Global warming melts sea ice, which leads to further warming because water absorbs more heat than ice, creating what scientists call a “climate feedback loop.”
A report released Friday contains what researchers believe is the most comprehensive list of feedback loops ever compiled and a stark warning that climate models may be underestimating their impact.
“Many feedback loops significantly increase warming due to greenhouse gas emissions,” the researchers from Oregon State University (OSU), University of Exeter and other institutions said in the report published in the journal One Earth.
“However, not all of these feedbacks are fully accounted for in climate models.”
Co-authors William Ripple and Christopher Wolf of OSU said an “immediate and massive” boost in research about feedback loops was needed to help guide world leaders in making climate policy.
They urged UN experts with the Intergovernmental Panel on Climate Change to produce a special report on the effects of feedback loops and their potential “severe consequences.”
Th researchers identified 41 climate feedback loops in their report, 27 of which accentuate warming, seven of which have a dampening effect and seven that are uncertain.
Wolf compared a feedback loop to a run on a bank.
People withdraw money because they are concerned about a bank defaulting, raising the risk of it defaulting, which causes more people to withdraw money, and so on.
Among the biological feedback loops they cited were thawing permafrost, forest dieback, loss of soil carbon, and drying and smoldering peatlands.
In the permafrost example, rising temperatures lead to thawing, producing carbon dioxide and methane emissions which lead to further increasing temperatures.
The report warned that interacting feedback loops may result in a sequence of catastrophic climate “tipping points,” where changes to climate systems become self-sustaining.
“Some feedback loops may be associated with key tipping points that could profoundly disrupt the global climate system and biosphere once critical thresholds are crossed,” it said.
“Once sufficient warming has occurred, feedbacks could ultimately cause the Greenland ice sheet to collapse, which is a result of exceeding a tipping point,” Wolf said.
The report noted that most nations have signed on to the Paris Accord, which calls for limiting global warming to 2.0 degrees Celsius, and ideally 1.5C, but they said more drastic action is needed to reduce emissions.
“Waiting until 2050 to achieve net-zero carbon emissions might be far too late,” the authors said. “Time is running out to avoid the worst effects of climate change.”
In the short-term, a failure to dramatically reduce emissions could result in ongoing and intensifying climate impacts, they said.
“In the worst-case long-term scenario, interactions among feedback loops could result in an irreversible drift away from the current state of Earth’s climate to a state that threatens habitability for humans and other life forms,” they added.