Relationships Between DOC and CDOM Based on the Total Carbon‐Specific Fluorescence Intensities for River Waters Across China

Zhao, Ying; Song, Kaishan

doi:10.1029/2017jg004374

Cited by 10 publications

(3 citation statements)

References 31 publications

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“…Empirical models have also been extensively employed to retrieve the concentrations of CDOM and suspended sediments in coastal waters (D'Sa et al, 2007;Doerffer and Fischer, 1994;Liu et al, 2014;Loisel et al, 2014;Siswanto et al, 2011;Zhang et al, 2010). Other biogeochemical parameters, such as dissolved organic carbon (DOC), through its relationship with CDOM absorption properties, can also be empirically retrieved from earth observation data (Cao et al, 2018;Zhao and Song, 2018). K d , as a QIOP, has also been empirically related to reflectance measurements for both clear waters and optically complex waters (Austin and Petzold, 1981;Mueller, 2000;Werdell and Bailey, 2005;Zhang and Fell, 2007).…”

Section: Empirical Approachmentioning

confidence: 99%

“…For turbid waters, one of the challenges for ocean color remote sensing is the scarcity of "ground-true" data for model validation, which is because current commercial instruments for IOPs measurements, such as Wet Labs ac-s meter and bb9 meter, are prone to saturate in high turbidity environments. The other challenges is that due to the large variation of the IOPs and concentrations of in-water constituents, most semianalytical models have been less successful in retrieving IOPs or K d (IOCCG, 2000(IOCCG, , 2006Salama et al, 2011;Wang et al, 2017;Zibordi et al, 2009), which is mainly attributed to the strong backscattering by the suspended particles. Therefore, developed models for the retrieval of SPM and Chl-a concentrations in the Yangtze estuary are all empirical or semi-analytical based Shen et al, 2010c;Shen et al, 2013;Sokoletsky et al, 2014).…”

Section: Challengesmentioning

confidence: 99%

“…Algorithms for the remote retrieval of K d have been developed for clear waters (Austin and Petzold, 1981;Mueller, 2000), but they always generate huge errors in turbid waters due to the complexity in optical properties and limitations in the algorithms (IOCCG, 2000(IOCCG, , 2006Salama et al, 2011;Zibordi et al, 2009). To retrieve K d in optically complex waters, several methods were adopted.…”

Section: Introductionmentioning

confidence: 99%

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Optical properties of turbid coastal water and their remote sensing retrievals based on radiative transfer approaches

Yu¹

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Radiative transfer theory describes how light, regarding its spectral radiance, travels and varies along any specific path at a specified point in the water, and ties together the water apparent optical properties (AOPs) and inherent optical properties (IOPs) through the radiative transfer equations (RTEs). In this study, the author used the analytical 2SeaColor model, which is based on the approximate solution of RTEs using two-stream approach, to retrieve IOPs, diffuse attenuation coefficient (K d , in m -1 ), and the concentration of suspended particulate matter (C SPM , in mg/L) in the turbid Yangtze estuary. The application of 2SeaColor to the GOCI geostationary sensors has enabled a better understanding of the diurnal cycle of suspended sediment in the study area. The known linear relationship between C SPM and particulate backscattering coefficient (b bp , in m -1 ), was investigated, using 2SeaColor retrievals and field measurements. Although the validity of the linear relationship was confirmed for relatively clear waters, the author showed that in turbid waters, nonlinearity governs the relationship between C SPM and b bp . The two respective relationships between C SPM and b bp for relatively clear and turbid waters were further integrated using a sigmoid function to retrieve wide-range C SPM without the need for a switching scheme. Apart from SPM, colored dissolved organic matter (CDOM) also significantly reduces light transparency and contributes to the complexity of the optical properties in the Yangtze estuary. Thereby, the author has also investigated the seasonal variability of CDOM absorption properties. Finally, the author proposed a locally calibrated model to estimate the concentration of dissolved organic carbon (DOC). The summary of the major results obtained from this dissertation is briefly described in the following.The thesis is structured in six chapters, of which the first chapter describes the background of ocean color remote sensing in optically complex waters and the second chapter explains the physical principals of the 2SeaColor model. In Chapter 3, the author first proposed improved IOPs parameterizations to the analytical 2SeaColor model to account for the complex optical properties in the Yangtze estuary. The improved 2SeaColor model was later employed to derive the diffuse attenuation coefficient (K d , in m -1 ) from remote sensing reflectance (R rs , in sr -1 ). Retrievals from the improved model were then validated with three in-situ datasets and compared with an empirical (the Zhang model) and a semianalytical model (the Lee model). Statistics from the validation results show that the 2SeaColor model provides the best estimates of K d for the full range of Summary ii observations, with the largest determination coefficient (R 2 = 0.935) and the smallest root mean squared error (RMSE = 0.078 m -1 ). For clear waters, where K d (490) < 0.2 m -1 , the Zhang model provides the most accurate K d estimations, but results from the Lee model and the 2SeaColor are comparable. For ...

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