Articles | Volume 3, issue 3
https://doi.org/10.5194/wcd-3-845-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/wcd-3-845-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Research article
| 
04 Aug 2022
Research article |
| 04 Aug 2022
| 04 Aug 2022
Pacific Decadal Oscillation modulates the Arctic sea-ice loss influence on the midlatitude atmospheric circulation in winter
UMR LOCEAN, Sorbonne Université/IRD/MNHN/CNRS, Paris,
France
Instituto Dom Luiz (IDL), Faculdade de Ciências,
Universidade de Lisboa, Lisbon, Portugal
Guillaume Gastineau
UMR LOCEAN, Sorbonne Université/IRD/MNHN/CNRS, Paris,
France
Claude Frankignoul
UMR LOCEAN, Sorbonne Université/IRD/MNHN/CNRS, Paris,
France
Vladimir Lapin
Barcelona Supercomputing Center, Barcelona, Spain
Pablo Ortega
Barcelona Supercomputing Center, Barcelona, Spain
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Cited
17 citations as recorded by crossref.
- A comparison of two causal methods in the context of climate analyses D. Docquier et al.
- The connections between quasi-biennial oscillation and the sea surface temperatures in the North Pacific T. Wang et al.
- Asymmetric Pacific variability in the Pliocene: An unchanged PDO relative to a suppressed ENSO K. Canal-Solis et al.
- Quantifying the state-dependent causal effect of Barents–Kara Sea ice loss on the stratospheric polar vortex in a large ensemble simulation X. Shen et al.
- Climate Indices as Potential Predictors in Empirical Long-Range Meteorological Forecasting Models S. Soldatenko et al.
- Changes in coastal wind speed in the Northern Hemisphere J. Huang et al.
- Arctic amplification and modal variability of the Hadley cell on interannual timescales C. Anurag et al.
- Interdecadal variations in the interannual relationship between winter tropical Pacific SST and subsequent summer Arctic sea ice in early 2000s J. Gu et al.
- Influence of atmospheric and oceanic circulation patterns on precipitation variability in North Africa with a focus on Morocco O. Hakam et al.
- Causes and consequences of Arctic amplification elucidated by coordinated multimodel experiments J. Screen et al.
- The Relationships Between Meridional Position of North Pacific Sea Surface Temperature Anomalies and North American Surface Temperatures Revealed by CMIP6 Models T. Wang et al.
- Spatiotemporal variability of sea ice and its meteorological drivers in Liaodong Bay, China (2014–2024) K. Pan et al.
- The observed trend in unusual daily mean temperatures over Germany from 1949 to 2018 and their relationships to major climatic drivers Y. Yulizar
- Changes in extreme temperatures and precipitation over pan-Arctic land driven by anthropogenic influences Y. Yang et al.
- Mid-Pliocene not analogous to high-CO2 climate when considering Northern Hemisphere winter variability A. Oldeman et al.
- Similar North Pacific variability despite suppressed El Niño variability in the warm mid-Pliocene climate A. Oldeman et al.
- Influence of Arctic Oscillation and Pacific Decadal Oscillation on sea ice export through the Fram Strait C. Chen et al.
17 citations as recorded by crossref.
- A comparison of two causal methods in the context of climate analyses D. Docquier et al.
- The connections between quasi-biennial oscillation and the sea surface temperatures in the North Pacific T. Wang et al.
- Asymmetric Pacific variability in the Pliocene: An unchanged PDO relative to a suppressed ENSO K. Canal-Solis et al.
- Quantifying the state-dependent causal effect of Barents–Kara Sea ice loss on the stratospheric polar vortex in a large ensemble simulation X. Shen et al.
- Climate Indices as Potential Predictors in Empirical Long-Range Meteorological Forecasting Models S. Soldatenko et al.
- Changes in coastal wind speed in the Northern Hemisphere J. Huang et al.
- Arctic amplification and modal variability of the Hadley cell on interannual timescales C. Anurag et al.
- Interdecadal variations in the interannual relationship between winter tropical Pacific SST and subsequent summer Arctic sea ice in early 2000s J. Gu et al.
- Influence of atmospheric and oceanic circulation patterns on precipitation variability in North Africa with a focus on Morocco O. Hakam et al.
- Causes and consequences of Arctic amplification elucidated by coordinated multimodel experiments J. Screen et al.
- The Relationships Between Meridional Position of North Pacific Sea Surface Temperature Anomalies and North American Surface Temperatures Revealed by CMIP6 Models T. Wang et al.
- Spatiotemporal variability of sea ice and its meteorological drivers in Liaodong Bay, China (2014–2024) K. Pan et al.
- The observed trend in unusual daily mean temperatures over Germany from 1949 to 2018 and their relationships to major climatic drivers Y. Yulizar
- Changes in extreme temperatures and precipitation over pan-Arctic land driven by anthropogenic influences Y. Yang et al.
- Mid-Pliocene not analogous to high-CO2 climate when considering Northern Hemisphere winter variability A. Oldeman et al.
- Similar North Pacific variability despite suppressed El Niño variability in the warm mid-Pliocene climate A. Oldeman et al.
- Influence of Arctic Oscillation and Pacific Decadal Oscillation on sea ice export through the Fram Strait C. Chen et al.
Saved (final revised paper)
Latest update: 06 May 2026
Short summary
The influence of the Arctic sea-ice loss on atmospheric circulation in midlatitudes depends on persistent sea surface temperatures in the North Pacific. In winter, Arctic sea-ice loss and a warm North Pacific Ocean both induce depressions over the North Pacific and North Atlantic, an anticyclone over Greenland, and a stratospheric anticyclone over the Arctic. However, the effects are not additive as the interaction between both signals is slightly destructive.
The influence of the Arctic sea-ice loss on atmospheric circulation in midlatitudes depends on...
