全球不同气候区极端气温时空变化及其与大气环流的关系

Key Points

• This research aims to uncover the spatial and temporal variations of extreme temperature events across various climate zones and their driving factors.
• Utilized ERA5 reanalysis data and 88 atmospheric circulation indices.
• Applied a multi-method coupling framework including trend analysis and correlation testing.
• Employed a geographical detector model to analyze extreme temperature evolution from 1951 to 2024.
• Most areas show an increasing trend in extreme warm events and a decreasing trend in extreme cold events.
• Significant spatial heterogeneity in extreme temperature events observed.
• Upper latitude regions exhibit a higher rate of decrease in frost days and ice days compared to middle and lower latitude areas.
• Certain atmospheric circulation indices have a notable impact on global extreme temperature variations.
• Nonlinear enhancement effects of atmospheric circulation interactions were identified.