Projected Trends of Wintertime North American Surface Mean and Extreme Temperatures over the Next Half-century in Two Generations of Canadian Earth System Models

IF 1.6 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Atmosphere-Ocean Pub Date : 2021-01-01 DOI:10.1080/07055900.2021.1879726

B. Yu, Guilong Li, Hai Lin, Shangfeng Chen

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引用次数: 2

Abstract

ABSTRACT Based on two single-model initial-condition 50-member ensembles of climate simulations conducted with two generations of Canadian Earth System Models (CanESM2 and its successor CanESM5), we analyze the ensemble mean and spread of the projected trends of wintertime North American surface air temperature (SAT) and extreme indices of cold (TX10) and warm (TX90) days over the next half-century (2021–2070) and explore the contribution of internal climate variability to these trends. The ensemble mean of future climate simulations forced by the high-emissions scenario Representative Concentration Pathway 8.5 (RCP8.5) in CanESM2 and the Shared Socioeconomic Pathway 8.5 (SSP5-8.5) in CanESM5 reveals a poleward intensified warming, high risk of severe warm days over the west coast of North America and northern Canada, and a weakening belt of extreme cold days extending from Alaska to the northeastern United States. The warming trend is stronger in CanESM5 than in CanESM2, likely because of higher climate sensitivity and slightly higher CO2 emissions in CanESM5. Large ensemble spreads are apparent in the SAT trend and in the historical simulations and future projections of extreme temperatures, especially for the TX10 index. Individual realizations differ from the ensemble mean in both spatial pattern and magnitude of the projected trends. The signal-to-noise ratio reveals strong signals of the SAT and TX90 trends primarily over the west coast of North America and northern Canada, along with relatively strong signals of the TX10 trend over most of the central to eastern parts of North America in CanESM2 and western Canada and the southwestern and eastern United States in CanESM5. The components of the mean and extreme temperature trends generated by internal climate variability exhibit large-scale spatial coherences and are comparable to the externally anthropogenic-forced components of the trends, mostly in the central parts of North America. Overall, similar ensemble mean patterns of North American mean and extreme temperature trends are evident in the two models; CanESM5 tends to be less uncertain in projecting those trends than CanESM2.

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加拿大两代地球系统模式下未来半个世纪冬季北美地表平均温度和极端温度的预估趋势

摘要基于两代加拿大地球系统模型（CanESM2及其继任者CanESM5）进行的两个单一模型初始条件50成员的气候模拟集合，我们分析了未来半个世纪（2021–2070年）北美冬季地表气温（SAT）和极端寒冷（TX10）和温暖（TX90）天数预测趋势的总体平均值和分布，并探讨了内部气候变化对这些趋势的贡献。由CanESM2中的高排放情景代表性浓度路径8.5（RCP8.5）和CanESM5中的共享社会经济路径8.5（SSP5-8.5）强制进行的未来气候模拟的总体平均值揭示了北美洲西海岸和加拿大北部的极地变暖加剧、严重暖天的高风险，以及从阿拉斯加延伸到美国东北部的极端寒冷天气减弱带。CanESM5的变暖趋势比CanESM2更强，这可能是因为CanESM5具有更高的气候敏感性和略高的二氧化碳排放量。在SAT趋势、极端温度的历史模拟和未来预测中，特别是对于TX10指数，大的系综扩散是明显的。在预测趋势的空间模式和幅度方面，个体实现与集合平均值不同。信噪比显示，SAT和TX90的强信号主要分布在北美西海岸和加拿大北部，TX10的强信号分布在北美中部至东部大部分地区的CanESM2和加拿大西部以及美国西南部和东部的CanESM5。由内部气候变化产生的平均和极端温度趋势的组成部分表现出大规模的空间一致性，与趋势的外部人为强迫组成部分相当，主要在北美中部。总体而言，两个模型中北美平均气温和极端气温趋势的总体平均模式相似；与CanESM2相比，CanESM5在预测这些趋势时往往不那么不确定。

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来源期刊

Atmosphere-Ocean 地学-海洋学

CiteScore

2.50

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： Atmosphere-Ocean is the principal scientific journal of the Canadian Meteorological and Oceanographic Society (CMOS). It contains results of original research, survey articles, notes and comments on published papers in all fields of the atmospheric, oceanographic and hydrological sciences. Arctic, coastal and mid- to high-latitude regions are areas of particular interest. Applied or fundamental research contributions in English or French on the following topics are welcomed: climate and climatology; observation technology, remote sensing; forecasting, modelling, numerical methods; physics, dynamics, chemistry, biogeochemistry; boundary layers, pollution, aerosols; circulation, cloud physics, hydrology, air-sea interactions; waves, ice, energy exchange and related environmental topics.