Wolfgang Wagner scite author profile

Abstract. Combining information derived from satellitebased passive and active microwave sensors has the potential to offer improved estimates of surface soil moisture at global scale. We develop and evaluate a methodology that takes advantage of the retrieval characteristics of passive (AMSR-E) and active (ASCAT) microwave satellite estimates to produce an improved soil moisture product. First, volumetric soil water content (m 3 m −3 ) from AMSR-E and degree of saturation (%) from ASCAT are rescaled against a reference land surface model data set using a cumulative distribution function matching approach. While this imposes any bias of the reference on the rescaled satellite products, it adjusts them to the same range and preserves the dynamics of original satellite-based products. Comparison with in situ measurements demonstrates that where the correlation coefficient between rescaled AMSR-E and ASCAT is greater than 0.65 ("transitional regions"), merging the different satellite products increases the number of observations while minimally changing the accuracy of soil moisture retrievals. These transitional regions also delineate the boundary between sparsely and moderately vegetated regions where rescaled AMSR-E and ASCAT, respectively, are used for the merged product. Therefore the merged product carries the advantages of better spatial coverage overall and increased number of observations, particularly for the transitional regions. The combination method developed has the potential to be applied Correspondence to: Y. Y. Liu (yi.y.liu@csiro.au) to existing microwave satellites as well as to new missions. Accordingly, a long-term global soil moisture dataset can be developed and extended, enhancing basic understanding of the role of soil moisture in the water, energy and carbon cycles.

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The International Soil Moisture Network: a data hosting facility for global in situ soil moisture measurements

Dorigo

Wagner

Hohensinn

et al. 2011

Hydrol. Earth Syst. Sci.

893

402

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Abstract. In situ measurements of soil moisture are invaluable for calibrating and validating land surface models and satellite-based soil moisture retrievals. In addition, longterm time series of in situ soil moisture measurements themselves can reveal trends in the water cycle related to climate or land cover change. Nevertheless, on a worldwide basis the number of meteorological networks and stations measuring soil moisture, in particular on a continuous basis, is still limited and the data they provide lack standardization of technique and protocol.

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Soil moisture estimation through ASCAT and AMSR-E sensors: An intercomparison and validation study across Europe

Brocca

Hasenauer

Lacava

et al. 2011

Remote Sensing of Environment

505

344

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Wolfgang Wagner

A Method for Estimating Soil Moisture from ERS Scatterometer and Soil Data

ESA CCI Soil Moisture for improved Earth system understanding: State-of-the art and future directions

Trend-preserving blending of passive and active microwave soil moisture retrievals

Gaussian decomposition and calibration of a novel small-footprint full-waveform digitising airborne laser scanner

Evaluation of the ESA CCI soil moisture product using ground-based observations

Developing an improved soil moisture dataset by blending passive and active microwave satellite-based retrievals

The International Soil Moisture Network: a data hosting facility for global in situ soil moisture measurements

Soil moisture estimation through ASCAT and AMSR-E sensors: An intercomparison and validation study across Europe

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