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Improved correction for non-photochemical quenching of in situ chlorophyll fluorescence based on a synchronous irradiance profile

Improved correction for non-photochemical quenching of in situ chlorophyll fluorescence based on a synchronous irradiance profile
Improved correction for non-photochemical quenching of in situ chlorophyll fluorescence based on a synchronous irradiance profile
In situ chlorophyll fluorometers have been used to quantify the distribution of chlorophyll concentration in natural waters for decades. However, chlorophyll fluorescence is depressed during daylight hours due to non-photochemical quenching (NPQ). Corrections attempted to date have provided improvement but still remain unsatisfactory, often over-estimating the expected value. In this study, we examine the relationship between NPQ and instantaneous Photosynthetically Active Radiation (iPAR) using field data from BGC-Argo floats equipped with Chlorophyll-a fluorometers and radiometers. This analysis leads to an improved NPQ correction that incorporates both iPAR and mixed layer depth (MLD) and is validated against data collected at sunrise or sunset. The optimal NPQ light threshold is found to be iPAR = 15 μmol quanta m−2 s−1, and the proposed methods based on such a light threshold correct the NPQ effect more accurately than others, except in “shallow-mixing” waters (NPQ light threshold depth deeper than MLD). For these waters, an empirical-relationship-based method is proposed for improvement of NPQ correction using an iPAR profile. It is therefore recommended that, for optimal NPQ corrections, profiling floats measuring chlorophyll fluorescence in daytime be equipped with iPAR radiometers.
1094-4087
24734-24751
Xing, Xiaogang
9c9e21a6-09fd-4ae5-bf75-eb5eb296e8b3
Briggs, Nathan
a53aa80d-785a-4ace-99d3-72fa05e94471
Boss, Emmanuel
be4bf2b1-aabe-4b7c-a8f3-67e9e187aacd
Claustre, Hervé
7c1b794d-fd80-473f-bf97-cd47a19375f8
Xing, Xiaogang
9c9e21a6-09fd-4ae5-bf75-eb5eb296e8b3
Briggs, Nathan
a53aa80d-785a-4ace-99d3-72fa05e94471
Boss, Emmanuel
be4bf2b1-aabe-4b7c-a8f3-67e9e187aacd
Claustre, Hervé
7c1b794d-fd80-473f-bf97-cd47a19375f8

Xing, Xiaogang, Briggs, Nathan, Boss, Emmanuel and Claustre, Hervé (2018) Improved correction for non-photochemical quenching of in situ chlorophyll fluorescence based on a synchronous irradiance profile. Optics Express, 26 (19), 24734-24751. (doi:10.1364/OE.26.024734).

Record type: Article

Abstract

In situ chlorophyll fluorometers have been used to quantify the distribution of chlorophyll concentration in natural waters for decades. However, chlorophyll fluorescence is depressed during daylight hours due to non-photochemical quenching (NPQ). Corrections attempted to date have provided improvement but still remain unsatisfactory, often over-estimating the expected value. In this study, we examine the relationship between NPQ and instantaneous Photosynthetically Active Radiation (iPAR) using field data from BGC-Argo floats equipped with Chlorophyll-a fluorometers and radiometers. This analysis leads to an improved NPQ correction that incorporates both iPAR and mixed layer depth (MLD) and is validated against data collected at sunrise or sunset. The optimal NPQ light threshold is found to be iPAR = 15 μmol quanta m−2 s−1, and the proposed methods based on such a light threshold correct the NPQ effect more accurately than others, except in “shallow-mixing” waters (NPQ light threshold depth deeper than MLD). For these waters, an empirical-relationship-based method is proposed for improvement of NPQ correction using an iPAR profile. It is therefore recommended that, for optimal NPQ corrections, profiling floats measuring chlorophyll fluorescence in daytime be equipped with iPAR radiometers.

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oe-26-19-24734 - Version of Record
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Accepted/In Press date: 20 August 2018
Published date: 17 September 2018
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Identifiers

Local EPrints ID: 455594
URI: http://eprints.soton.ac.uk/id/eprint/455594
DOI: doi:10.1364/OE.26.024734
ISSN: 1094-4087
PURE UUID: 886732f7-fef0-4d5e-baf7-1e771a44af01

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Date deposited: 28 Mar 2022 16:44
Last modified: 15 Mar 2024 21:57

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Contributors

Author: Xiaogang Xing
Author: Nathan Briggs
Author: Emmanuel Boss
Author: Hervé Claustre

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