Oceanic Suess effect of δ13C in subpolar region: The North Pacific

Details Oceanic Suess effect of δ13C in subpolar region: The North Pacific Oceanic Suess effect of δ13C in subpolar region: The North Pacific

Nov 2003

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003georl..30voce5t&link_type=abstract

Geophysical Research Letters, Volume 30, Issue 22, pp. OCE 5-1, CiteID 2159, DOI 10.1029/2003GL018503

Mathematics

Logic

7

Oceanography: Biological And Chemical: Carbon Cycling, Oceanography: Biological And Chemical: Stable Isotopes, Oceanography: Physical: Air/Sea Interactions (0312), Hydrology: Anthropogenic Effects, Oceanography: Biological And Chemical: Inorganic Marine Chemistry

Scientific paper

We propose a simple approach for estimating the recent oceanic Suess effect of δ13C in the subpolar region of the North Pacific, an area which experiences a large seasonal variability of carbonate species, due to the biological activity and vertical water mixing. This approach is based simply on time-series data of δ13C from July 1997 to July 2001 and an equation of the Fourier sine expansion. Applying our approach to the fixed sampling location in the western North Pacific, station `KNOT', we estimated values of -0.012‰-δ13C yr-1 for the Suess effect of δ13C with an amplitude of 1.3‰-δ13C and 1.0 μmol-C kg-1 yr-1 for the increase rate of dissolved inorganic carbon with an amplitude of 134 μmol-C kg-1 in surface water. The Suess effect of δ13C in this region was a similar value to that estimated in the Southern Ocean producing the deep water, while it was half as much as values estimated in the subtropical regions which experience a small seasonal variability. The ratio of Suess effect to the increase rate of dissolved inorganic carbon was -0.012‰ (μmol kg-1)-1, which was different from the global mean values calculated by recent modeling study. Therefore, we conclude that the Suess effect of δ13C in the polar and subpolar regions is generally smaller than found in other regions, suggesting that it is necessary to reevaluate the uptake rate of anthropogenic carbon which has been based on the assumption that the ratio is uniform over the entire ocean.

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