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A Multisensor Approach to Global Retrievals of Land Surface Albedo

Authors :
Alessio Lattanzio
Melanie Sütterlin
Crystal B. Schaaf
Qingsong Sun
Terhikki Manninen
Jeffrey R. Key
Aku Riihelä
Source :
Remote Sensing, Vol 10, Iss 6, p 848 (2018), Riihelä, Aku; Manninen, Terhikki; Key, Jeffrey; Sun, Qingsong; Sütterlin, Melanie Beatrice; Lattanzio, Alessio; Schaaf, Crystal (2018). A Multisensor Approach to Global Retrievals of Land Surface Albedo. Remote sensing, 10(848), pp. 1-24. Molecular Diversity Preservation International MDPI 10.3390/rs10060848 , Remote Sensing, Volume 10, Issue 6
Publication Year :
2018
Publisher :
MDPI AG, 2018.

Abstract

Satellite-based retrievals offer the most cost-effective way to comprehensively map the surface albedo of the Earth, a key variable for understanding the dynamics of radiative energy interactions in the atmosphere-surface system. Surface albedo retrievals have commonly been designed separately for each different spaceborne optical imager. Here, we introduce a novel type of processing framework that combines the data from two polar-orbiting optical imager families, the Advanced Very High-Resolution Radiometer (AVHRR) and Moderate Resolution Imaging Spectroradiometer (MODIS). The goal of the paper is to demonstrate that multisensor albedo retrievals can provide a significant reduction in the sampling time required for a robust and comprehensive surface albedo retrieval, without a major degradation in retrieval accuracy, as compared to state-of-the-art single-sensor retrievals. We evaluated the multisensor retrievals against reference in situ albedo measurements and compare them with existing datasets. The results show that global land surface albedo retrievals with a sampling period of 10 days can offer near-complete spatial coverage, with a retrieval bias mostly comparable to existing single sensor datasets, except for bright surfaces (deserts and snow) where the retrieval framework shows degraded performance because of atmospheric correction design compromises. A level difference is found between the single sensor datasets and the demonstrator developed here, pointing towards a need for further work in the atmospheric correction, particularly over bright surfaces, and inter-sensor radiance homogenization. The introduced framework is expandable to include other sensors in the future.

Details

ISSN :
20724292
Volume :
10
Database :
OpenAIRE
Journal :
Remote Sensing
Accession number :
edsair.doi.dedup.....8811be3e6379bacb753e803d56e26366