人类活动对北极 9 月极低海冰和 2020 年炎夏的影响及其未来发生的风险

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Applied Nano Materials Pub Date : 2024-04-30 DOI:10.1016/j.wace.2024.100674
Kaixi Wang, Xian Zhu, Wenjie Dong
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引用次数: 0

摘要

2020 年期间,北极地区海冰覆盖率极低,气候炎热。9 月海冰面积(SIE)比 1979-2014 年平均值低约 230 万平方公里,是 1979-2020 年记录中第二低的月份,而区域夏季(6-8 月,JJA)2 米平均气温(TAS)比 1979-2014 年平均值高约 1.3 ℃,是当时记录中最热的月份。在局部地区,9 月份的海冰浓度(SIC)比 1979-2014 年的平均值低约 70%,而 JJA 的 TAS 可比 1979-2014 年的平均值高出 6.0 ℃。虽然极端事件的近因是持续有利的大气环流模式、风况和冰-冰盖反馈,但本文的主要目的是进行极端事件的概率归因研究,以评估人为影响。基于 CMIP6 多模式集合产品,当包括人为强迫或温室气体(GHG)强迫时,建模的北极海冰和 TAS 长期趋势与观测趋势一致,而仅有气溶胶或自然强迫时则无法显示观测趋势。进一步的分析表明,包括温室气体强迫在内的人为影响大大增加了 2020 年类似极端事件的发生概率,而在仅有气溶胶或仅有自然强迫的情况下,这种极端事件很少发生。与自然强迫相比,在所有强迫条件下,类似 2020 年的低 SIC 发生频率增加了 19 倍,在温室气体强迫条件下增加了 16 倍。在 SSP126、SSP245 和 SSP585 不同的共享社会经济路径(SSP)情景下进行的未来气候模拟显示,目前被认为罕见的 2020 年类似极端事件预计将成为常态,在 2041-2060 年之后几乎每年都会发生一次。从 SSP126 的低排放到 SSP585 的高排放,SIC 的概率约为 0.85-1.00,TAS 的概率约为 0.76-0.99。
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Anthropogenic influence on the extremely low September sea ice and hot summer of 2020 over the arctic and its future risk of occurrence

During 2020, the Arctic is marked by extremely low sea ice coverage and hot climate. September Sea Ice Extent (SIE) was about 2.3 million km2 below the 1979–2014 mean and the 2nd lowest on the 1979–2020 record, while regional summer (June–August, JJA) mean 2 m air temperature (TAS) was about 1.3 °C above the 1979–2014 mean and was the hottest on record at the time. Locally, September Sea Ice Concentration (SIC) was approximately 70% lower and JJA TAS can be as much as 6.0 °C higher than the 1979–2014 mean. Although the proximate cause for the extreme event was the continuously favorable atmospheric circulation patterns, wind conditions and ice-albedo feedback, the main objective of this paper is probabilistic extreme event attribution studies to assess the anthropogenic influence. Based on the CMIP6 multi-model ensemble products, modeled long-term trends of Arctic sea ice and TAS are consistent with observed trends when including anthropogenic forcing or greenhouse gas (GHG) forcing, while cannot exhibit observed trends with only aerosol or natural forcing. Further analysis reveals that human influence including GHG forcing has substantially increased the probability of occurrence of the 2020-like extreme events, which are rare in aerosol-only or natural-only forcing. The frequencies of 2020-like low SIC increase by 19 times with all forcing and 16 times with GHG forcing than with natural forcing. Future climate simulations under different Shared Socioeconomic Pathway (SSP) scenarios of SSP126, SSP245 and SSP585 show that the 2020-like extreme event that is currently considered rare is projected to become the norm and almost occur 1-in-1 year beyond 2041–2060. The probabilities will be approximately in the range of 0.85–1.00 for SIC and 0.76–0.99 for TAS from low emission of SSP126 to high emission of SSP585.

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来源期刊
CiteScore
8.30
自引率
3.40%
发文量
1601
期刊介绍: ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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