Temporal Changes in Seawater Carbonate Chemistry and Carbon Export from a Southern California Estuary

Authors

May-Linn Paulsen, University of California - San Diego
Andreas J. Andersson, University of California - San Diego
Lihini Aluwihare, University of California - San Diego
Tyler Cyronak, University of California - San DiegoFollow
Sydney D'Angelo, University of California - San Diego
Charles Davidson, University of California - San Diego
Hany Elwany, Coastal Environments
Sarah N. Giddings, University of California - San Diego
Heather N. Page, University of California - San Diego
Magali Porrachia, University of California - San Diego
Stephen Schroeter, University of California - Santa Barbara

Document Type

Article

Publication Date

6-2018

Publication Title

Estuaries and Coasts

Keywords

Carbon export, Carbon fluxes, Estuary, Total alkalinity, Storm

ISSN

1559-2723

Volume

41

Issue/No.

4

First Page

1050

Last Page

1068

Abstract

Estuaries are important subcomponents of the coastal ocean, but knowledge about the temporal and spatial variability of their carbonate chemistry, as well as their contribution to coastal and global carbon fluxes, are limited. In the present study, we measured the temporal and spatial variability of biogeochemical parameters in a saltmarsh estuary in Southern California, the San Dieguito Lagoon (SDL). We also estimated the flux of dissolved inorganic carbon (DIC) and total organic carbon (TOC) to the adjacent coastal ocean over diel and seasonal timescales. The combined net flux of DIC and TOC (FDIC + TOC) to the ocean during outgoing tides ranged from − 1.8±0.5 × 103 to 9.5±0.7 × 103 mol C h₋₁ during baseline conditions. Based on these fluxes, a rough estimate of the net annual export of DIC and TOC totaled 10±4 × 106 mol C year₋₁. Following a major rain event (36 mm rain in 3 days), FDIC + TOC increased and reached values as high as 29.0 ± 0.7 × 103 mol C h₋₁. Assuming a hypothetical scenario of three similar storm events in a year, our annual net flux estimate more than doubled to 25 ± 4 × 106 mol C year₋₁. These findings highlight the importance of assessing coastal carbon fluxes on different timescales and incorporating event scale variations in these assessments. Furthermore, for most of the observations elevated levels of total alkalinity (TA) and pH were observed at the estuary mouth relative to the coastal ocean. This suggests that SDL partly buffers against acidification of adjacent coastal surface waters, although the spatial extent of this buffering is likely small.

Comments

©Coastal and Estuarine Research Federation 2017

Additional Comments

NSF grant #: OCE 12-55042

NSUWorks Citation

May-Linn Paulsen, Andreas J. Andersson, Lihini Aluwihare, Tyler Cyronak, Sydney D'Angelo, Charles Davidson, Hany Elwany, Sarah N. Giddings, Heather N. Page, Magali Porrachia, and Stephen Schroeter. 2018. Temporal Changes in Seawater Carbonate Chemistry and Carbon Export from a Southern California Estuary .Estuaries and Coasts , (4) : 1050 -1068. https://nsuworks.nova.edu/occ_facarticles/1028.

ORCID ID

0000-0003-3556-7616

DOI

10.1007/s12237-017-0345-8