Abstract
Instrumental records suggest multidecadal variability in Arctic surface temperature throughout the twentieth century. This variability is caused by a combination of external forcing and internal variability, but their relative importance remains unclear. Since the early twentieth century Arctic warming has been linked to decadal variability in the Pacific, we hypothesize that the Pacific could impact decadal temperature trends in the Arctic throughout the twentieth century. To investigate this, we compare two ensembles of historical all-forcing twentieth century simulations with the Norwegian Earth System Model (NorESM): (1) a fully coupled ensemble and (2) an ensemble where momentum flux anomalies from reanalysis are prescribed over the Indo-Pacific Ocean to constrain Pacific sea surface temperature variability. We find that the combined effect of tropical and extratropical Pacific decadal variability can explain up to ~ 50% of the observed decadal surface temperature trends in the Arctic. The Pacific-Arctic connection involves both lower tropospheric horizontal advection and subsidence-induced adiabatic heating, mediated by Aleutian Low variations. This link is detected across the twentieth century, but the response in Arctic surface temperature is moderated by external forcing and surface feedbacks. Our results also indicate that increased ocean heat transport from the Atlantic to the Arctic could have compensated for the impact of a cooling Pacific at the turn of the twenty-first century. These results have implications for understanding the present Arctic warming and future climate variations.
Highlights
Arctic surface temperatures have been increasing for decades, and the Arctic is warming at a higher rate than the rest of the globe
We investigate how variability in Pacific sea surface temperatures (SSTs) can impact surface temperature and atmospheric circulation in the Arctic on multidecadal timescales, and we identify how much of the multidecadal variability in Arctic surface temperature during the twentieth century can be explained by Pacific variability
We have investigated the impact of decadal variability in the Pacific on Arctic surface temperature and atmospheric circulation trends during the twentieth century
Summary
Arctic surface temperatures have been increasing for decades, and the Arctic is warming at a higher rate than the rest of the globe. Earlier studies have identified contributions to multidecadal variability in Arctic surface temperature from anthropogenic climate forcing such as atmospheric greenhouse gas concentrations and aerosols, and natural climate forcing such as volcanic eruptions and variations in solar insolation (Fyfe et al 2013; Kay et al 2011; Soon 2005) When it comes to internal variability, a discussion is ongoing about the relative importance of the Atlantic (Chylek et al 2009; Johannessen et al 2016) and the Pacific (Screen and Deser 2019; Screen and Francis 2016; Svendsen et al 2018; Tokinaga et al 2017). The Atlantic influence on the Arctic on decadal to multidecadal timescales has been identified to be mainly through poleward ocean heat transport (OHT) through the Barents Sea and the Fram Strait
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