New capability in autonomous ocean carbon observations using the Autosub Long-Range AUV equipped with novel pH and total alkalinity sensors
New capability in autonomous ocean carbon observations using the Autosub Long-Range AUV equipped with novel pH and total alkalinity sensors
The development of marine autonomous platforms has improved our capability to gather ocean observations at fine spatial scales and high temporal frequency, which can be used to better measure, characterize, and model ocean carbon. As part of the OCEANIDS program, novel carbonate sensors were integrated into the Autosub Long-Range (ALR) autonomous underwater vehicle (AUV) and deployed in the Celtic Sea. Autonomous Lab-On-Chip (LOC) sensors measured pH and total alkalinity (TA) while onboard the ALR. Using interpolation, the ALR-sensor data set is compared against CTD co-samples. The average differences between the LOC sensor and co-sample pH range from −0.011 to −0.015. The TA sensor data agrees with co-samples within 1–2 μmol kg–1 on average. Biogeochemical water properties differing between CTD and ALR observations reveal correlations to carbonate parameter variations. The LOC sensors enabled the characterization of the marine carbonate system from autonomous subsurface measurements for the first time. Sensor pH and TA data were used to calculate dissolved inorganic carbon (DIC), partial pressure of CO2 (pCO2), and aragonite saturation state (ΩAr) and are compared with CTD co-samples with mean residuals of 4–7 μmol kg–1, 10–17 μatm, and −0.03 to −0.06, respectively. Future perspectives on sensor deployment and analysis are discussed.
autonomous observations, autonomous underwater vehicles, marine carbonate system, ocean acidification, ocean carbon observations, oceanographic sensors
7129-7144
Hammermeister, Emily M.
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Papadimitriou, Stathys
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Arundell, Martin
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Ludgate, Jake
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Schaap, Allison
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Mowlem, Matthew C.
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Fowell, Sara E.
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Chaney, Edward
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Loucaides, Socratis
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15 April 2025
Hammermeister, Emily M.
279b2fc2-b4f5-4ae3-8974-d2dec5cd1452
Papadimitriou, Stathys
a4b67182-8c5f-4062-b9ee-657ed9d5125f
Arundell, Martin
77816589-e959-439b-a12c-fb1726c3290a
Ludgate, Jake
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Schaap, Allison
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Mowlem, Matthew C.
6f633ca2-298f-48ee-a025-ce52dd62124f
Fowell, Sara E.
e546c4e1-55c0-4a69-a7b2-cb63ae0c1fe5
Chaney, Edward
4a08d0cd-9d40-425c-947d-304df376656a
Loucaides, Socratis
bdaff904-621e-47cc-96fd-e8f4fc09b784
Hammermeister, Emily M., Papadimitriou, Stathys, Arundell, Martin, Ludgate, Jake, Schaap, Allison, Mowlem, Matthew C., Fowell, Sara E., Chaney, Edward and Loucaides, Socratis
(2025)
New capability in autonomous ocean carbon observations using the Autosub Long-Range AUV equipped with novel pH and total alkalinity sensors.
Environmental Science & Technology, 59 (14), .
(doi:10.1021/acs.est.4c10139).
Abstract
The development of marine autonomous platforms has improved our capability to gather ocean observations at fine spatial scales and high temporal frequency, which can be used to better measure, characterize, and model ocean carbon. As part of the OCEANIDS program, novel carbonate sensors were integrated into the Autosub Long-Range (ALR) autonomous underwater vehicle (AUV) and deployed in the Celtic Sea. Autonomous Lab-On-Chip (LOC) sensors measured pH and total alkalinity (TA) while onboard the ALR. Using interpolation, the ALR-sensor data set is compared against CTD co-samples. The average differences between the LOC sensor and co-sample pH range from −0.011 to −0.015. The TA sensor data agrees with co-samples within 1–2 μmol kg–1 on average. Biogeochemical water properties differing between CTD and ALR observations reveal correlations to carbonate parameter variations. The LOC sensors enabled the characterization of the marine carbonate system from autonomous subsurface measurements for the first time. Sensor pH and TA data were used to calculate dissolved inorganic carbon (DIC), partial pressure of CO2 (pCO2), and aragonite saturation state (ΩAr) and are compared with CTD co-samples with mean residuals of 4–7 μmol kg–1, 10–17 μatm, and −0.03 to −0.06, respectively. Future perspectives on sensor deployment and analysis are discussed.
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new-capability-in-autonomous-ocean-carbon-observations-using-the-autosub-long-range-auv-equipped-with-novel-ph-and
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More information
Accepted/In Press date: 20 March 2025
e-pub ahead of print date: 1 April 2025
Published date: 15 April 2025
Keywords:
autonomous observations, autonomous underwater vehicles, marine carbonate system, ocean acidification, ocean carbon observations, oceanographic sensors
Identifiers
Local EPrints ID: 505428
URI: http://eprints.soton.ac.uk/id/eprint/505428
ISSN: 0013-936X
PURE UUID: 6ce53288-d58d-4361-8ea0-ceb49c088a95
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Date deposited: 08 Oct 2025 16:35
Last modified: 09 Oct 2025 02:11
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Contributors
Author:
Emily M. Hammermeister
Author:
Stathys Papadimitriou
Author:
Martin Arundell
Author:
Jake Ludgate
Author:
Allison Schaap
Author:
Matthew C. Mowlem
Author:
Sara E. Fowell
Author:
Edward Chaney
Author:
Socratis Loucaides
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