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Further Reading

Found 46 results
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Journal Article
Hall, D.K., Comiso J.C., DiGirolamo N.E., Shuman C.A., Box J.E., & Koenig L.S. (2013).  Variability in the surface temperature and melt extent of the Greenland ice sheet from MODIS. Geophysical Research Letters. 40, 1-7.
Skofronick-Jackson, G., & Johnson B. T. (2011).  Surface and Atmospheric Contributions to Passive Microwave Brightness Temperatures for Falling Snow Events. J. Geophys. Res . 116(D02213), 
Miege, C., Forster R., Brucker L., Koenig L., Solomon D. K., Paden J., et al. (2016).  Spatial extent and temporal variability of the Greenland firn aquifer detected by ground and airborne radars. J. Geophys. Res. Earth Surf.. 121,
Kidd, C., Becker A., Huffman G. J., Muller C. L., Joe P., Skofronick-Jackson G., et al. (2017).  So, How Much of the Earth’s Surface Is Covered by Rain Gauges? . Bull. Amer. Meteor. Soc. 98(1), 69-78.
Kurt, N.T., Farrell S.L., Studinger M., Galin N., Harbeck J.P., Lindsay R., et al. (2013).  Sea ice thickness, freeboard, and snow depth products from Operation IceBridge airborne data. Cryosphere. 7, 1035-1056.
Kurt, N.T., Farrell S.L., Studinger M., Galin N., Harbeck J.P., Lindsay R., et al. (2013).  Sea ice thickness, freeboard, and snow depth products from Operation IceBridge airborne data. Cryosphere. 7, 1035-1056.
Hall, D.K., Comiso J.C., DiGirolamo N.E., Shuman C.A., Key J.R., & Koenig L.S. (2012).  A Satellite-Derived Climate-Quality Data Record of the Clear-Sky Surface Temperature of the Greenland Ice Sheet. Journal of Climate. 25(14), 4785-4798.
Palm, S. P., Yang Y., Spinhirne J., & Marshak A. (2011).  Satellite remote sensing of blowing snow properties over Antarctica. J. Geophys. Res . 116(D16123), 
Sugg, J.W., Perry L.B., Hall D.K., & Riggs G.A. (2014).  Satellite perspectives on the spatial patterns of new snowfall in the Southern Appalachian Mountains. Hydrological Processes.
S. Skiles, MK., Painter T. H., Belnap J., Holland L., Reynolds R. L., Goldstein H. L., et al. (2015).  Regional variability in dust-on-snow processes and impacts in the Upper Colorado River Basin. Hydrological Processes. 29(26), 5397 - 5413.
Kim, M.-J., Weinman J. A., Olson W. S., Chang D. - E., Skofronick-Jackson G., & Wang J. R. (2008).  A physical model to estimate snowfall over land using AMSU-B observations. J. Geophys. Res . 113(D9), 
Skofronick-Jackson, G. M., Kim M. - J., Weinman J. A., & Chang D.-E. (2004).  A Physical Model to Determine Snowfall over Land by Microwave Radiometry. IEEE Trans. Geosci. Remote Sens. 42, 1047-1058.
Foster, J. L., Skofronick-Jackson G., Meng H., Wang J. R., Riggs G., Kocin P. J., et al. (2012).  Passive Microwave Remote Sensing of the Historic February 2010 Snow Storms in the Middle Atlantic Region of the U.S.. Hydrol. Processes. 26(22), 3459-3471.
Skofronick-Jackson, G., Heymsfield A., Holthaus E., Albers C., & Kim M. - J. M. - J. (2008).  Nonspherical and spherical characterization of ice in Hurricane Erin for wideband passive microwave comparisons. J. Geophys. Res . 113(D6), 
Brucker, L., Picard G., Arnaud L., Barnola J. M., Schneebali M., Brunjail H., et al. (2011).  Modeling time series of microwave brightness temperature at Dome C, Antarctica, using vertically resolved snow temperature and microstructure measurements. Journal of Glaciology. 57(201), 171-182.
Johnson, B. T., Olson W. S., & Skofronick-Jackson G. (2016).  The microwave properties of simulated melting precipitation particles: sensitivity to initial melting. Atmos. Meas. Tech. 9, 9-21.
Johnson, B. T., Petty G. W., & Skofronick-Jackson G. (2012).  Microwave Properties of Ice-Phase Hydrometeors for Radar and Radiometers: Sensitivity to Model Assumptions. J. Appl. Meteor. Climatol. 51(12), 2152–2171.
Webster, M.A., Rigor I., Nghiem S.V., Kurtz N.T., Farrell S., Perovich D.K., et al. (2014).  Interdecadal Changes in Snow Depth on Arctic Sea Ice. J. Geophys. Res. Oceans. 119, 5395-5406.
Kurtz, N.T., Galin N., & Studinger M. (2014).  An improved CryoSat-2 sea ice freeboard and thickness retrieval algorithm through the use of waveform fitting. The Cryosphere Discuss.. 8, 721-768.
Miller, O. L., Solomon D. K., Miege C., Koenig L., Forster R. R., Montgomery L. N., et al. (2017).  Hydraulic conductivity of a firn aquifer system in southeast Greenland determined with a heated piezometer. Front. Earth Science-Cryospheric Sciences. 5,
Miller, O. L., Solomon D. K., Miege C., Koenig L., Forster R. R., Montgomery L. N., et al. (2017).  Hydraulic conductivity of a firn aquifer system in southeast Greenland determined with a heated piezometer. Front. Earth Science-Cryospheric Sciences. 5,
Skofronick-Jackson, G., Petersen W. A., Berg W., Kidd C., Stocker E. F., Kirschbaum D. B., et al. (2017).  The Global Precipitation Measurement (GPM) for Science and Society. Bull. Amer. Meteor. Soc..
Skofronick-Jackson, G., Petersen W. A., Berg W., Kidd C., Stocker E. F., Kirschbaum D. B., et al. (2017).  The Global Precipitation Measurement (GPM) for Science and Society. Bull. Amer. Meteor. Soc..
Skofronick-Jackson, G., Hudak D., Petersen W., Nesbitt S. W., Chandrasekar V., Durden S., et al. (2015).  Global Precipitation Measurement Cold Season Precipitation Experiment (GCPEx): For Measurement Sake Let it Snow. Bull. Amer. Meteor. Soc.. 96, 1719-1741.
Skofronick-Jackson, G., Hudak D., Petersen W., Nesbitt S. W., Chandrasekar V., Durden S., et al. (2015).  Global Precipitation Measurement Cold Season Precipitation Experiment (GCPEx): For Measurement Sake Let it Snow. Bull. Amer. Meteor. Soc.. 96, 1719-1741.