Amundsen Sea Ice Loss Contributes to Australian Wildfires

Liu, Guanyu; Li, Jing; Ying, Tong

doi:10.1021/acs.est.4c00051

Environ. Sci. Technol.

2024

DOI: 10.1021/acs.est.4c00051

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Amundsen Sea Ice Loss Contributes to Australian Wildfires

Guanyu Liu,

Jing Li,

Tong Ying

Abstract: Wildfires in Australia have attracted extensive attention in recent years, especially for the devastating 2019−2020 fire season. Remote forcing, such as those from tropical oceans, plays an important role in driving the abnormal weather conditions associated with wildfires. However, whether high latitude climate change can impact Australian fires is largely unclear. In this study, we reveal a robust relationship between Antarctic sea ice concentration (SIC), primarily over the Amundsen Sea region, with Austral… Show more

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North Atlantic and the Barents Sea variability contribute to the 2023 extreme fire season in Canada

Liu,

Li,

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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In the late spring to summer season of 2023, Canada witnessed unprecedented wildfires, with an extensive burning area and smoke spreading as far as the East Coast of the United States and Europe. Here, using multisource data analysis and climate model simulations, we show that an abnormally warm North Atlantic, as well as an abnormally low Barents Sea ice concentration (SIC), are likely key climate drivers of this Canadian fire season, contributing to ~80% of the fire weather anomaly over Canada from June to August 2023. Specifically, the warm North Atlantic forms an anomalous regional zonal cell with ascending air over the Atlantic and descending air encircling Canada, creating hot and dry local conditions. Meanwhile, reduced Barents SIC leads to a high-pressure center and reinforces the dry northern winds in Canada through Rossby wave dynamics. These exacerbated dry and hot conditions create a favorable environment for the ignition and spread of fires, thus contributing to the prolonged and extreme fire season in Canada. These teleconnections can extend to decadal scales and have important implications for understanding and predicting decadal fire activity in Canada and the surrounding regions.

show abstract

North Atlantic and the Barents Sea variability contribute to the 2023 extreme fire season in Canada

Liu,

Li,

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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show abstract

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Amundsen Sea Ice Loss Contributes to Australian Wildfires

Cited by 1 publication

References 59 publications

North Atlantic and the Barents Sea variability contribute to the 2023 extreme fire season in Canada

North Atlantic and the Barents Sea variability contribute to the 2023 extreme fire season in Canada

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