Skip to main content
U.S. flag

An official website of the United States government

Here’s how you know

Dot gov

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

HTTPS

Secure .gov websites use HTTPS
A lock ( Lock A locked padlock ) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.

  • Environmental Topics
  • Laws & Regulations
  • Report a Violation
  • About EPA
Risk Assessment
Contact Us

Evaluating common sensors for ocean acidification research in Tillamook Bay, OR

On this page:

  • Overview
Current ocean acidification (OA) monitoring within coastal and estuarine environments presents a variety of logistical and technological hurdles. Understanding the intricacies of sensing technology and assessing measurement uncertainty have large implications for the ability of monitoring programs to derive the full suite of marine carbonate system variables with acceptable accuracy. Additionally, there remain unresolved questions surrounding best instrument pairings to meet “weather” and “climate” goals of OA monitoring in coastal settings. In this study, we examined the performance of three commonly used biogeochemical sensors in a dynamic temperate Oregon estuary for coastal acidification monitoring: a YSI-EXO sonde; a Sea-Bird SeapHOx; and a Sunburst SAMI-CO2. We calculated carbonate system uncertainties for all possible pairings of sensor observations and alkalinity derived from an alkalinity-salinity relationship specific to our study area (Alksal = 56.1*Salinity+410, R2=0.98, n=197, SE = 54.5).  Monitoring data from the SAMI-CO2 and SeapHOx were capable of meeting aragonite saturation state (Ωa) “weather” goals when paired with Alksal, but no data product was capable of achieving “climate” goals for pHT, partial pressure of CO2 (pCO2), or Ωa.  Our analysis demonstrated how data quality objectives for meeting “weather” and ‘climate” goals were less stringent than commonly reported for ocean waters due to the different underlying carbonate chemistry of estuarine waters.  Observed pHT from SeaFET and YSI sensors were in better agreement than commonly assumed (0.079 ± 0.073 units), but YSI pHT uncertainties introduced the largest errors in carbonate system calculations.  Water quality and organismal threshold exceedance uncertainty was reduced by 78% when using SeaFET pHT as an input when compared with YSI pHT.  We suggest that for OA monitoring groups with limited funding, a high-quality pHT or pCO2 sensor paired with a local alkalinity-salinity relationship may be suitable for estuarine OA research.

Impact/Purpose

This presentation is the culmination of ~5 years of research conducted in Tillamook Bay, Oregon from 2017-2022. The efforts of this research were to identify baseline ocean acidification metrics, water quality objectives, and organismal stress thresholds. The seminar will highlight the importance of identifying and quantifying measurement uncertainties of three commonly used pH sensors utilized in the estuarine environment for water quality studies. Estuarine managers, ocean acidification groups, and tribal nations interested in achieving high quality measurements of biogeochemical data will be interested and benefit from the goals and objectives outlined in this seminar.

Citation

Fairchild, W., T Chris Mochon Collura, B. Rutilla, C. Miller, AND S. Pacella. Evaluating common sensors for ocean acidification research in Tillamook Bay, OR. Hatfield Marine Science Seminar, Newport, OR, June 08, 2023.
  • Risk Assessment Home
  • About Risk Assessment
  • Risk Recent Additions
  • Human Health Risk Assessment
  • Ecological Risk Assessment
  • Risk Advanced Search
    • Risk Publications
  • Risk Assessment Guidance
  • Risk Tools and Databases
  • Superfund Risk Assessment
  • Where you live
Contact Us to ask a question, provide feedback, or report a problem.
Last updated on June 16, 2023
United States Environmental Protection Agency

Discover.

  • Accessibility Statement
  • Budget & Performance
  • Contracting
  • EPA www Web Snapshots
  • Grants
  • No FEAR Act Data
  • Privacy
  • Privacy and Security Notice

Connect.

  • Data
  • Inspector General
  • Jobs
  • Newsroom
  • Open Government
  • Regulations.gov
  • Subscribe
  • USA.gov
  • White House

Ask.

  • Contact EPA
  • EPA Disclaimers
  • Hotlines
  • FOIA Requests
  • Frequent Questions

Follow.