Measurements and modelling of snow particle size and shortwave infrared albedo over a melting Antarctic ice sheet
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Timo Vihma | Petri Räisänen | Roberta Pirazzini | P. Räisänen | T. Vihma | R. Pirazzini | M. Johansson | Esa-Matti Tastula | Milla M. Johansson | E.-M. Tastula | Esa‐Matti Tastula
[1] A. Slingo,et al. Studies with a flexible new radiation code. I: Choosing a configuration for a large-scale model , 1996 .
[2] K. Liou,et al. Light absorption and scattering by aggregates: Application to black carbon and snow grains , 2011 .
[3] Sergey A. Sokratov,et al. Tomography of temperature gradient metamorphism of snow and associated changes in heat conductivity , 2004 .
[4] A. Smedman,et al. The turbulent kinetic energy budget in the marine atmospheric surface layer , 2002 .
[5] L. Arnaud,et al. Measurement of vertical profiles of snow specific surface area with a 1 cm resolution using infrared reflectance: instrument description and validation , 2011, Journal of Glaciology.
[6] S. Fassnacht,et al. Changes in the surface roughness of snow from millimetre to metre scales , 2009 .
[7] Emily E. Whittington,et al. Comparison of surface reflectance measurements from three ASD FieldSpec FR spectroradiometers and one ASD FieldSpec VNIR spectroradiometer , 2001, IGARSS 2001. Scanning the Present and Resolving the Future. Proceedings. IEEE 2001 International Geoscience and Remote Sensing Symposium (Cat. No.01CH37217).
[8] T van Doorn,et al. Invariant moment shape description of microcalcifications in digital mammograms. , 1995, Australasian physical & engineering sciences in medicine.
[9] Oishi Tomohiko,et al. SPECTRAL ALBEDO OBSERVATION ON THE SNOW FIELD AT BARROW, ALASKA , 1998 .
[10] H. C. van de Hulst,et al. Light scattering in planetary atmospheres: V.V. Sobolev. Pergamon Press, Elmsford, N.Y., 1975.256 pp. $25.00. , 1977 .
[11] C. Brockmann,et al. Sizing snow grains using backscattered solar light , 2011 .
[12] A. Kokhanovsky,et al. Analysis of snow bidirectional reflectance from ARCTAS Spring-2008 Campaign , 2009 .
[13] Laurent Arnaud,et al. Determining snow specific surface area from near-infrared reflectance measurements: Numerical study of the influence of grain shape , 2009 .
[14] S. Warren,et al. Soot in the atmosphere and snow surface of Antarctica , 1990 .
[15] Ghislain Picard,et al. Measurement of the specific surface area of snow using infrared reflectance in an integrating sphere at 1310 and 1550 nm , 2009 .
[16] K. Stamnes,et al. Numerically stable algorithm for discrete-ordinate-method radiative transfer in multiple scattering and emitting layered media. , 1988, Applied optics.
[17] A new method for the model selection in B-spline surface approximation with an influence function , 2013 .
[18] E. Brun,et al. The growth of sublimation crystals and surface hoar on the Antarctic plateau , 2013 .
[19] D. Lubin,et al. The influence of mixed‐phase clouds on surface shortwave irradiance during the Arctic spring , 2011 .
[20] Timothy J. Malthus,et al. The Fields of View and Directional Response Functions of Two Field Spectroradiometers , 2012, IEEE Transactions on Geoscience and Remote Sensing.
[21] Timo Nousiainen,et al. Ice‐cloud particle habit classification using principal components , 2012 .
[22] Knut Stamnes,et al. Effects of vertical inhomogeneity on snow spectral albedo and its implication for optical remote sensing of snow , 2003 .
[23] P. Rüegsegger,et al. A new method for the model‐independent assessment of thickness in three‐dimensional images , 1997 .
[24] J. Dozier,et al. A Hyperspectral Method for Remotely Sensing the Grain Size of Snow , 2000 .
[25] Thomas H. Painter,et al. Portable spectral profiler probe for rapid snow grain size stratigraphy , 2013 .
[26] Thomas H. Painter,et al. Contact spectroscopy for determination of stratigraphy of snow optical grain size , 2007, Journal of Glaciology.
[27] T. Painter,et al. Retrieval of subpixel snow-covered area and grain size from imaging spectrometer data , 2003 .
[28] Ping Yang,et al. Snow optical properties for different particle shapes with application to snow grain size retrieval and MODIS/CERES radiance comparison over Antarctica , 2008 .
[29] O. Boucher. On Aerosol Direct Shortwave Forcing and the Henyey-Greenstein Phase Function. , 1998 .
[30] S. Warren,et al. A Model for the Spectral Albedo of Snow. I: Pure Snow , 1980 .
[31] Roberta Pirazzini,et al. Surface albedo measurements over Antarctic sites in summer , 2004 .
[32] Alexander A. Kokhanovsky,et al. The semi-analytical snow retrieval algorithm and its application to MODIS data , 2007 .
[33] Michael I. Mishchenko,et al. Bidirectional Reflectance of Flat, Optically Thick Particulate Layers: An Efficient Radiative Transfer Solution and Applications to Snow and Soil Surfaces , 1999 .
[34] W. Steen. Absorption and Scattering of Light by Small Particles , 1999 .
[35] T. Vihma,et al. Spatial and temporal variability in summer snow pack in Dronning Maud Land, Antarctica , 2010 .
