critical to our mountain chickadee research.

As we reach the remote research site, I duck under a tarp and open a laptop. A chorus of identification numbers are shouted back and forth as fellow behavioral ecologist Vladimir Pravosudov and I program “smart” bird feeders for an upcoming experiment.

I have spent the past six years monitoring a population of mountain chickadees here, tracking their life cycles and, importantly, their memory, working in a system Pravosudov established in 2013. The long, consistent record from this research site has allowed us to observe how chickadees survive in extreme winter snowfall and to identify ecological patterns and changes.

A ring of tall, rectangular metal bird feeders mounded high with snow on top.
Snow piles up on the experiment’s bird feeders. Each chickadee has a radio frequency identification tag that opens its assigned feeder, allowing scientists to track its movements and memory. Vladimir Pravosudov

In recent history, intense winters are often followed by drought years here in the Sierra Nevada and in much of the U.S. West. This teeter-totter pattern has been identified as one of the unexpected symptoms of climate change, and its impact on the chickadees is providing an early warning of the disruptions ahead for the dynamics within these coniferous forest ecosystems.

Our research shows that a mountain chickadee facing deep snow is, to borrow a cliche, like a canary in a coal mine – its survivability tells us about the challenges ahead.

A chickadee sits on a man's finger as the two look at each other.
The author, Benjamin Sonnenberg, and one of his research subjects − a young chickadee with a transponder tag on its leg. Benjamin Sonnenberg

The extraordinary memory of a chickadee

As Pravosudov calls out the next identification number, and as my legs slowly get colder and wetter, a charming and chipper “DEE DEE DEE” chimes down from a nearby tree. How is it that a bird weighing barely more than a few sheets of paper is more comfortable in this storm than I am?

The answer comes down to the chickadees’ incredible spatial cognitive abilities.

Cognition is the processes by which animals acquire, process, store and act on information from their environment. It is critical to many species but is often subtle and difficult to measure in nonhuman animals.

Chickadees are food-storing specialists that hide tens of thousands of individual food items throughout the forest under edges of tree bark, or even between pine needles, each fall. Then, they use their specialized spatial memory to retrieve those food caches in the months to come.

Conditions in the high Sierras can be harsh, and if chickadees can’t remember where their food is, they die.

We measure the spatial memory of chickadees using a classic associative learning task but in a very atypical location. To do this, we hang a circular array of eight feeders equipped with radio-frequency identification and filled with seed in several locations across our field site. Birds are tagged with “keys” – transponder tags in leg bands that contain individual identification numbers and allow them to open the doors of their assigned feeders to get a food reward.

The setup allows us to measure the spatial memory performance of individual chickadees, because they have to remember which feeder their key enables them to open. Over eight years, our findings demonstrate that chickadees with better spatial memory ability are more likely to survive in the high mountains than those with worse memories.

However, chickadees may be facing increasing challenges that will shape their future in the high mountains. In 2017, a year with record-breaking snow levels, adult chickadees showed the lowest probability of survival ever measured at our site. This exceptionally extreme winter came with recurrent storms containing cold weather and high winds, making it difficult for even the memory savvy chickadees to forage and survive.

Nevertheless, triumphant populations have persisted in high-elevation mountain environments, but their future is becoming uncertain.

What’s the problem?

“It’s weather whiplash,” says Adrian Harpold, a mountain ecohydrologist. Harpold works to understand variations in climate patterns within forest environments, and one of his field sites lies alongside our chickadee research site.

The Sierra Nevada and other mountain ranges in western North America have been experiencing more extreme snow years and drought years, amplified by climate change. Extreme snow linked to global warming might seem counterintuitive, but it’s basic physics. Warmer air can hold more moisture – about 7% more for every degree Celsius (every 1.8 degrees Fahrenheit) that temperatures rise. This can result in heavier snowfall when storms strike.

In 2023’s record winter, over 17 feet (5 meters) of snow covered the landscape that our chickadees were using every day. In fact, these intense storms and cold temperatures not only made it difficult for birds to survive the winter but made it almost impossible for them to breed the next summer: 46% of chickadee nests at our higher elevation site failed to produce any offspring. This was likely due to the deep snow that prevented them from finding emerging insects to feed nestlings or even reaching nesting sites at all until July.

The cascading harms from too much snow

Even in years of tremendous snowfall, chickadees can still use their finely honed spatial memories to recover food. However, severe storms can shorten their survival odds. And if they do survive the winter, their nesting sites – tree cavities – may be buried under feet of snow in the spring.

It doesn’t matter how smart you are if you can’t reach your nest.

Extreme snow oscillations also affect insects that are critical for feeding chickadee chicks. Limited resources lead to smaller chickadee offspring that are less likely to survive high in the mountains.

A tiny baby chickadee sits in a man's hand. It's mouth below a still developing beak is bright yellow.
Mountain chickadee chicks can struggle to survive during winters with extreme snow. Benjamin Sonnenberg

Snow cover is good for overwintering insects in most cases, as it provides an insulating blanket that saves them from dying during those freezing months. However, if the snow persists too long into the summer, insects can run out of energy and die before they can emerge, or emerge after chickadees really need them. Drought years also can drive insect population decline.

Extremes at both ends of the spectrum are making it harder for chickadees to thrive, and more and more we are seeing oscillations between these extremes.

These compounded effects mean that in some years chickadees simply don’t successfully nest at all. This leads to a decline in chickadee populations in years with worse whiplash – drought followed by high snow on repeat – especially at high elevations. This is especially concerning, as many mountain-dwelling avian species are forecasted to move up in elevation to escape warming temperatures, which may turn out to be hazardous.

Eight little chickadees in a circle in a wooden box, their tails all together in the center to keep their bodies warm.
Baby chickadees stay warm inside a wooden box. Benjamin Sonnenberg

Lessons for the future

Chickadees may be portrayed as radiating tranquil beauty on holiday cards, but realistically, these loud, round ruffians are tough survivors of harsh winter environments in northern latitudes.

Our long-term research following these chickadees provides a unique window into the relationships between winter snow, chickadee populations and the biological community around them, such as coniferous forests and insect populations.

Benjamin Sonnenberg and Vladimir Pravosudov show how the feeders work to test birds’ memories in a video about the early stages of their research.

These relationships illustrate that climate change is a more complicated story than just the temperature climb – and that its whiplash and cascading effects can destabilize ecosystems.

The Conversation

Benjamin Sonnenberg receives funding from the National Science Foundation.

This article was originally published on The Conversation. Read the original article.

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