contact: - organization: {email: ncei.info@noaa.gov, name: NOAA National Centers for Environmental Information} roles: [custodian] - organization: {email: null, name: NOAA National Centers for Environmental Information} roles: [custodian] distribution: - name: {en: Project Metadata, fr: Project Metadata (FR)} url: https://www.ncei.noaa.gov/data/oceans/ncei/ocads/metadata/0301441.html - name: {en: NCEI Dataset Landing Page, fr: NCEI Dataset Landing Page (FR)} url: https://doi.org/10.25921/krqr-sb36 - name: {en: Descriptive Information, fr: Descriptive Information (FR)} url: https://www.ncei.noaa.gov/archive/accession/oas/301441 - name: {en: HTTPS, fr: HTTPS (FR)} url: https://www.ncei.noaa.gov/archive/accession/download/301441 - name: {en: FTP, fr: FTP (FR)} url: ftp://ftp-oceans.ncei.noaa.gov/nodc/archive/arc0233/0301441/ - name: {en: CIOOS HTTP, fr: SIOOC HTTP} url: https://data.cioospacific.ca/ocads/gov.noaa.nodc_0301441/ identification: abstract: en: The model is based on a semi-mechanistic model of total CO2 (TCO2) and alkalinity, applied within regions defined hierarchical SOM classification of monthly-resolved seascapes along the North American Pacific coast, constrained by reproduction of coastal pCO2 observations as provided by Takahashi. This follows the Hales et al. 2012 approach, improved by the monthly-resolved dynamic seascape approach of Kavanaugh et al. The improvements allow coverage from Vancouver Island to Panama, with only a marginal increase in the number of seascapes over that limited in southern extent to Baja California Sur. The model domain is from 5° N to 50° N, and within 200 nm of the coastline. The result is further enhanced by employing the intermediate, pCO2-constrained TCO2 and Alk product to generate predictions of pH and the saturation state of the CACO3-mineral aragonite. fr: The model is based on a semi-mechanistic model of total CO2 (TCO2) and alkalinity, applied within regions defined hierarchical SOM classification of monthly-resolved seascapes along the North American Pacific coast, constrained by reproduction of coastal pCO2 observations as provided by Takahashi. This follows the Hales et al. 2012 approach, improved by the monthly-resolved dynamic seascape approach of Kavanaugh et al. The improvements allow coverage from Vancouver Island to Panama, with only a marginal increase in the number of seascapes over that limited in southern extent to Baja California Sur. The model domain is from 5° N to 50° N, and within 200 nm of the coastline. The result is further enhanced by employing the intermediate, pCO2-constrained TCO2 and Alk product to generate predictions of pH and the saturation state of the CACO3-mineral aragonite. (FR) translations: fr: {message: Auto-translated using AWS, validated: false} acknowledgement: acknowledgement associated_resources: [] keywords: default: en: ['0301441', ARAGONITE SATURATION STATE, CO2 ANALYZERS > CO2 ANALYZERS, CO2_flux, Delta pCO2, EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > CARBONATE, Hales_Kavanaugh Model, Model output, North American Pacific Coastal Waters from Panama to British Columbia, North Pacific Ocean, OCEAN > PACIFIC OCEAN > NORTH PACIFIC OCEAN, Ocean Carbon and Acidification Data System (OCADS), Ocean Carbon and Acidification Data System (OCADS) Project, Oregon State University, chemical, model output, omega, pCO2] fr: [0301441 (FR), ARAGONITE SATURATION STATE (FR), CO2 ANALYZERS > CO2 ANALYZERS (FR), CO2_flux (FR), Delta pCO2 (FR), EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > CARBONATE (FR), Hales_Kavanaugh Model (FR), Model output (FR), North American Pacific Coastal Waters from Panama to British Columbia (FR), North Pacific Ocean (FR), OCEAN > PACIFIC OCEAN > NORTH PACIFIC OCEAN (FR), Ocean Carbon and Acidification Data System (OCADS) (FR), Ocean Carbon and Acidification Data System (OCADS) Project (FR), Oregon State University (FR), chemical (FR), model output (FR), omega (FR), pCO2 (FR)] eov: en: [EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > CARBON DIOXIDE, EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > PH, carbon dioxide (CO2) gas analyzer, oceanography, pH, partial pressure of carbon dioxide - water] fr: [EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > CARBON DIOXIDE (FR), EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > PH (FR), carbon dioxide (CO2) gas analyzer (FR), oceanography (FR), pH (FR), partial pressure of carbon dioxide - water (FR)] project: en: [project_a, project_b] fr: [project_a in french, project_b in french] status: onGoing temporal_begin: '1950-07-31' temporal_duration: P1D temporal_end: '2025-04-16' time_coverage_resolution: P1D title: en: Hales_Kavanaugh Remote-sensing-based SOM and Carbonate-system Metamodel from 2009-01-01 to 2009-12-31 (NCEI Accession 0301441) fr: Hales_Kavanaugh Remote-sensing-based SOM and Carbonate-system Metamodel from 2009-01-01 to 2009-12-31 (NCEI Accession 0301441) (FR) translations: fr: {message: Auto-translated using AWS, validated: false} instruments: - description: {en: null, fr: null} id: null manufacturer: null type: {en: null, fr: null} version: null metadata: comment: auto-generated comment dates: {creation: '2024-01-01'} history: - scope: model statement: en: null fr: None (FR) translations: fr: {message: text translated using the Amazon translate service / texte traduit à l'aide du service de traduction Amazon, verified: false} - scope: model statement: en: null fr: None (FR) translations: fr: {message: text translated using the Amazon translate service / texte traduit à l'aide du service de traduction Amazon, verified: false} identifier: gov.noaa.nodc:0301441 language: en maintenance_note: auto-generated naming_authority: ca.cioos scope: model use_constraints: licence: {code: CC-BY-4.0, title: Creative Commons Attribution 4.0, url: 'https://creativecommons.org/licenses/by/4.0/'} limitations: en: limitations in english fr: limitations in french translations: fr: {message: Auto-translated using AWS, validated: false} spatial: bbox: [-135.0, 5.0, -75.0, 50.0] description: description of the spatial extent or study area of the dataset descriptionIdentifier: A2345-FS323-DG434-345DG vertical: [0, 10] vertical_positive: down