Seasonal SIMS δ18O record in Astarte borealis from the Baltic Sea tracks a modern regime shift in the NAO

• Published in: Frontiers in Marine Science Vol. 10
• Main Authors: Hughes, Hunter P., Surge, Donna, Orland, Ian J., Zettler, Michael L., Moss, David K.
• Format: Journal Article
• Language: English
• Published: Lausanne Frontiers Research Foundation 06.12.2023; Frontiers Media S.A
• Subjects: Aragonite; Archives & records; Astarte borealis; Atmospheric forcing; Bivalvia; Correlation; Environmental conditions; Geochemistry; Growth rate; Hydroclimate; In situ temperature; Life span; Mass spectrometry; Mass spectroscopy; North Atlantic oscillation; Ocean-atmosphere system; Oscillations; oxygen isotope ratios; Oxygen isotopes; Paleoclimate; Sea surface; Sea surface temperature; secondary ion mass spectrometry; Stable isotopes; Surface temperature; Water temperature; Baltic Sea; White Sea
• ISSN: 2296-7745; 2296-7745
• DOI: 10.3389/fmars.2023.1293823

Introduction Astarte borealis holds great potential as an archive of seasonal paleoclimate, especially due to its long lifespan (several decades to more than a century) and ubiquitous distribution across high northern latitudes. Furthermore, recent work demonstrates that the isotope geochemistry of the aragonite shell is a faithful proxy of environmental conditions. However, the exceedingly slow growth rates of A. borealis in some locations (<0.2mm/year) make it difficult to achieve seasonal resolution using standard micromilling techniques for conventional stable isotope analysis. Moreover, oxygen isotope (δ 18 O) records from species inhabiting brackish environments are notoriously difficult to use as paleoclimate archives because of the simultaneous variation in temperature and δ 18 O water values. Methods Here we use secondary ion mass spectrometry (SIMS) to microsample an A. borealis specimen from the southern Baltic Sea, yielding 451 SIMS δ 18 O shell values at sub-monthly resolution. Results SIMS δ 18 O shell values exhibit a quasi-sinusoidal pattern with 24 local maxima and minima coinciding with 24 annual growth increments between March 1977 and the month before specimen collection in May 2001. Discussion Age-modeled SIMS δ 18 O shell values correlate significantly with both in situ temperature measured from shipborne CTD casts (r 2  = 0.52, p<0.001) and sea surface temperature from the ORAS5-SST global reanalysis product for the Baltic Sea region (r 2  = 0.42, p<0.001). We observe the strongest correlation between SIMS δ 18 O shell values and salinity when both datasets are run through a 36-month LOWESS function (r 2  = 0.71, p < 0.001). Similarly, we find that LOWESS-smoothed SIMS δ 18 O shell values exhibit a moderate correlation with the LOWESS-smoothed North Atlantic Oscillation (NAO) Index (r 2  = 0.46, p<0.001). Change point analysis supports that SIMS δ 18 O shell values capture a well-documented regime shift in the NAO circa 1989. We hypothesize that the correlation between the SIMS δ 18 O shell time series and the NAO is enhanced by the latter’s influence on the regional covariance of water temperature and δ 18 O water values on interannual and longer timescales in the Baltic Sea. These results showcase the potential for SIMS δ 18 O shell values in A. borealis shells to provide robust paleoclimate information regarding hydroclimate variability from seasonal to decadal timescales.