Constraining future surface air temperature change on the Tibetan Plateau

Environmental Research Letters Pub Date : 2024-07-23 DOI:10.1088/1748-9326/ad6677

Jianyu Wang, P. Zhai, Baiquan Zhou, Chao Li, Yang Chen

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Abstract

The rapid warming of the Tibetan Plateau (TP) in recent decades has led to severe consequences, including the melting of glaciers and snow cover, which further accelerates warming. Accurately projecting the magnitude of future warming is crucial for effective climate change adaptation. However, the projection of future temperature change is model dependent. In this study, we demonstrate a significant correlation between the historical intermodel warming trend and future temperature change, suggesting this relationship could be used to calibrate the best estimate of projections and reduce the uncertainty by observations. For a high emission scenario, the constraint helps to narrow down the uncertainty range of annual and summer temperature change on the western TP by up to 2 °C and 4 °C, respectively, in the end of this century. The most substantial calibrated increase of future change is in winter up to 2 °C, followed by autumn with an increase of up to about 1 °C. Discrepancies of historical warming trend among different observation datasets expose the largest impact on the constrained best estimate compared with emergent relationship derived from different climate models and historical periods.

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青藏高原未来地表气温变化的制约因素

近几十年来，青藏高原（TP）迅速变暖，导致了严重后果，包括冰川和积雪融化，进一步加速了气候变暖。准确预测未来变暖的程度对于有效适应气候变化至关重要。然而，对未来气温变化的预测取决于模型。在本研究中，我们证明了历史模式间变暖趋势与未来气温变化之间的显著相关性，这表明这种关系可用于校准预测的最佳估计值，并通过观测减少不确定性。在高排放情景下，该约束条件有助于缩小本世纪末西部TP年和夏季气温变化的不确定性范围，最高分别为2℃和4℃。经校核，未来气温变化增幅最大的是冬季，可达 2 ℃，其次是秋季，增幅可达约 1 ℃。不同观测数据集之间历史变暖趋势的差异，与不同气候模式和历史时期得出的显现关系相比，对约束最佳估计值的影响最大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environmental Research Letters

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