Warmer winters are keeping some lakes from freezing
Years without ice are becoming more frequent, with potentially troubling consequences for local communities and lake ecosystems

Date:
October 6, 2020
Source:
American Geophysical Union
Summary:
Warmer winters due to climate change are causing lakes in the
Northern Hemisphere to experience more ice-free years, according
to a new study.

Researchers recently analyzed nearly 80 years of lake ice data,
stretching from 1939 to 2016, for 122 lakes that typically freeze
every winter. They found ice-free years have become more than
three times more frequent since 1978 and 11% of lakes studied
experienced at least one completely ice-free year since 1939.



FULL STORY ========================================================================== Warmer winters due to climate change are causing lakes in the Northern Hemisphere to experience more ice-free years, according to a new study.


========================================================================== Researchers recently analyzed nearly 80 years of lake ice data, stretching
from 1939 to 2016, for 122 lakes that typically freeze every winter. They
found ice- free years have become more than three times more frequent
since 1978 and 11% of lakes studied experienced at least one completely ice-free year since 1939.

This trend is linked to abnormally warm winter temperatures, and the
study authors project it will continue with increasing frequency due to
climate change. Such ice-free years could have significant ecological,
cultural and economic impacts.

"Lake ice is becoming increasingly absent," said Alessandro Filazzola,
a community ecologist at York University and the University of Alberta
in Canada and lead author of the new study in AGU's journal Geophysical Research Letters.

"Even under low carbon emissions scenarios, we're going to have
continued ice- free events." Communities around lakes often depend on
freezing events for winter recreation activities like ice fishing and
ice festivals, which can bring in hundreds of thousands of dollars in
a single weekend.

Lake ice also serves as an ecological "reset," said Sapna Sharma, an
aquatic ecologist at Canada's York University and coauthor of the new
study. Lakes are warmer in years without ice cover, and they stratify
earlier, which could make them more prone to toxic algal blooms. This,
in turn, can harm fish or make lakes dangerous for swimming. "The
consequences are more widespread than simply one individual unable to
go ice fishing," Sharma said.

Interestingly, the authors saw the same warming trend regardless of
location, suggesting global climate change is already having an impact
on Earth's lakes.

"This isn't just happening in one lake in the northern United States," Filazzola said. "It's happening in thousands of lakes around the world."
A lake ice database


==========================================================================
In the new study, Filazzola and his colleagues wanted to understand
how the frequency of lakes' ice-free years has changed over time. They
selected 122 lakes in North America, Europe and Asia with a long,
consistent record of data from the National Snow and Ice Data Center. The
NSIDC lake ice database contains historically available data from harbors, newspapers and other written records and modern data sourced from people
who live near the lakes.

Lake Suwa in Japan boasts one of the oldest lake ice records in the
database, stretching back to 1443. The record has been maintained by
15 generations of Shinto priests that have celebrated the appearance of
lake ice each winter.

Other culturally important lakes in the dataset include Lakes Baikal,
Geneva, Balaton, Champlain and Michigan.

Filazzola, Sharma and their colleagues analyzed ice-free years in their
chosen lakes, comparing how often this extreme event occurred in the
first 40 versus the last 40 years of the study period. If a lake did not
have 100% ice cover for at least one day, it was considered an ice-free
year. They then compared the lake ice data with local air temperatures and climate cycles like El Nin~o and the North Atlantic Decadal Oscillation
to better understand the drivers behind lake ice changes.

They found ice-free years occurred much more commonly in the second half
of their study period, with 31 recorded ice-free events before 1978
and 108 ice- free events after that year. Since 1990, Lake Champlain
and Grand Traverse Bay in Lake Michigan have both experienced three
consecutive years without freezing. Lake Suwa, which once froze regularly,
now freezes an average of two years every decade, according to the study.

"Even in the last 40 years versus the last 80 years, there's already an
obvious pattern that's occurring and it's showing that we're already experiencing a response from warming, which will likely get worse,"
Filazzola said.

The results showed local winter air temperatures were the best
predictor of ice-free years, which became significantly more likely
once average winter temperatures rose to -4 degrees Celsius (25 degrees Fahrenheit). The researchers found lakes in more southern and coastal
regions were most vulnerable to experiencing ice-free years since they
have high rates of warming.

"I think it is intuitive," Sharma said of their results. "But it
also gives us a historical snapshot to understand that the climate is
changing. It's not normal that these lakes are not freezing." "I am
delighted by this paper," said John Magnuson, a limnologist at the
University of Wisconsin Madison who has worked on past lake ice studies
but was not involved in this research, calling it "a significant paper
that provides new information and insights about a climate-sensitive
component of lake ecosystems to climate change."

========================================================================== Story Source: Materials provided by American_Geophysical_Union. Note:
Content may be edited for style and length.


========================================================================== Journal Reference:
1. Alessandro Filazzola, Kevin Blagrave, Mohammad Arshad Imrit, Sapna
Sharma. Climate Change Drives Increases in Extreme Events for
Lake Ice in the Northern Hemisphere. Geophysical Research Letters,
2020; 47 (18) DOI: 10.1029/2020GL089608 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2020/10/201006114312.htm

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