| Summary: | The suspended particle size has great impacts on marine biology environments and biogeochemical processes, such as the settling rates of particles and sunlight transmission in marine water. However, the spatial–temporal variations in particle sizes in coastal waters are rarely reported due to the paucity of appropriate observations and the limitations of particle size retrieval methods, especially in areas with complex optical properties. This study proposed a remote sensing-based method for estimating the median particle size D<sub>v</sub><sup>50</sup> (calculated with a size range of 2.05–297 μm) that correlates D<sub>v</sub><sup>50</sup> with the inherent optical properties (IOPs) retrieved from in situ remote sensing reflectance above the water’s surface (R<sub>rs</sub>(λ)) in the Pearl River estuary (PRE) in China. R<sub>rs</sub>(λ) was resampled to simulate the Multispectral Instrument (MSI) onboard Sentinel-2A/B, and the wavebands in 490, 560, and 705 nm were utilized for the retrieval of the IOPs. The results of this method had a statistical performance of 0.86, 18.52, 21.28%, and −1.85 for the R<sup>2</sup>, RMSE, MAPE, and bias values, respectively, in validation, which indicated that D<sub>v</sub><sup>50</sup> could be estimated by R<sub>rs</sub>(λ) with the proposed four-step method. Then, the proposed method was applied to Sentinel-2 MSI imagery, and a clear difference in D<sub>v</sub><sup>50</sup> distribution which was retrieved from a different time could be seen. The proposed method holds great potential for monitoring the suspended particle size of coastal waters.
|
|---|