4.7 Article

High-frequency, year-round time series of the carbonate chemistry in a high-Arctic fjord (Svalbard)

Journal

EARTH SYSTEM SCIENCE DATA
Volume 15, Issue 7, Pages 2809-2825

Publisher

COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/essd-15-2809-2023

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The Arctic Ocean is experiencing high rates of ocean warming and acidification, which have significant impacts on marine organisms and ecosystems. However, data on the carbonate system in the Arctic region are limited. This study presents the first high-frequency and multi-year dataset of salinity, temperature, CO2 partial pressure, and pH in a coastal site in Kongsfjorden, Svalbard. The findings indicate seasonal variations in the saturation state of calcium carbonate and a consistent lower pCO(2) than atmospheric CO2, suggesting this site acts as a sink for atmospheric CO2.
The Arctic Ocean is subject to high rates of ocean warming and acidification, with critical implications for marine organisms as well as ecosystems and the services they provide. Carbonate system data in the Arctic realm are spotty in space and time, and, until recently, there was no time-series station measuring the carbonate chemistry at high frequency in this region, particularly in coastal waters. We report here on the first high-frequency (1 h), multi-year (5 years) dataset of salinity, temperature, CO2 partial pressure (pCO(2)) and pH at a coastal site (bottom depth of 12 m) in a high-Arctic fjord (Kongsfjorden, Svalbard). Discrete measurements of dissolved inorganic carbon and total alkalinity were also performed. We show that (1) the choice of formulations for calculating the dissociation constants of the carbonic acid remains unsettled for polar waters, (2) the water column is generally somewhat stratified despite the shallow depth, (3) the saturation state of calcium carbonate is subject to large seasonal changes but never reaches undersaturation (O-a ranges between 1.4 and 3.0) and (4) pCO(2) is lower than atmospheric CO2 at all seasons, making this site a sink for atmospheric CO2 (-9 to -16.8 molCO(2)m(-2)yr(-1), depending on the parameterisation of the gas transfer velocity). Data are available onPANGAEA: https://doi.org/10.1594/PANGAEA.960131 (Gattuso et al., 2023a).

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