Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises

This research assesses the thermodynamic consistency of recent marine CO2 system measurements in United States coastal waters. As one means of assessment, we compared aragonite saturation states calculated using various combinations of measured parameters. We also compared directly measured and calc...

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Published in:Marine Chemistry
Main Authors: Patsavas, Mark C., Byrne, Robert H., Wanninkhof, Rik, Feely, Richard A., Cai, Wei-Jun
Format: Article in Journal/Newspaper
Language:unknown
Published: Digital Commons @ University of South Florida 2015
Subjects:
Ocean acidification
CO2 system
Internal consistency
Thermodynamics
pH
Fugacity
Total alkalinity
Dissolved inorganic carbon
Carbonate
Saturation state
Life Sciences
Online Access:https://digitalcommons.usf.edu/msc_facpub/1781
https://doi.org/10.1016/j.marchem.2015.06.022
id ftusouthflorida:oai:digitalcommons.usf.edu:msc_facpub-2616
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spelling ftusouthflorida:oai:digitalcommons.usf.edu:msc_facpub-2616 2023-07-30T04:06:02+02:00 Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises Patsavas, Mark C. Byrne, Robert H. Wanninkhof, Rik Feely, Richard A. Cai, Wei-Jun 2015-01-01T08:00:00Z https://digitalcommons.usf.edu/msc_facpub/1781 https://doi.org/10.1016/j.marchem.2015.06.022 unknown Digital Commons @ University of South Florida https://digitalcommons.usf.edu/msc_facpub/1781 doi:10.1016/j.marchem.2015.06.022 https://doi.org/10.1016/j.marchem.2015.06.022 Marine Science Faculty Publications Ocean acidification CO2 system Internal consistency Thermodynamics pH Fugacity Total alkalinity Dissolved inorganic carbon Carbonate Saturation state Life Sciences article 2015 ftusouthflorida https://doi.org/10.1016/j.marchem.2015.06.022 2023-07-13T21:02:38Z This research assesses the thermodynamic consistency of recent marine CO2 system measurements in United States coastal waters. As one means of assessment, we compared aragonite saturation states calculated using various combinations of measured parameters. We also compared directly measured and calculated values of total alkalinity and CO2 fugacity. The primary data set consists of state-of-the-art measurements of the keystone parameters of the marine CO2 system: dissolved inorganic carbon (DIC), total alkalinity (TA), CO2 fugacity (fCO2), and pH. This study is the first thermodynamic CO2 system intercomparison based on measurements obtained using purified meta cresol purple as a pH indicator. The data are from 1890 water samples collected during NOAA's West Coast Ocean Acidification Cruise of 2011 (WCOA2011) and NOAA's Gulf of Mexico and East Coast Carbon Cruise of 2012 (GOMECC-2). Calculations of in situ aragonite saturation states (ΩA) near the saturation horizon exhibited differences on the order of ± 10% between predictions based on the (DIC, TA) pair of measurements vs. the (pH, DIC), (fCO2, DIC), or (fCO2, pH) pairs. Differences of this magnitude, which are largely attributable to the imprecision of ΩA calculated from the (DIC, TA) pair, are roughly equivalent to the magnitude of ΩA change projected to occur over the next several decades due to ocean acidification. These observations highlight the importance of including either pH or fCO2 in saturation state calculations. Calculations of TA from (pH, DIC) and (fCO2, DIC) showed that internal consistency could be achieved if minor subtractions of TA (≤ 4 μmol kg− 1) were applied to samples of salinity < 35. The extent of thermodynamic consistency is also exemplified by the small offset between TA calculated from (DIC, pH) and that calculated from (DIC, fCO2): ~ 3 μmol kg− 1, which is similar to the accuracy of the TA measurements. Systematic trends can be detected in the offsets between measured and calculated parameters, but for this high-quality data ... Article in Journal/Newspaper Ocean acidification University of South Florida St. Petersburg: Digital USFSP Marine Chemistry 176 9 20
institution Open Polar
collection University of South Florida St. Petersburg: Digital USFSP
op_collection_id ftusouthflorida
language unknown
