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Seasonal Changes in Oceanic pCO2 in the Oyashio Region from Winter to Spring
We observed the partial pressure of oceanic CO^sub 2^, pCO^sub 2^^sup sea^, and related surface properties in the westernmost region of the subarctic North Pacific, seasonally from 1998 to 2001. The pCO^sub 2^^sup sea^ in the Oyashio region showed a large decrease from winter to spring. In winter, p...
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Published in: | Journal of oceanography 2003-12, Vol.59 (6), p.871 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Online Access: | Get full text |
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Summary: | We observed the partial pressure of oceanic CO^sub 2^, pCO^sub 2^^sup sea^, and related surface properties in the westernmost region of the subarctic North Pacific, seasonally from 1998 to 2001. The pCO^sub 2^^sup sea^ in the Oyashio region showed a large decrease from winter to spring. In winter, pCO^sub 2^^sup sea^ was higher than 400 μatm in the Oyashio region and this region was a source of atmospheric CO^sub 2^. In spring, pCO^sub 2^^sup sea^ decreased to extremely low values, less than 200 μatm (minimum, 139 μatm in 2001), around the Oyashio region with low surface salinity and this region turned out to be a strong sink. The spatial variations of pCO^sub 2^^sup sea^ were especially large in spring in this region. The typical Oyashio water with minimal mixing with subtropical warm water was extracted based on the criterion of potential alkalinity. The contribution of main oceanic processes to the changes in pCO^sub 2^^sup sea^ from winter to spring was estimated from the changes in the concentrations of dissolved inorganic carbon and nutrients, total alkalinity, temperature and salinity observed in surface waters in respective years. These quantifications indicated that photosynthesis made the largest contribution to the observed pCO^sub 2^^sup sea^ decreases in all years and its magnitude was variable year by year. These year-to-year differences in spring biological contribution could be linked to those in the development of the density stratification due to the decrease in surface salinity. Thus, the changes in the surface physical structure could induce those in pCO^sub 2^^sup sea^ in the Oyashio region in spring. Furthermore, it is suggested that the direction and magnitude of the air-sea CO^sub 2^ flux during this season could be controlled significantly by the onset time of the spring bloom.[PUBLICATION ABSTRACT] |
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ISSN: | 0916-8370 1573-868X |
DOI: | 10.1023/B:JOCE.0000009577.40878.d4 |