CHINESE ACADEMY OF SCIENCES

Climate models are critical for anticipating future changes caused by greenhouse gas emissions, and help guide policy decisions on climate mitigation. However, some of the latest climate models — particularly a set from the newest generation — have been deemed “too hot,” meaning they predict warming in excess of realistic estimates. This can lead to exaggerated expectations of environmental impacts, such as permafrost loss.

Permafrost, or soil that remains at or below freezing for at least two consecutive years, is a significant global carbon store. When it thaws, stored carbon is released into the atmosphere as greenhouse gases, amplifying climate warming. This process, especially pronounced in colder ecosystems like High Mountain Asia (HMA), threatens to intensify global warming further.

Permafrost thaw slump in the Qinghai-Tibetan Plateau [IMAGE: JIANG JIE]

HMA, home to over 70 percent of the world’s low-latitude mountain permafrost, faces ongoing warming. Scientists have debated whether HMA will become a net source of carbon emissions in the future, making precise permafrost loss estimates increasingly important. Accurate predictions for permafrost degradation are therefore crucial.

A new study published in Geophysical Research Letters highlights the role of “equilibrium climate sensitivity” (ECS), a metric estimating how much global surface temperature increases with rising carbon dioxide levels. Around 40 percent of the models used in the most recent global climate assessments predict ECS values above the likely range of 2.5℃ to 4℃. These inflated values contribute to exaggerated regional warming forecasts for areas like HMA, which in turn could distort permafrost loss predictions.

To overcome the bias in existing studies, the research team at the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences used a statistical approach to adjust the warming magnitude associated with ECS according to the best estimate of ECS value (about 3℃, according to the 6th Assessment Report of the Inter-governmental Panel on Climate Change). With these adjustments, they calculated future warming projections and related permafrost loss under different emissions scenarios. Their findings suggest that under constrained projections, permafrost loss estimates for HMA in the coming decades are significantly lower than previously thought.

Using these improved projections, the researchers found that by 2081-2100, the HMA permafrost area could shrink by 37 percent to 64 percent under mid and low-emission scenarios, a decrease from earlier projections. Without the adjustments, previous models overestimated permafrost loss by as much as 10 percent. Under the highest emissions scenario, however, the impact of warming remains severe, with HMA nearly devoid of permafrost by the end of the century.

Dr. Jiang Jie, the study’s lead author, emphasized, “Global efforts are underway to curb warming to 1.5℃ or 2℃ by 2100, and recent emissions policies have made the likelihood of high-emission scenarios much lower. Our study shows that more realistic temperature projections lead to more accurate permafrost predictions, not only for High Mountain Asia but for other vulnerable permafrost areas as well.”

The findings underline the importance of using realistic global warming levels in climate projections, particularly for permafrost thaw and related carbon emissions. Conditioning these projections based on the best estimate of climate sensitivity could improve the accuracy of climate impact predictions globally.

For more information, please contact:

Dr. Jiang Jie

E-mail: jiangj@lasg.iap.cn.cn

Institute of Atmospheric Physics,

Chinese Academy of Sciences

Source: Institute of Atmospheric Physics,

Chinese Academy of Sciences

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