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The role of interdecadal climate oscillations in driving Arctic atmospheric river trends

Earth Sciences

The role of interdecadal climate oscillations in driving Arctic atmospheric river trends

W. Ma, H. Wang, et al.

Discover how atmospheric rivers are reshaping the Arctic climate! This groundbreaking research reveals the disparity in Arctic atmospheric river frequency across regions and uncovers key oscillation patterns driving these changes, conducted by a team of experts including Weiming Ma and Hailong Wang.

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Playback language: English
Abstract
Atmospheric rivers (ARs), intrusions of warm and moist air, can effectively drive weather extremes over the Arctic and trigger subsequent impact on sea ice and climate. What controls the observed multi-decadal Arctic AR trends remains unclear. Here, using multiple sources of observations and model experiments, we find that, contrary to the uniform positive trend in climate simulations, the observed Arctic AR frequency increases by twice as much over the Atlantic sector compared to the Pacific sector in 1981–2021. This discrepancy can be reconciled by the observed positive-to-negative phase shift of Interdecadal Pacific Oscillation (IPO) and the negative-to-positive phase shift of Atlantic Multidecadal Oscillation (AMO), which increase and reduce Arctic ARs over the Atlantic and Pacific sectors, respectively. Removing the influence of the IPO and AMO can reduce the projection uncertainties in near-future Arctic AR trends by about 24%, which is important for constraining projection of Arctic warming and the timing of an ice-free Arctic.
Publisher
Nature Communications
Published On
Mar 08, 2024
Authors
Weiming Ma, Hailong Wang, Gang Chen, L. Ruby Leung, Jian Lu, Philip J. Rasch, Qiang Fu, Ben Kravitz, Yufei Zou, John J. Cassano, Wiesław Maslowski
Tags
atmospheric rivers
Arctic
climate change
Interdecadal Pacific Oscillation
Atlantic Multidecadal Oscillation
sea ice
weather extremes

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