Ice-Out Days and Climate Change

Ice-Out Days and Climate Change

Illustration by Adelaide Tyrol

While driving down from Isle La Motte in early December, my son and I noticed a fine skim of ice floating down the Alburg Passage. As it collided with the Route 2 bridge supports, it broke into rectangular fragments.  I wondered if what I was seeing was typical, or a symptom of changing climate? But a single observation tells you only about the current weather, and says nothing about climate trends.

To understand long-term patterns requires long-term data. So I reviewed ice formation data on Lake Champlain. I learned that between 1816 and 1916, the lake was “closed” to navigation in 96 of 100 winters. In the last 30 winters, the lake has closed 13 times, and just three times this past decade.  At first blush, this might seem like overwhelming evidence for less ice, but again, this is not the whole story.

 The 200-year data set was gathered by three different governmental agencies, a Burlington public official and historian, and a “cooperative weather observer.”  Consistency might be a bit much to expect and “closed to navigation” could range from an ice passage from Burlington to Plattsburgh, or simply frozen harbors.

For a more consistently measured data set, Dr. Alan Betts, a Vermont climatologist, looked to the Joe’s Pond Association. Each winter for more than two decades, association members have placed a wooden pallet on the ice of Joe’s Pond in West Danville, Vermont. A cinderblock sits on the pallet and is strung to the plug of an electric clock on Homer Fitts' deck. For a small donation to the association, you too can guess when the ice will give way, the cinderblock sink, and the clock be unplugged; best guess wins!

Ice-Out Days and Climate Change Image

Stiles Pond Ice-Out Dates and Frozen Days, Updated to Spring 2017, courtesy of Dr. Alan Betts

The simplicity and consistency of this measurement technique is precisely what peaked Betts’ interest.  Across the short interval of twenty years, there’s a clear trend; the cinderblock sinks about 6 days earlier than it did two decades ago.

Betts has also reviewed 40 years of ice-out data from the Fairbanks Museum and found the same pattern: the ice on Stiles Pond goes out about three days earlier per decade. Every decade, on average, the pond has frozen four days later, and the total frozen period has been shrinking by seven days per decade since 1970.
 “Ice out” patterns are consistent with other indicators of change. For example, Betts has reviewed data on Vermont’s lilac flowering dates. On average, lilac leaves are developing about two weeks earlier than they did in the 1960s, and flowers open more than a week earlier.

With the greatest respect to ice and lilac, I suspect that some Vermonters might be more interested in changes in maple sugaring; this thought has not been wasted on Vermont scientists.  Justin Guilbert and Vermont EPSCoR collaborators examined climate trends and predicted 11 fewer maple sugaring days by mid-century. They also predicted a shift in the sugaring season towards the midwinter months of December and January.

If at this point, you’re thinking that these trends are awfully short-term, and that anyone trying to predict the future of sugaring is walking on thin ice, you have a valid point; one of the difficulties of predicting climate change and its effects is the complexity of factors, including the background “noise” of our naturally variable weather conditions. This is, after all, a region which prides itself on the notion that, “if you don’t like the weather, wait a few minutes.”

That said, while we can’t with certainty predict what maple trees, or ponds, or ornamental plants will do in future years, it’s very clear that we’re in a period of rapid temperature change, and based on what we know of atmospheric science and human-caused emissions, there’s no reason to expect that change to stop any time soon.

As Betts recently told me, “climate change is on a roll and all we can do is slow it down, and give our societies and all of life on Earth more time to adapt.” In the meantime, I plan on placing my first ever bet on Joe’s Pond this year.  What day I will bet on?  That’s my secret; but it will certainly be earlier than I would have bet in 1997.

Declan McCabe teaches biology at Saint Michael’s College. His work with student researchers on insect communities in the Champlain Basin is funded by Vermont EPSCoR’s Grant NSF EPS Award #1556770 from the National Science Foundation.

Download the Article
 
Discussion
  1. John Snell → in Montpelier, VT
    Feb 05, 2018

    Good piece. Thanks. It might be interesting to also look at ice data for the Great Lakes where there may be better and more consistent data. I enjoyed flying over Erie and Ontario last week and seeing the giant ice jigsaw puzzles (see link above) but many years in the past there has been no ice.

  2. Declan McCabe → in Colchester VT
    Feb 06, 2018

    Thanks for your comment John!

    It is very interesting to consider.  I looked briefly to see what data exist on the great lakes.  NOAA has some fascinating information.  The data sets vary in duration and it’s difficult to choose a single long-term data set.  There’s ice thickness, % ice cover and at what date that particular % occurred and where.  It’s worth a look: https://www.glerl.noaa.gov/data/ice/

    The beauty of the Lake Champlain data set is it’s easy to explain, even with the potential inconsistencies.  And the pond data sets have simplicity and consistency.

  3. steve deon → in Ontario
    Feb 27, 2018

    Algonquin Park in Canada has recorded ice out date since 1964:

    http://www.algonquinpark.on.ca/news/ice-out.php

    Similar trend.

Join the discussion

To ensure a respectful dialogue, please refrain from posting content that is unlawful, harassing, discriminatory, libelous, obscene, or inflammatory. Northern Woodlands assumes no responsibility or liability arising from forum postings and reserves the right to edit all postings. Thanks for joining the discussion.

Please help us reduce spam by spelling out the answer to this math question
three plus three adds up to (3 characters required)