Abstract
The particulate optical backscattering coefficient (bbp) is a fundamental optical property that allows monitoring of marine suspended particles both in situ and from space. Backscattering measurements in the open ocean are still scarce, however, especially in oligotrophic regions. Consequently, uncertainties remain in bbp parameterizations as well as in satellite estimates of bbp. In an effort to reduce these uncertainties, we present and analyze a dataset collected in surface waters during the 19th Atlantic Meridional Transect. Results show that the relationship between particulate beam-attenuation coefficient (cp) and chlorophyll-a concentration was consistent with published bio-optical models. In contrast, the particulate backscattering per unit of chlorophyll-a and per unit of cp were higher than in previous studies employing the same sampling methodology. These anomalies could be due to a bias smaller than the current uncertainties in bbp. If that was the case, then the AMT19 dataset would confirm that bbp:cp is remarkably constant over the surface open ocean. A second-order decoupling between bbp and cp was, however, evident in the spectral slopes of these coefficients, as well as during diel cycles. Overall, these results emphasize the current difficulties in obtaining accurate bbp measurements in the oligotrophic ocean and suggest that, to first order, bbp and cp are coupled in the surface open ocean, but they are also affected by other geographical and temporal variations.
Highlights
Ocean biogeochemical cycles are tightly linked to the dynamics of suspended particles such as phytoplankton, heterotrophic organisms, detritus, and minerals
Understanding these dynamics is an important objective of oceanographic research and much can be learned by interpreting optical scattering measurements
The following inherent optical properties are typically employed to characterize the scattering of light by marine particles: the particulate backscattering, scattering, and beamattenuation coefficients
Summary
Ocean biogeochemical cycles are tightly linked to the dynamics of suspended particles such as phytoplankton, heterotrophic organisms, detritus, and minerals. Understanding these dynamics is an important objective of oceanographic research and much can be learned by interpreting optical scattering measurements. Unraveling the links between optical scattering and the concentrations and characteristics of oceanic particles, has the potential of extending the range over which these particles and their dynamics can be observed. The following inherent optical properties are typically employed to characterize the scattering of light by marine particles: the particulate backscattering, scattering, and beamattenuation coefficients (bbp, bp, and cp, respectively). Note that bp and cp are approximately equal in clear waters, due to the low influence of particulate absorption (ap) on cp [7, 8]
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