topic Ocean acidification
CO2 system
Internal consistency
Thermodynamics
pH
Fugacity
Total alkalinity
Dissolved inorganic carbon
Carbonate
Saturation state
Life Sciences
spellingShingle Ocean acidification
CO2 system
Internal consistency
Thermodynamics
pH
Fugacity
Total alkalinity
Dissolved inorganic carbon
Carbonate
Saturation state
Life Sciences
Patsavas, Mark C.
Byrne, Robert H.
Wanninkhof, Rik
Feely, Richard A.
Cai, Wei-Jun
Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
topic_facet Ocean acidification
CO2 system
Internal consistency
Thermodynamics
pH
Fugacity
Total alkalinity
Dissolved inorganic carbon
Carbonate
Saturation state
Life Sciences
description This research assesses the thermodynamic consistency of recent marine CO2 system measurements in United States coastal waters. As one means of assessment, we compared aragonite saturation states calculated using various combinations of measured parameters. We also compared directly measured and calculated values of total alkalinity and CO2 fugacity. The primary data set consists of state-of-the-art measurements of the keystone parameters of the marine CO2 system: dissolved inorganic carbon (DIC), total alkalinity (TA), CO2 fugacity (fCO2), and pH. This study is the first thermodynamic CO2 system intercomparison based on measurements obtained using purified meta cresol purple as a pH indicator. The data are from 1890 water samples collected during NOAA's West Coast Ocean Acidification Cruise of 2011 (WCOA2011) and NOAA's Gulf of Mexico and East Coast Carbon Cruise of 2012 (GOMECC-2). Calculations of in situ aragonite saturation states (ΩA) near the saturation horizon exhibited differences on the order of ± 10% between predictions based on the (DIC, TA) pair of measurements vs. the (pH, DIC), (fCO2, DIC), or (fCO2, pH) pairs. Differences of this magnitude, which are largely attributable to the imprecision of ΩA calculated from the (DIC, TA) pair, are roughly equivalent to the magnitude of ΩA change projected to occur over the next several decades due to ocean acidification. These observations highlight the importance of including either pH or fCO2 in saturation state calculations. Calculations of TA from (pH, DIC) and (fCO2, DIC) showed that internal consistency could be achieved if minor subtractions of TA (≤ 4 μmol kg− 1) were applied to samples of salinity < 35. The extent of thermodynamic consistency is also exemplified by the small offset between TA calculated from (DIC, pH) and that calculated from (DIC, fCO2): ~ 3 μmol kg− 1, which is similar to the accuracy of the TA measurements. Systematic trends can be detected in the offsets between measured and calculated parameters, but for this high-quality data ...
format Article in Journal/Newspaper
author Patsavas, Mark C.
Byrne, Robert H.
Wanninkhof, Rik
Feely, Richard A.
Cai, Wei-Jun
author_facet Patsavas, Mark C.
Byrne, Robert H.
Wanninkhof, Rik
Feely, Richard A.
Cai, Wei-Jun
author_sort Patsavas, Mark C.
title Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
title_short Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
title_full Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
title_fullStr Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
title_full_unstemmed Internal Consistency of Marine Carbonate System Measurements and Assessments of Aragonite Saturation State: Insights from Two U.S. Coastal Cruises
title_sort internal consistency of marine carbonate system measurements and assessments of aragonite saturation state: insights from two u.s. coastal cruises
publisher Digital Commons @ University of South Florida
publishDate 2015
url https://digitalcommons.usf.edu/msc_facpub/1781
https://doi.org/10.1016/j.marchem.2015.06.022
genre Ocean acidification
genre_facet Ocean acidification
op_source Marine Science Faculty Publications
op_relation https://digitalcommons.usf.edu/msc_facpub/1781
doi:10.1016/j.marchem.2015.06.022
https://doi.org/10.1016/j.marchem.2015.06.022
op_doi https://doi.org/10.1016/j.marchem.2015.06.022
container_title Marine Chemistry
container_volume 176
container_start_page 9
op_container_end_page 20
_version_ 1772818399140773888

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