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Retrieval of ground, snow, and forest parameters from space borne passive L band observations. A case study over Sodankylä, Finland
Previous studies have indicated and shown the feasibility of retrieving snow density from ground based passive microwave measurements at the L band (1–2GHz) from theoretical and experimental viewpoints. This paper expands the previous studies by presenting a case study of the retrieval problem with...
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Published in: | Remote sensing of environment 2024-05, Vol.306, p.114143, Article 114143 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | Previous studies have indicated and shown the feasibility of retrieving snow density from ground based passive microwave measurements at the L band (1–2GHz) from theoretical and experimental viewpoints. This paper expands the previous studies by presenting a case study of the retrieval problem with space borne brightness temperature measurements from the SMOS satellite over Sodankylä, Finland. To successfully retrieve snow density, also ground and forest parameters were included to the retrieval process. The retrieved variables were validated against in-situ ground, snow, and forest measurements made around the Sodankylä area over 12 winters from 2010 to 2022. A Bayesian framework was used to account for and quantify the uncertainties associated with the retrieval process. The results show good agreement between the retrieved ground and forest variables with the respective reference values. The snow density retrievals were seen to suffer from multiple sources of geophysical noise. However, the monthly average bulk snow density was successfully retrieved under stable midwinter conditions. The best agreement with the in-situ measurements was found for February, with a bias of -0.4kg/m3, an unbiased root mean square difference of 12.2kg/m3, and a correlation coefficient of 0.75.
•Ground, snow, and forest parameters were retrieved over 12 winters.•The results were validated against comprehensive in-situ measurements.•The study site represents a typical heterogeneous boreal forest site.•Retrieved vegetation optical depth follows the modelled dynamics and value range.•Retrieved snow density agrees with measurements during the cold mid-winter period. |
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ISSN: | 0034-4257 1879-0704 |
DOI: | 10.1016/j.rse.2024.114143 |