环境科学
气候学
云反照率
云量
全球变暖
纬度
反照率(炼金术)
大气科学
气候变化
气象学
云计算
海洋学
地理
地质学
艺术史
操作系统
大地测量学
艺术
计算机科学
表演艺术
作者
Helge Goessling,Thomas Rackow,Thomas Jung
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2024-12-05
卷期号:387 (6729): 68-73
被引量:113
标识
DOI:10.1126/science.adq7280
摘要
In 2023, the global mean temperature soared to almost 1.5 kelvin above the preindustrial level, surpassing the previous record by about 0.17 kelvin. Previous best-guess estimates of known drivers, including anthropogenic warming and the El Niño onset, fall short by about 0.2 kelvin in explaining the temperature rise. Using satellite and reanalysis data, we identified a record-low planetary albedo as the primary factor bridging this gap. The decline is apparently caused largely by a reduced low-cloud cover in the northern mid-latitudes and tropics, in continuation of a multiannual trend. Further exploring the low-cloud trend and understanding how much of it is due to internal variability, reduced aerosol concentrations, or a possibly emerging low-cloud feedback will be crucial for assessing the present and expected future warming.
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