The influence of surface canopy water on L-band backscatter from corn: A study combining detailed In situ data and the Tor Vergata radiative transfer model

Author:

Khabbazan S.ORCID,Steele-Dunne S.C.,Vermunt P.C.ORCID,Guerriero L.,Judge J.

Funder

Stichting voor de Technische Wetenschappen

Ministerie van Economische Zaken

Dutch Research Council

Publisher

Elsevier BV

Reference71 articles.

1. Modeling L-and X-band backscattering of wheat and tests over fields of pampas;Acuña;Eur. J.Rem. Sens.,2019

2. Dew formation and water vapor adsorption in semi-arid environments — a review;Agam;J. Arid Environ.,2006

3. Modeling the backscattering and transmission properties of vegetation canopies;Allen;Contractor Rep.(CR),1984

4. Effective versus measured correlation length for radar-based surface soil moisture retrieval;Álvarez-Mozos;Int. J. Rem. Sens.,2008

5. Semi-empirical calibration of the IEM backscattering model using radar images and moisture and roughness field measurements;Baghdadi;Int. J. Rem. Sens.,2004

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