Abstract

Autonomous platforms will begin to address the space-time gaps required to improve estimates of phytoplankton distribution, which will aid in the quantification of baseline conditions necessary to detect long-term trends that can be attributed to factors such as climate change. However, there is a need for high quality controlled and verified datasets. In vivo fluorescence provides a proxy for chlorophyll pigment concentration, but it is sensitive to physiological downregulation under incident irradiance (fluorescence quenching). Quenching can undermine the validity of these datasets by underestimating daytime fluorescence derived chlorophyll across regional and temporal scales. Existing methods from the literature have corrected for quenching, however, these methods require certain assumptions to be made that do not hold true across all regions and seasons. The method presented here overcomes some of these assumptions to produce corrected surface fluorescence during the day that closely matched profiles from the previous (or following) night, decreasing the difference to less than 10%. This method corrects daytime quenched fluorescence using a mean nighttime profile of the fluorescence to backscattering ratio multiplied by daytime profiles of backscattering from the surface to the depth of quenching (determined as the depth at which the day fluorescence profile diverges from the mean night profile). This method was applied to a 7-month glider time series in the sub-Antarctic Southern Ocean together with four other methods from the literature for comparison. In addition, the method was applied to a glider time series from the North Atlantic to demonstrate its applicability to other ocean regions.

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Time series of surface midnight fluorescence (black line) and midday uncorrected fluorescence (grey line) from 28 July 2015 to 8 February 2016, together with midday corrected fluorescence using 5 different methods (Xing et al. 2012; Biermann et al. 2012; Swart et al. 2015; Hemsley et al. 2015; Thomalla et al. this study).

Time series of surface midnight fluorescence (black line) and midday uncorrected fluorescence (grey line) from 28 July 2015 to 8 February 2016, together with midday corrected fluorescence using 5 different methods (Xing et al. 2012; Biermann et al. 2012; Swart et al. 2015; Hemsley et al. 2015; Thomalla et al. this study).