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Annually resolved Atlantic sea surface temperature variability over the past 2,900 y

François Lapointe, Raymond S. Bradley, Pierre Francus, Nicholas L. Balascio, Mark B. Abbott, Joseph S. Stoner, Guillaume St‐Onge, Arnaud De Coninck, Thibault Labarre

2020Proceedings of the National Academy of Sciences86 citationsDOIOpen Access PDF

Abstract

Global warming due to anthropogenic factors can be amplified or dampened by natural climate oscillations, especially those involving sea surface temperatures (SSTs) in the North Atlantic which vary on a multidecadal scale (Atlantic multidecadal variability, AMV). Because the instrumental record of AMV is short, long-term behavior of AMV is unknown, but climatic teleconnections to regions beyond the North Atlantic offer the prospect of reconstructing AMV from high-resolution records elsewhere. Annually resolved titanium from an annually laminated sedimentary record from Ellesmere Island, Canada, shows that the record is strongly influenced by AMV via atmospheric circulation anomalies. Significant correlations between this High-Arctic proxy and other highly resolved Atlantic SST proxies demonstrate that it shares the multidecadal variability seen in the Atlantic. Our record provides a reconstruction of AMV for the past ∼3 millennia at an unprecedented time resolution, indicating North Atlantic SSTs were coldest from ∼1400-1800 CE, while current SSTs are the warmest in the past ∼2,900 y.

Topics & Concepts

Sea surface temperatureOceanographyClimatologyEnvironmental scienceGeographyGeologyClimate variability and modelsOceanographic and Atmospheric ProcessesArctic and Antarctic ice dynamics
Annually resolved Atlantic sea surface temperature variability over the past 2,900 y | Litcius