Abstract
The highly reflective nature of high particulate inorganic carbon (PIC) from calcifying plankton, such as surface blooms of Emiliana huxleyi in the latter stages of their life cycle, can cause the saturation of the Moderate Resolution Imaging Spectrometer (MODIS) visible spectrum ocean color bands. This saturation results in errors in the standard MODIS oceanic PIC product, resulting in the highest PIC levels being represented as cloud-like gaps (missing data) in daily level 2 data, and as either gaps or erroneously low PIC values in temporally averaged data (e.g., 8-day level 3 data). A method is described to correct this error and to reconstruct the missing data in the ocean color band data by regressing the 1-km spatial resolution ocean color bands against MODIS higher resolution (500 m spatial resolution) bands with lower sensitivities. The method is applied to all North Atlantic MODIS data from 2002 to 2014. This shows the effect on mean PIC concentration over the whole North Atlantic to be less than 1% annually and 2% monthly, but with more significant regional effects, exceeding 10% in peak months in some coastal shelf regions. Effects are highly localized and tend to annually reoccur in similar geographical locations. Ignoring these missing data within intense blooms is likely to result in an underestimation of the influence that coccolithophores, and their changing distributions, are having on the North Atlantic carbon cycle. We see no evidence in this 12-year time series of a temporal poleward movement of these intense bloom events.
Highlights
C OCCOLITHOPHORES are the largest source of calcium carbonate in the oceans and are considered to play an important role in oceanic carbon cycles [1], [2]
The Moderate Resolution Imaging Spectrometer (MODIS) ocean color processing uses a set of flags that are raised when certain conditions are met in a given pixel, for example, the presence of land, and this saturation results in the raising of the high light (HILT) flag, which by default causes the pixel to be masked at Level 2 (L2)
This means that the particulate inorganic carbon (PIC or calcite) products, which principally measure the intensity of coccolithophore blooms, are masked and set to zero in the most intense blooms
Summary
C OCCOLITHOPHORES are the largest source of calcium carbonate in the oceans and are considered to play an important role in oceanic carbon cycles [1], [2]. The MODIS ocean color processing uses a set of flags that are raised when certain conditions are met in a given pixel, for example, the presence of land, and this saturation results in the raising of the high light (HILT) flag, which by default causes the pixel to be masked at L2. This means that the particulate inorganic carbon (PIC or calcite) products, which principally measure the intensity of coccolithophore blooms, are masked and set to zero in the most intense blooms. This method builds on the theory and approach of [11]
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