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Evaluation of a New Carbon Dioxide System for Autonomous Surface Vehicles

Christopher L. Sabine, Adrienne J. Sutton, Kelly McCabe, Noah Lawrence‐Slavas, Simone R. Alin, Richard A. Feely, Richard Jenkins, Stacy M Maenner, Christian Meinig, J Bruno Thomas, Erik van Ooijen, Abe Passmore, Bronte Tilbrook

2020Journal of Atmospheric and Oceanic Technology54 citationsDOIOpen Access PDF

Abstract

Abstract Current carbon measurement strategies leave spatiotemporal gaps that hinder the scientific understanding of the oceanic carbon biogeochemical cycle. Data products and models are subject to bias because they rely on data that inadequately capture mesoscale spatiotemporal (kilometers and days to weeks) changes. High-resolution measurement strategies need to be implemented to adequately evaluate the global ocean carbon cycle. To augment the spatial and temporal coverage of ocean–atmosphere carbon measurements, an Autonomous Surface Vehicle CO 2 (ASVCO 2 ) system was developed. From 2011 to 2018, ASVCO 2 systems were deployed on seven Wave Glider and Saildrone missions along the U.S. Pacific and Australia’s Tasmanian coastlines and in the tropical Pacific Ocean to evaluate the viability of the sensors and their applicability to carbon cycle research. Here we illustrate that the ASVCO 2 systems are capable of long-term oceanic deployment and robust collection of air and seawater p CO 2 within ±2 μ atm based on comparisons with established shipboard underway systems, with previously described Moored Autonomous p CO 2 (MAPCO 2 ) systems, and with companion ASVCO 2 systems deployed side by side.

Topics & Concepts

Carbon cycleEnvironmental scienceGliderBiogeochemical cycleMesoscale meteorologySoftware deploymentAtmosphere (unit)MeteorologyRemote sensingComputer scienceOceanographyGeologyGeographyOperating systemEnvironmental chemistryChemistryProgramming languageBiologyEcologyEcosystemOcean Acidification Effects and ResponsesMarine and coastal ecosystemsMarine Biology and Ecology Research
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