ERS SCATTEROMETER DERIVED SOIL MOISTURE MAPS OF THREE CLIMATIC ZONES 
Wolfgang Wagner 
Institute for Photogrammetry and Remote Sensing, Vienna University of Technology 
& 
Space Applications Institute, EC Joint Research Centre, Ispra, Italy 
KEY WORDS: Soil Moisture, Radar, Global Monitoring, Climate 
ABSTRACT: 
Soil moisture is still a poorly simulated component of General Circulation Models 
(GCMs) . 
performance of 
Remotely sensed soil wetness information could be useful for improving the 
In this paper derived from ERS | 
Scatterometer imagery are discussed. The ERS Scatterometer is a radar operating at 5.3 
these models. Soil moisture maps 
GHz (C-band) and has a spatial resolution of about 50 km. Its three antennas illuminate 
which allows to distinguish 
of three 
the surface from three different viewing directions 
vegetation and soil moisture effects on the signal. Soil moisture maps 
climatic zones are presented: Mediterranean climate (Iberian Peninsula), wet-dry 
(Mali), 
that the ERS Scatterometer based soil moisture maps reflect the different precipitation 
tropical climate and moist-continental climate (Hungary). The analysis shows 
patterns of these regions very well. 
1. INTRODUCTION climate) derived from ERS 
Scatterometer imagery are presented 
Based on General Circulation Models and discussed qualitatively. To 
(GCM) simulations it was suggested investigate if year to year 
that for ‘a’ world’ made differences 
  
  
  
  
warmer by 
enhanced greenhouse gases summer soil 
moisture could decrease over 
midcontinent agricultural regions. To 
determine if midcontinental drying is 
a robust prediction soil moisture must 
be properly simulated (Robock et al., 
1995). However, it appears that one of 
GCM models 
lies in their inability to correctly 
the main limitations of 
simulate the terrestrial hydrological 
cycle (Lawford, 1992; Robock et al., 
1995). According to Dirnmeyer (1995) 
the lack of widespread observations of 
Soil moisture continues to  hamper 
efforts to verify and improve 
simulations. For this purpose point 
measurements would not fully meet the 
requirements of land process modellers 
because they need soil moisture 
averaged over thousands of square 
kilometres  (Lawford, 1992). On this 
scales only remote sensing can provide 
the required information. In this 
paper soil moisture maps of three 
climatic zones (Mediterranean, wet-dry 
tropical, and 
moist continental 
Intemational Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998 
in the ERS Scatterometer 
derived soil moisture maps reflect the 
qualitative 
agricultural 
physical reality a 
with 
Statistics is attempted. 
comparison 
2. METHODOLOGY 
The ERS  Scatterometer is a radar 
operating at 5.3 GHz (C-band) 
flown on board of the European Remote 
Sensing Satellites  ERS-1 and  ERS-2 
(Lecomte and Attema, 1992). Since the 
launch of ERS-1 in 1991 it has been 
providing continuous global coverage. 
and is 
It measures the backscattering 
coefficient c? with a spatial 
resolution of 50 km. Its three 
sideways looking antennas (fore-, mid- 
, and aft- beam antennas) scan a 500 
km wide swath right to the satellite 
track different 
each 
from viewing 
three 
independent measurements of Oo" are 
obtained at two different incidence 
angles and at three different azimuth 
directions. For pixel 
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