Current climate policies imply a high risk for tipping of critical Earth system elements, even if temperatures return to below 1.5°C of global warming after a period of overshoot. A new study indicates that these risks can be minimized if warming is swiftly reversed.
Anthropogenic climate change poses a risk to critical components of the Earth system, including ice sheets, ocean currents, and other key biospheric elements, often referred to as tipping elements. A recent study in the scientific journal Nature Communications by researchers from the International Institute for Applied Systems Analysis (IIASA) and the Potsdam Institute for Climate Impact Research (PIK) examines the potential destabilization of four major climate tipping elements under existing mitigation strategies and projected future emissions.
The scientists determined the tipping risks for destabilizing at least one of four core climate elements as a consequence of overshooting 1.5°C: the Greenland Ice Sheet, the West Antarctic Ice Sheet, the Atlantic Meridional Overturning Circulation (the main ocean current system in the Atlantic Ocean), and the Amazon Rainforest. All four contribute to regulating the stability of the Earth’s climate system. Global warming can trigger abrupt changes in these biophysical systems, leading to irreversible consequences.
The authors’ analysis shows how crucial it is for the state of the planet to adhere to the climate objectives of the Paris Agreement and emphasizes the legacy of our climate (in)action today for centuries to millennia to come.
The Crucial Need for Net-Zero Emissions
“Our results show that to effectively limit tipping risks over the coming centuries and beyond, we must achieve and maintain net-zero greenhouse gas emissions. Following current policies this century would commit us to a high tipping risk of 45% by 2300, even if temperatures are brought back to below 1.5°C after a period of overshoot,” says co-lead author Tessa Möller, a researcher in the Integrated Climate Impacts Research Group of the IIASA Energy, Climate, and Environment Program and at PIK.
The authors found that tipping risks by 2300 are substantial for several of the assessed future emission scenarios. Failing to return to below 1.5°C by 2100, despite reaching net-zero greenhouse gas emissions, results in tipping risks of up to 24% by 2300, meaning that in around a quarter of model runs under scenarios that fail to return to below 1.5°C by 2100, at least one of the considered tipping elements has tipped.
Policy Implications and Warming Reversal
“We see an increase in tipping risk with every tenth of a degree of overshoot above 1.5°C. If we were to also surpass 2°C of global warming, tipping risks would escalate even more rapidly. This is very concerning as scenarios that follow currently implemented climate policies are estimated to result in about 2.6°C global warming by the end of this century,” says Annika Ernest Högner from PIK, who co-led the study.
“Only a swift warming reversal after overshoot can effectively limit tipping risks. This requires achieving at least net-zero greenhouse gases. Our study underscores that this global mitigation objective, enshrined in Article 4 of the Paris Agreement, is vital for planetary stability,” adds IIASA Integrated Climate Impacts Research Group Leader, Carl Schleussner, one of the study authors.
According to the researchers, the advanced models currently used to study the Earth’s systems are not yet able to fully capture the complicated behaviors, feedback loops, and interactions between some of the tipping elements. To address this, the team used a simpler, stylized Earth system model that represents these tipping elements using four connected mathematical equations. By doing so, they also took future stabilizing interactions into account, like the cooling effect of the weakening Atlantic Meridional Overturning Circulation onto the Northern Hemisphere.
Model Limitations and Legal Imperatives
“This analysis of tipping point risks adds further support to the conclusion that we are underestimating risks, and need to now recognize that the legally binding objective in the Paris Agreement of holding global warming to well below 2°C, in reality means limiting global warming to 1.5°C. Due to insufficient emission reductions, we run an ever increasing risk of a period of overshooting this temperature limit, which we need to minimize at all costs to reduce dire impacts to people across the world,” concludes PIK Director and study coauthor Johan Rockström.
For more on this study, see How Close Are We to the Climate’s Point of No Return?
Reference: “Achieving net zero greenhouse gas emissions critical to limit climate tipping risks” by Tessa Möller, Annika Ernest Högner, Carl-Friedrich Schleussner, Samuel Bien, Niklas H. Kitzmann, Robin D. Lamboll, Joeri Rogelj, Jonathan F. Donges, Johan Rockström and Nico Wunderling, 1 August 2024, Nature Communications.
DOI: 10.1038/s41467-024-49863-0