Remineralization rate of terrestrial DOC as inferred from CO2 supersaturated coastal waters

Coastal seas receive large amounts of terrestrially derived organic carbon (OC). The fate of this carbon, and its impact on the marine environment, is however poorly understood. Here we combine underway CO 2 partial pressure ( p CO 2 ) measurements with coupled 3-D hydrodynamical–biogeochemical mode...

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Bibliographic Details
Published in:Biogeosciences
Main Authors: Fransner, Filippa, Fransson, Agneta, Humborg, Christoph, Gustafsson, Erik, Tedesco, Letizia, Hordoir, Robinson, Nycander, Jonas
Format: Text
Language:English
Published: 2019
Subjects:
Subarctic
Online Access:https://doi.org/10.5194/bg-16-863-2019
https://www.biogeosciences.net/16/863/2019/
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Summary:Coastal seas receive large amounts of terrestrially derived organic carbon (OC). The fate of this carbon, and its impact on the marine environment, is however poorly understood. Here we combine underway CO 2 partial pressure ( p CO 2 ) measurements with coupled 3-D hydrodynamical–biogeochemical modelling to investigate whether remineralization of terrestrial dissolved organic carbon (tDOC) can explain CO 2 supersaturated surface waters in the Gulf of Bothnia, a subarctic estuary. We find that a substantial remineralization of tDOC and a strong tDOC-induced light attenuation dampening the primary production are required to reproduce the observed CO 2 supersaturated waters in the nearshore areas. A removal rate of tDOC of the order of 1 year, estimated in a previous modelling study in the same area, gives a good agreement between modelled and observed p CO 2 . The remineralization rate is on the same order as bacterial degradation rates calculated from published incubation experiments, suggesting that bacteria has the potential to cause this degradation. Furthermore, the observed high p CO 2 values during the ice-covered season argue against photochemical degradation as the main removal mechanism. All of the remineralized tDOC is outgassed to the atmosphere in the model, turning the northernmost part of the Gulf of Bothnia into a source of CO 2 to the atmosphere.

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