Retrieval of Aerosol Optical Thickness with Custom Aerosol Model Using SKYNET Data over the Chiba Area

Xue, Zixuan; Kuze, Hiroaki; Irie, Hitoshi

doi:10.3390/atmos12091144

Cited by 3 publications

(1 citation statement)

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“…Here, DS and SS also consolidated again, indicating that both species have similar scattering-absorption properties. Low aerosol loading could create unfavorable conditions for aerosol type discrimination via derivative spectroscopy, as very low aerosol loading tends to have higher uncertainty concerning its retrieval [36,37]. After being normalized by AOD0.44µm, all the lines congregated more consistently into their own intrinsic characteristics (Figure 3b,d).…”

Section: Theoretical Spectral Aod Derivativesmentioning

confidence: 99%

Sea Salt Aerosol Identification Based on Multispectral Optical Properties and Its Impact on Radiative Forcing over the Ocean

Atmoko

Lin

2022

Remote Sensing

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The ground-based measurement of sea salt (SS) aerosol over the ocean requires the massive utilization of satellite-derived aerosol products. In this study, n-order spectral derivatives of aerosol optical depth (AOD) based on wavelength were examined to characterize SS and other aerosol types in terms of their spectral dependence related to their optical properties such as particle size distributions and complex refractive indices. Based on theoretical simulations from the second simulation of a satellite signal in the solar spectrum (6S) model, AOD spectral derivatives of SS were characterized along with other major types including mineral dust (DS), biomass burning (BB), and anthropogenic pollutants (APs). The approach (normalized derivative aerosol index, NDAI) of partitioning aerosol types with intrinsic values of particle size distribution and complex refractive index from normalized first- and second-order derivatives was applied to the datasets from a moderate resolution imaging spectroradiometer (MODIS) as well as by the ground-based aerosol robotic network (AERONET). The results after implementation from multiple sources of data indicated that the proposed approach could be highly effective for identifying and segregating abundant SS from DS, BB, and AP, across an ocean. Consequently, each aerosol’s shortwave radiative forcing and its efficiency could be further estimated in order to predict its impact on the climate.

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Section: Theoretical Spectral Aod Derivativesmentioning

confidence: 99%