ACE2: accurately learning subseasonal to decadal atmospheric variability and forced responses

IF 8.5 1区地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES

npj Climate and Atmospheric Science Pub Date : 2025-05-29 DOI:10.1038/s41612-025-01090-0

Oliver Watt-Meyer, Brian Henn, Jeremy McGibbon, Spencer K. Clark, Anna Kwa, W. Andre Perkins, Elynn Wu, Lucas Harris, Christopher S. Bretherton

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Abstract

Existing machine learning models of weather variability are not formulated to enable assessment of their response to varying external boundary conditions such as sea surface temperature and greenhouse gases. Here we present ACE2 (Ai2 Climate Emulator version 2) and its application to reproducing atmospheric variability over the past 80 years on timescales from days to decades. ACE2 is a 450M-parameter autoregressive machine learning emulator, operating with 6-hour temporal resolution, 1° horizontal resolution and eight atmospheric vertical layers. It exactly conserves global dry air mass and moisture and can be stepped forward stably for arbitrarily many steps with a throughput of about 1500 simulated years per wall clock day. ACE2 generates emergent phenomena such as tropical cyclones, the Madden Julian Oscillation, and sudden stratospheric warmings. Furthermore, it accurately reproduces the atmospheric response to El Niño variability and global trends of temperature over the past 80 years. However, its sensitivities to separately changing sea surface temperature and carbon dioxide are not entirely realistic.

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ACE2：精确地学习亚季节到年代际的大气变率和强迫响应

现有的天气变率机器学习模型的制定不能评估它们对变化的外部边界条件（如海面温度和温室气体）的响应。本文介绍了ACE2 （Ai2气候模拟器第2版）及其在从天到几十年的时间尺度上再现过去80年大气变率的应用。ACE2是一个450 m参数的自回归机器学习模拟器，具有6小时时间分辨率，1°水平分辨率和8个大气垂直层。它精确地保存了全球干空气质量和水分，并且可以稳定地向前迈进任意多步，每个壁钟日的吞吐量约为1500模拟年。ACE2产生了热带气旋、马登朱利安涛动和平流层突然变暖等紧急现象。此外，它准确地再现了过去80年来大气对El Niño变率和全球温度趋势的响应。然而，它对单独变化的海面温度和二氧化碳的敏感性并不完全现实。

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来源期刊

npj Climate and Atmospheric Science Earth and Planetary Sciences-Atmospheric Science

CiteScore

8.80

自引率

3.30%

发文量

审稿时长

21 weeks

期刊介绍： npj Climate and Atmospheric Science is an open-access journal encompassing the relevant physical, chemical, and biological aspects of atmospheric and climate science. The journal places particular emphasis on regional studies that unveil new insights into specific localities, including examinations of local atmospheric composition, such as aerosols. The range of topics covered by the journal includes climate dynamics, climate variability, weather and climate prediction, climate change, ocean dynamics, weather extremes, air pollution, atmospheric chemistry (including aerosols), the hydrological cycle, and atmosphere–ocean and atmosphere–land interactions. The journal welcomes studies employing a diverse array of methods, including numerical and statistical modeling, the development and application of in situ observational techniques, remote sensing, and the development or evaluation of new reanalyses.