Passive microwave observation of diurnal surface soil moisture

Microwave radiometers operating at low frequencies are sensitive to surface soil moisture changes. Few studies have been conducted that have involved multifrequency observations at frequencies low enough to measure a significant soil depth and not be attenuated by the vegetation cover. Another unexplored aspect of microwave observations at low frequencies has been the impact of diurnal variations of the soil moisture and temperature on brightness temperature. In this investigation, observations were made using a dual frequency radiometer (1.4 and 2.65 GHz) over bare soil and corn for extended periods in 1994. Comparisons of emissivity and volumetric soil moisture at four depths for bare soils showed that there was a clear correspondence between the 1 cm soil moisture and the 2.65-GHz emissivity and between the 3-5 cm soil moisture and the 1.4-GHz emissivity, which confirms previous studies. Observations during drying and rainfall demonstrate that new and unique information for hydrologic and energy balance studies can be extracted from these data.

[1]  Buford Randall Jean,et al.  Soil Moisture Information And Thermal Microwave Emission , 1982, IEEE Transactions on Geoscience and Remote Sensing.

[2]  W. J. Burke,et al.  Comparison of 2.8‐ and 21‐cm microwave radiometer observations over soils with emission model calculations , 1979 .

[3]  Thomas J. Schmugge,et al.  A comparison of radiative transfer models for predicting the microwave emission from soils , 1981 .

[4]  Eni G. Njoku,et al.  Multifrequency Microwave Radiometer Measurements of Soil Moisture , 1982, IEEE Transactions on Geoscience and Remote Sensing.

[5]  T. Schmugge,et al.  Passive microwave remote sensing system for soil moisture: some supporting research , 1989 .

[6]  Thomas Wilheit,et al.  Radiative Transfer in a Plane Stratified Dielectric , 1975, IEEE Transactions on Geoscience Electronics.

[7]  James R. Wang,et al.  Microwave Emission from Smooth Bare Fields and Soil Moisture Sampling Depth , 1987, IEEE Transactions on Geoscience and Remote Sensing.

[8]  L. Bruckler,et al.  Near surface soil moisture estimation from microwave measurements , 1988 .

[9]  Ray D. Jackson,et al.  Diurnal Changes in Soil Water Content During Drying , 1973 .

[10]  S. Idso,et al.  The utility of surface temperature measurements for the remote sensing of surface soil water status , 1975 .

[11]  James E. Conel,et al.  Microwave emission from geological materials: Observations of interference effects , 1972 .

[12]  Simonetta Paloscia,et al.  Sampling depth of soil moisture content by radiometric measurement at 21 cm wavelength: some experimental results. , 1990 .

[13]  H. D. Scott,et al.  Microwave Measurements of Moisture Distributions in the Upper Soil Profile , 1984 .

[14]  Calvin Wyatt Rose,et al.  Water transport in soil with a daily temperature wave. I. Theory and experiment , 1968 .

[15]  R. A. Leonard,et al.  Diurnal Soil Water Regime in the Tilled Plow Layer of a Warm Humid Climate1 , 1977 .

[16]  Y. Kerr,et al.  Soil moisture and temperature profile effects on microwave emission at low frequencies , 1995 .

[17]  J. Kong,et al.  Theory for passive microwave remote sensing of near‐surface soil moisture , 1977 .

[18]  T. Schmugge,et al.  Soil moisture sensing with aircraft observations of the diurnal range of surface temperature , 1978 .

[19]  C. H. M. van Bavel,et al.  Integrating passive microwave measurements with a soil moisture/heat flow model , 1983 .

[20]  Simonetta Paloscia,et al.  Multifrequency passive microwave remote sensing of soil moisture and roughness , 1993 .

[21]  Tsan Mo,et al.  A parameterization of effective soil temperature for microwave emission , 1982 .

[22]  T. Schmugge,et al.  Vegetation effects on the microwave emission of soils , 1991 .

[23]  Anthony W. England,et al.  The radiobrightness thermal inertia measure of soil moisture , 1992, IEEE Trans. Geosci. Remote. Sens..