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Aires, F., C. Prigent, F. Bernando, C. Jiménez, R. Saunders, and P. Brunel (2011), A tool to estimate land-surface emissivities at microwave frequencies (TELSEM) for use in numerical weather prediction, Q. J. R. Meteorol. Soc., 137, 690–699, doi:10.1002/qj.803.
Bennartz, R., K. Pappe, J. Fischer, and T. J. Hewison (2002), Comparison of observed and simulated microwave land surface emissivities over bare soil, Met. Zeit., 11(1), 5–12.
Cruz-Pol, S. L. and C. S. Ruf (2000), A Modified Model for Specular Sea Surface Emissivity at Microwave Frequencies, IEEE T. Geosci. Remote, 38(2), 858–869.
Harlow, R. C. (2007), Airborne Retrievals of Snow Microwave Emissivity at AMSU Frequencies Using ARTS/SCEM-UA, J. Appl. Meteorol. Clim., 46, 23–35, doi:10.1175/JAM2440.1.
Hewison, T. J. (2001), Airborne Measurements of Forest and Agricultural Land Surface Emissivity at Millimeter Wavelengths, IEEE T. Geosci. Remote, 39(2), 393–400.
Hewison, T. J., N. Selbach, G. Heygster, J. P. Taylor, and A. J. McGrath (xx), Airborne Measurements of Arctic Sea Ice, Glacier and Snow Emissivity at 24–183 GHz, University of Bremen.
Jin, M. and S. Liang (2006), An Improved Land Surface Emissivity Parameter for Land Surface Models Using Global Remote Sensing Observations, J. Climate, 19(12), 1867–2881, doi:10.1175/JCLI3720.1.
Karbou, F. and C. Prigent (2005), Calculation of Microwave Land Surface Emissivity From Satellite Observations: Validity of the Specular Approximation Over Snow-Free Surfaces?, IEEE Geosci. Remote Sens. Let., 2(3), 311–314, doi:10.1109/LGRS.2005.847932.
Karbou, F., C. Prigent, L. Eymard, and J. R. Pardo (2005), Microwave Land Emissivity Calculations Using AMSU Measurements, IEEE T. Geosci. Remote, 43(5), 948–959, doi:10.1109/TGRS.2004.837503.
Lohmann, U. and E. Roeckner (1995), The influence of cirrus cloud-radiative forcing on climate and climate sensitivity in a general circulation model, J. Geophys. Res., 100, 16,305–16,323.
Paape, K., R. Bennartz, and Juergen Fischer (xx), A combined two-scale model for microwave emissivities of land surfaces, Institute for Space Science, Free University of Berlin.
Prigent, C., E. Jaumouillé, F. Chevallier, and F. Aires (2008), A Parameterization of the Microwave Land Surface Emissivity Between 19 and 100 GHz, Anchored to Satellite-Derived Estimates, IEEE Geosci. Remote Sens., 46, 1–9, doi:10.1109/TGRS.2007.908881.
Prigent, C., F. Aires, D. Wang, S. Fox, and C. Harlow (2016), Sea-surface emissivity parametrization from microwaves to millimetre waves, Q. J. R. Meteorol. Soc., doi:10.1002/qj.2953.
Ruston, B. C. and T. H. Vonder Haar (2004), Characterization of summertime microwave emissivities from the Special Sensor Microwave Imager over the conterminous United States, J. Geophys. Res., 109, D19103, doi:10.1029/2004JD004890.
Vogel, R. L., Q. Liu, Y. Han, and F. Weng (2011), Evaluating a satellite derived global infrared land surface emissivity data set for use in radiative transfer modeling, J. Geophys. Res., 116, 1–11, doi:10.1029/2010JD014679.
Weng, F. and B. Yan (2004), A microwave snow emissivity model, In: The Technical Proceedings of The Thirteenth International TOVS Study Conference (ITSC XIII).