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Validation of the ASCAT Soil Water Index using in situ data from the International Soil Moisture Network.

Authors :
Paulik, Christoph
Dorigo, Wouter
Wagner, Wolgang
Kidd, Richard
Source :
International Journal of Applied Earth Observation & Geoinformation. Aug2014, Vol. 30, p1-8. 8p.
Publication Year :
2014

Abstract

Soil moisture is an essential climate variable and a key parameter in hydrology, meteorology and agriculture. Surface Soil Moisture (SSM) can be estimated from measurements taken by ASCAT onboard Metop-A and have been successfully validated by several studies. Profile soil moisture, while equally important, cannot be directly measured by remote sensing but must be modeled. The Soil Water Index (SWI) product developed for near real time applications within the framework of the GMES project geoland2 aims to provide such a modeled profile estimate using satellite data as input. It is produced from ASCAT SSM estimates using a two-layer water balance model which describes the relationship between surface and profile soil moisture as a function of time. It provides daily global data about moisture conditions for eight characteristic time lengths representing different depths. The objective of this work was to assess the overall quality of the SWI data. Furthermore we tested the assumptions of the used water balance model and checked if ancillary information about topography, water fraction and noise information are useful for identifying observations of questionable quality. SWI data from January 1st 2007 until the end of 2011 was compared to in situ soil moisture data from 664 stations belonging to 23 observation networks which are available through the International Soil Moisture Network (ISMN). These stations delivered 2081 time series at different depths which were compared to the SWI values. The average of the significant Pearson correlation coefficients was 0.54 while being greater than 0.5 for 64.4% of all time series. It was found that the characteristic time length showing the highest correlation increases with in situ observation depth, thus confirming the SWI model assumptions. Relationships of the correlation coefficients with topographic complexity, water fraction, in situ observation depth, and soil moisture noise were found. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15698432
Volume :
30
Database :
Academic Search Index
Journal :
International Journal of Applied Earth Observation & Geoinformation
Publication Type :
Academic Journal
Accession number :
98771836
Full Text :
https://doi.org/10.1016/j.jag.2014.01.007