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Pressure Response of Aanderaa and Sea-Bird Oxygen Optodes (2015)

Bittig, Henry C. ; Fiedler, Björn ; Fietzek, Peer ; [et al.]

American Meteorological Society

In: Journal of Atmospheric and Oceanic Technology. 2015; 32(12): 2305-2317. Published 2015 Dec 01. doi: 10.1175/jtech-d-15-0108.1.

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Publication Date: 2015-12-01

Description: This study investigated the effect of hydrostatic pressure of up to 6000 dbar on Aanderaa and Sea-Bird oxygen optodes both in the laboratory and in the field. The overall pressure response is a reduction in the O2 reading by 3%–4% per 1000 dbar, which is closely linear with pressure and increases with temperature. Closer inspection reveals two superimposed processes with an opposite effect: an O2-independent pressure response on the luminophore that increases optode O2 readings and an O2-dependent change in luminescence quenching that decreases optode O2 readings. The latter process dominates and is mainly due to a shift in the equilibrium between the sensing membrane and seawater under elevated pressures. If only the dominant O2-dependent process is considered, then the Aanderaa and Sea-Bird optodes differ in their pressure response. Compensation of the O2-independent process, however, yields a uniform O2 dependence for Aanderaa optodes with standard foil and fast-response foil as well as for Sea-Bird optodes. A new scheme to calculate optode O2 from raw data is proposed to account for the two processes. The overall uncertainty of the optode pressure correction amounts to 0.3% per 1000 dbar, which is mainly due to variability between the sensors.

Print ISSN: 0739-0572

Electronic ISSN: 1520-0426

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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Tackling Oxygen Optode Drift: Near-Surface and In-Air Oxygen Optode Measurements on a Float Provide an Accurate in Situ Reference (2015)

Bittig, Henry C. ; Körtzinger, Arne

American Meteorological Society

In: Journal of Atmospheric and Oceanic Technology. 2015; 32(8): 1536-1543. Published 2015 Aug 01. doi: 10.1175/jtech-d-14-00162.1.

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Publication Date: 2015-08-01

Description: A yet unexplained drift of (some) oxygen optodes during storage/transport and thus significant deviations from factory/laboratory calibrations have been a major handicap for autonomous oxygen observations. Optode drift appears to be systematic and is predominantly a slope effect due to reduced oxygen sensitivity. A small contribution comes from a reduced luminophore lifetime, which causes a small positive offset. A reliable in situ reference is essential to correct such a drift. Traditionally, this called for a ship-based reference cast, which poses some challenges for opportunistic float deployments. This study presents an easily implemented alternative using near-surface/in-air measurements of an Aanderaa optode on a 10-cm stalk and compares it to the more traditional approaches (factory, laboratory, and in situ deployment calibration). In-air samples show a systematic bias depending on the water saturation, which is likely caused by occasional submersions of the standard-height stalk optode. Linear regression of measured in-air supersaturation against in-water supersaturation (using ancillary meteorological data to define the saturation level) robustly removes this bias and thus provides a precise (0.2%) and accurate (1%) in situ correction that is available throughout the entire instrument’s lifetime.

Print ISSN: 0739-0572

Electronic ISSN: 1520-0426

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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