Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.

Ocean acidification is progressing rapidly in the California Current System (CCS), a region already susceptible to reduced aragonite saturation state due to seasonal coastal upwelling. Results from a high-resolution (~ 3km), coupled physical-biogeochemical model highlight that the intensity, duratio...

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Main Authors: Kroeker, Kristy, Fiechter, Jerome, Cheresh, Julia
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2023
Subjects:
Pacific
Ocean acidification
Online Access:https://escholarship.org/uc/item/2vz199mf
id ftcdlib:oai:escholarship.org:ark:/13030/qt2vz199mf
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spelling ftcdlib:oai:escholarship.org:ark:/13030/qt2vz199mf 2023-10-09T21:54:51+02:00 Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current. Kroeker, Kristy Fiechter, Jerome Cheresh, Julia 2023-08-10 application/pdf https://escholarship.org/uc/item/2vz199mf unknown eScholarship, University of California qt2vz199mf https://escholarship.org/uc/item/2vz199mf public Scientific Reports, vol 13, iss 1 article 2023 ftcdlib 2023-09-18T18:02:48Z Ocean acidification is progressing rapidly in the California Current System (CCS), a region already susceptible to reduced aragonite saturation state due to seasonal coastal upwelling. Results from a high-resolution (~ 3km), coupled physical-biogeochemical model highlight that the intensity, duration, and severity of undersaturation events exhibit high interannual variability along the central CCS shelfbreak. Variability in dissolved inorganic carbon (DIC) along the bottom of the 100-m isobath explains 70-90% of event severity variance over the range of latitudes where most severe conditions occur. An empirical orthogonal function (EOF) analysis further reveals that interannual event variability is explained by a combination coastal upwelling intensity and DIC content in upwelled source waters. Simulated regional DIC exhibits low frequency temporal variability resembling that of the Pacific Decadal Oscillation, and is explained by changes to water mass composition in the CCS. While regional DIC concentrations and upwelling intensity individually explain 9 and 43% of year-to-year variability in undersaturation event severity, their combined influence accounts for 66% of the variance. The mechanistic description of exposure to undersaturated conditions presented here provides important context for monitoring the progression of ocean acidification in the CCS and identifies conditions leading to increased vulnerability for ecologically and commercially important species. Article in Journal/Newspaper Ocean acidification University of California: eScholarship Pacific
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
description Ocean acidification is progressing rapidly in the California Current System (CCS), a region already susceptible to reduced aragonite saturation state due to seasonal coastal upwelling. Results from a high-resolution (~ 3km), coupled physical-biogeochemical model highlight that the intensity, duration, and severity of undersaturation events exhibit high interannual variability along the central CCS shelfbreak. Variability in dissolved inorganic carbon (DIC) along the bottom of the 100-m isobath explains 70-90% of event severity variance over the range of latitudes where most severe conditions occur. An empirical orthogonal function (EOF) analysis further reveals that interannual event variability is explained by a combination coastal upwelling intensity and DIC content in upwelled source waters. Simulated regional DIC exhibits low frequency temporal variability resembling that of the Pacific Decadal Oscillation, and is explained by changes to water mass composition in the CCS. While regional DIC concentrations and upwelling intensity individually explain 9 and 43% of year-to-year variability in undersaturation event severity, their combined influence accounts for 66% of the variance. The mechanistic description of exposure to undersaturated conditions presented here provides important context for monitoring the progression of ocean acidification in the CCS and identifies conditions leading to increased vulnerability for ecologically and commercially important species.
format Article in Journal/Newspaper
author Kroeker, Kristy
Fiechter, Jerome
Cheresh, Julia
spellingShingle Kroeker, Kristy
Fiechter, Jerome
Cheresh, Julia
Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
author_facet Kroeker, Kristy
Fiechter, Jerome
Cheresh, Julia
author_sort Kroeker, Kristy
title Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
title_short Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
title_full Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
title_fullStr Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
title_full_unstemmed Upwelling intensity and source water properties drive high interannual variability of corrosive events in the California Current.
title_sort upwelling intensity and source water properties drive high interannual variability of corrosive events in the california current.
publisher eScholarship, University of California
publishDate 2023
url https://escholarship.org/uc/item/2vz199mf
geographic Pacific
geographic_facet Pacific
genre Ocean acidification
genre_facet Ocean acidification
op_source Scientific Reports, vol 13, iss 1
op_relation qt2vz199mf
https://escholarship.org/uc/item/2vz199mf
op_rights public
_version_ 1779318570307551232

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