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Seasonal changes in seawater calcium and alkalinity in the Sargasso Sea and across the Bermuda carbonate platform.

Authors :
Griffin, Alyssa J.
Anderson, Zachary
Ballard, John
Bates, Nicholas R.
Garley, Rebecca
Johnson, Rod
Martz, Todd
Pacheco, Fernando
Takeshita, Yuichiro
Andersson, Andreas J.
Source :
Marine Chemistry. Jan2022, Vol. 238, pN.PAG-N.PAG. 1p.
Publication Year :
2022

Abstract

Ocean acidification may shift coral reefs from a state of net ecosystem calcification (+NEC) to net ecosystem dissolution (–NEC). Changes in NEC are typically inferred from either measured or calculated total alkalinity (TA) or the dissolved calcium (Ca) to salinity ratio relative to a reference value. The alkalinity anomaly technique has historically been the primary method to estimate NEC due to the greater analytical challenges and uncertainty associated with dissolved Ca measurements in seawater. However, this method assumes that changes in salinity-normalized TA are exclusively the result of calcification and dissolution processes. In many cases, this assumption is valid, but in some environments additional processes can significantly influence seawater TA (e.g., nutrient fluxes and redox processes). Seawater Ca is unaffected or less sensitive to these processes, and therefore, Ca and TA anomalies can be used to estimate absolute or relative changes in NEC with greater confidence. Here, we present a two-year time series of monthly seawater Ca and TA measurements across the Bermuda carbonate platform and the nearby Bermuda Atlantic Time-series Study (BATS) location offshore. High precision Ca measurements (±6 μmol kg−1) were conducted using an improved spectrophotometric titration system and showed mostly good agreement with changes in TA over the same spatial and temporal scales. Ca and TA measurements across the Bermuda platform showed seasonal fluctuations relative to offshore waters, with +NEC during summer months and near-zero or possible –NEC (net dissolution) during winter months. These seasonal patterns were most pronounced at the inshore locations with the longest residence times (10+ days), which allow stronger biogeochemical signals to develop relative to the offshore source water. Although obtaining high accuracy and precision Ca measurements remains challenging, parallel measurements of Ca and TA from both inshore and offshore waters over a multi-annual timescale could strengthen the validity of predictions for when and where a reef system, such as the Bermuda platform, may shift from +NEC to –NEC. • Two-year time-series of seawater Ca and TA across the Bermuda carbonate platform • High precision Ca measurements using a novel spectrophotometric titration system • Seasonal fluctuations in Ca and TA measurements relative to offshore waters • Ca and TA measurements showed good agreement over similar spatiotemporal scales. • Joint Ca and TA anomalies may provide more robust estimates of NEC. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03044203
Volume :
238
Database :
Academic Search Index
Journal :
Marine Chemistry
Publication Type :
Academic Journal
Accession number :
154386315
Full Text :
https://doi.org/10.1016/j.marchem.2021.104064