Expanding Influence of Atlantic and Pacific Ocean Heat Transport on Winter Sea‐Ice Variability in a Warming Arctic

Dörr, Jakob; Årthun, Marius; Eldevik, Tor; Sandø, Anne Britt

doi:10.1029/2023jc019900

Cited by 6 publications

(2 citation statements)

References 117 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…On the other hand, the difference between CESM-LE and reanalysis data could be related to biases in the CESM-LE. Even though CESM1 is among the best performing models in simulating Arctic sea-ice variability (Årthun et al, 2019;Dörr et al, 2024;England et al, 2019), it has a cold bias in the BKS (Figures 1a and 1c). This delays the sea-ice loss and the associated weakening of the oceanic influence compared to reanalysis and we would expect the oceanic influence to be stronger in CESM-LE than in reanalysis data for the recent decades, as is seen.…”

Section: Discussionmentioning

confidence: 99%

Causal Links Between Sea‐Ice Variability in the Barents‐Kara Seas and Oceanic and Atmospheric Drivers

Dörr,

Årthun,

Docquier

et al. 2024

Geophysical Research Letters

Self Cite

View full text Add to dashboard Cite

The sea‐ice cover in the Barents and Kara Seas (BKS) displays pronounced interannual variability. Both atmospheric and oceanic drivers have been found to influence sea‐ice variability, but their relative strength and regional importance remain under debate. Here, we use the Liang‐Kleeman information flow method to quantify the causal influence of oceanic and atmospheric drivers on the annual sea‐ice cover in the BKS in the Community Earth System Model large ensemble and reanalysis. We find that atmospheric drivers dominate in the northern part, ocean heat transport dominates in the central and northeastern part, and local sea‐surface temperature dominates in the southern part. Furthermore, the large‐scale atmospheric circulation over the Nordic Seas drives ocean heat transport into the Barents Sea, which then influences sea ice. Under future sea‐ice retreat, the atmospheric drivers are expected to become more important.

show abstract

Section: Discussionmentioning

confidence: 99%

Causal Links Between Sea‐Ice Variability in the Barents‐Kara Seas and Oceanic and Atmospheric Drivers

Dörr,

Årthun,

Docquier

et al. 2024

Geophysical Research Letters

Self Cite

View full text Add to dashboard Cite

show abstract

“…The previous winter sea-ice extent and volume are important in setting the course of the following summer sea-ice extent 24,29 . Furthermore, ocean heat transport to the Arctic, mainly via the Barents Sea Opening, Fram Strait and Bering Strait, has been shown to strongly impact Arctic sea ice 5,[30][31][32][33][34][35] , although this influence mainly occurs in winter 25,36,37 , when the sea-ice pack is more extensive.…”

Section: Introductionmentioning

confidence: 99%

Drivers of summer Arctic sea-ice extent in CMIP6 large ensembles revealed by information flow

Docquier,

Massonnet,

Ragone

et al. 2024

Preprint

View full text Add to dashboard Cite

Arctic sea-ice extent has strongly decreased since the beginning of satellite observations in the late 1970s. While several drivers are known to be implicated, their respective contribution is not fully understood. Here, we apply the Liang-Kleeman information flow method to five different large ensembles from the Coupled Model Intercomparison Project Phase 6 (CMIP6) over the 1970-2060 period to investigate the extent to which fluctuations in winter sea-ice volume, air temperature and ocean heat transport drive changes in subsequent summer Arctic sea-ice extent. This allows us to go beyond classical correlation analyses. Results show that air temperature is the most important controlling factor of summer sea-ice extent at interannual timescale, and that winter sea-ice volume and Atlantic Ocean heat transport play a secondary role. If we replace air temperature by net shortwave and downward longwave radiations, we find that the sum of influences from both radiations is almost similar to the air temperature influence, with the longwave radiation being dominant in driving changes in summer sea-ice extent. Finally, we find that the influence of air temperature is more prominent during periods of large sea-ice reduction and that this temperature influence has overall increased since 1970.

show abstract

Sea ice in the Nordic Seas: Greenland stadial to interstadial changes

Wong,

Risebrobakken,

Fahl

et al. 2024

Quaternary Science Reviews

View full text Add to dashboard Cite

Expanding Influence of Atlantic and Pacific Ocean Heat Transport on Winter Sea‐Ice Variability in a Warming Arctic

Cited by 6 publications

References 117 publications

Causal Links Between Sea‐Ice Variability in the Barents‐Kara Seas and Oceanic and Atmospheric Drivers

Causal Links Between Sea‐Ice Variability in the Barents‐Kara Seas and Oceanic and Atmospheric Drivers

Drivers of summer Arctic sea-ice extent in CMIP6 large ensembles revealed by information flow

Sea ice in the Nordic Seas: Greenland stadial to interstadial changes

Contact Info

Product

Resources

About