[36] Christian Mätzler,et al. Autocorrelation functions of granular media with free arrangement of spheres, spherical shells or ellipsoids , 1997 .
[37] T. Painter,et al. Measurements of the hemispherical-directional reflectance of snow at fine spectral and angular resolution , 2004 .
[38] S. Warren,et al. Reflection of solar radiation by the Antarctic snow surface at ultraviolet, visible, and near‐infrared wavelengths , 1994 .
[39] S. Warren,et al. Spectral Bidirectional Reflectance of Antarctic Snow: Measurements and Parameterization , 2006 .
[40] Jens Nieke,et al. ADEOS-II/GLI snow/ice products — Part II: Validation results using GLI and MODIS data , 2007 .
[41] W. Wiscombe. The Delta–M Method: Rapid Yet Accurate Radiative Flux Calculations for Strongly Asymmetric Phase Functions , 1977 .
[42] T. Grenfell,et al. Spectral albedos of an alpine snowpack , 1981 .
[43] G. Picard,et al. Vertical profile of the specific surface area and density of the snow at Dome C and on a transect to Dumont D'Urville, Antarctica – albedo calculations and comparison to remote sensing products , 2011 .
[44] Laurent Arnaud,et al. Snow spectral albedo at Summit, Greenland: measurements and numerical simulations based on physical and chemical properties of the snowpack , 2013 .
[45] L. C. Henyey,et al. Diffuse radiation in the Galaxy , 1940 .
[46] Terhikki Manninen,et al. The temporal and spatial variability in submeter scale surface roughness of seasonal snow in Sodankylä Finnish Lapland in 2009–2010 , 2014 .
[47] Wei Li,et al. ADEOS-II/GLI snow/ice products — Part I: Scientific basis , 2007 .
[48] S. Warren,et al. An explanation for the effect of clouds over snow on the top-of-atmosphere bidirectional reflectance , 2007 .
[49] Bryan A. Baum,et al. Single scattering properties of droxtals , 2003 .
[50] Ice. The international classification for seasonal snow on the ground , 1990 .
[51] Charles S. Zender,et al. Linking snowpack microphysics and albedo evolution , 2006 .
[52] J. Hansen,et al. Light scattering in planetary atmospheres , 1974 .
[53] Thomas C. Grenfell,et al. Representation Of A Nonspherical Ice Particle By A Collection Of Independent Spheres For Scattering And Absorption Of Radiation : 2 . Hexagonal Columns And Plates , 2003 .
[54] M. Fily,et al. Modeling the effect of sastrugi on snow reflectance , 1998 .
[55] Aurélien Rizk,et al. Segmentation and quantification of subcellular structures in fluorescence microscopy images using Squassh , 2014, Nature Protocols.
[56] S. Warren,et al. A Model for the Spectral Albedo of Snow. II: Snow Containing Atmospheric Aerosols , 1980 .
[57] Hajo Eicken,et al. Pore space percolation in sea ice single crystals , 2009 .
[58] Teruo Aoki,et al. Retrieval of snow physical parameters using a ground-based spectral radiometer. , 2009, Applied optics.
[59] A. T. Manninen,et al. Surface roughness of Baltic sea ice , 1997 .
[60] Michel Fily,et al. Comparison of in situ and Landsat Thematic Mapper derived snow grain characteristics in the alps , 1997 .
[61] P. Chylek,et al. Infrared Emittance of Water Clouds , 1992 .
[62] Teruo Aoki,et al. Effects of snow physical parameters on spectral albedo and bidirectional reflectance of snow surface , 2000 .
[63] S. Warren,et al. Optical constants of ice from the ultraviolet to the microwave: A revised compilation , 2008 .
[64] Teruo Aoki,et al. Physically based snow albedo model for calculating broadband albedos and the solar heating profile in snowpack for general circulation models , 2011 .
[65] K. Liou,et al. On the correlation between ice water content and ice crystal size and its application to radiative transfer and general circulation models , 2008 .
[66] A. Kokhanovsky,et al. Influence of surface roughness on the reflective properties of snow , 2011 .
[67] Y. Fujiyoshi,et al. On Snow Particles Comprising an Aggregate , 1985 .
[68] Laurent Arnaud,et al. Influence of grain shape on light penetration in snow , 2013 .
[69] Teruo Aoki,et al. Effects of snow physical parameters on shortwave broadband albedos , 2003 .
[70] Alexei Lyapustin,et al. Retrieval of snow grain size over Greenland from MODIS. , 2009 .
[71] T. Ohta,et al. Spectral reflectance of snow with a known grain-size distribution in successive metamorphism , 2001 .
[72] Eleonora P Zege,et al. Scattering optics of snow. , 2004, Applied optics.
[73] Roberto Salzano,et al. Correlation between the specific surface area and the short wave infrared (SWIR) reflectance of snow , 2006 .
[74] Stephen G. Warren,et al. Optical Properties of Snow , 1982 .
[75] M. Frezzotti,et al. Snow grain-size measurements in Antarctica , 2002, Journal of Glaciology.
[76] Stephen G. Warren,et al. Effect of surface roughness on bidirectional reflectance of Antarctic snow , 1998 .
[77] A. Kokhanovsky,et al. Parameterization of single-scattering properties of snow , 2015 .
[78] Bryan A. Baum,et al. Spectrally Consistent Scattering, Absorption, and Polarization Properties of Atmospheric Ice Crystals at Wavelengths from 0.2 to 100 um , 2013 .