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Further Reading

Found 37 results
Author Title [ Type(Desc)] Year
Filters: First Letter Of Last Name is H  [Clear All Filters]
Book Chapter
Comiso, J.C., & Hall D.K. (2014).  Current Climate Trends in the Arctic. WIREs Climate Change, Wiley Interdisciplinary Reviews (WIREs).
Hall, D.K., & Robinson D.A. (2012).  Global Snow Cover. Satellite Image Atlas of Glaciers (Williams, R.S., Jr. and J.G. Ferrigno, eds.) USGS Professional Paper 1386-A..
Nghiem, S.V., Hall D.K., Foster J.L., & Neumann G. (2014).  Terrestrial Snow. Encyclopedia of Remote Sensing: Springer Reference .
Journal Article
Hall, D.K., & Riggs G.A. (2007).  Accuracy assessment of the MODIS snow-cover products. Hydrological Processes.
Lyapustin, A., Gatebe C. K., Kahn R., Brandt R., Redemann J., Russell P., et al. (2010).  Analysis of snow bidirectional reflectance from ARCTAS spring-2008 campaign. Atmos. Chem. Phys. 10, 4359–4375.
Bokhorst, S., S Pedersen H., Brucker L., Anisimov O., Bjerke J. W., Brown R. D., et al. (2016).  Changing Arctic snow cover: a review of recent developments and assessment of future needs for observations, modelling and impacts. Ambio. 45, 516-537.
Hall, D.K., Box J.E., Casey K.A., Hook S.J., Shuman C.A., & Steffen K. (2008).  Comparison of satellite-derived ice and snow surface temperatures over Greenland from MODIS, ASTER, ETM+ and in-situ observations. Remote Sensing of Environment. 112(10), 3739-3749.
Hall, D.K., Box J.E., Casey K.A., Hook S.J., Shuman C.A., & Steffen K. (2008).  Comparison of satellite-derived ice and snow surface temperatures over Greenland from MODIS, ASTER, ETM+ and in-situ observations. Remote Sensing of Environment. 112(10), 3739-3749.
Cavalieri, D. J., Markus T., Ivanoff A., Miller J. A., Brucker L., Sturm M., et al. (2012).  A comparison of snow depth on sea ice retrievals using airborne atlimeters and an AMSR-E simulator.. IEEE Transactions on Geoscience & Remote Sensing. 50(8), 3027-3040.
Hall, D.K., Crawford C.J., DiGirolamo N.E., Riggs G.A., & Foster J.L. (2015).  Detection of earlier snowmelt in the Wind River Range, Wyoming, using Landsat imagery. Remote Sensing of Environment. 162, 45-54.
Hall, D.K., Riggs G.A., Foster J.L., & Kumar S. (2010).  Development and validation of a cloud-gap filled MODIS daily snow-cover product. Remote Sensing of Environment. 114, 496-503.
King, J., Howell J.S., Derksen C., Rutter N., Toose P., Beckers J.F., et al. (2015).  Evaluation of Operation IceBridge quick‐look snow depth estimates on sea ice. Geophysical Research Letters. 42(21), 9302-9310.
King, J., Howell J.S., Derksen C., Rutter N., Toose P., Beckers J.F., et al. (2015).  Evaluation of Operation IceBridge quick‐look snow depth estimates on sea ice. Geophysical Research Letters. 42(21), 9302-9310.
Nghiem, S.V., Hall D.K., Mote T.L., Tedesco M., Albert M., Keegan K., et al. (2012).  The extreme melt across the Greenland ice surface in 2012. Geophysical Research Letters. 117,
Hall, D. K., Frei A., & DiGirolamo N. E. (2018).  On the frequency of lake-effect snowfall in the Catskill Mountains. Physical Geography. 1-17.
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.
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..
Kwok, R., Kurtz N. T., Brucker L., Ivanoff A., Newman T., Farrell S. L., et al. (2017).  Intercomparison of snow depth retrievals over Arctic sea ice from radar data acquired by Operation IceBridge. The Cryosphere. 11, 2571-2593.
Kwok, R., Kurtz N. T., Brucker L., Ivanoff A., Newman T., Farrell S. L., et al. (2017).  Intercomparison of snow depth retrievals over Arctic sea ice from radar data acquired by Operation IceBridge. The Cryosphere. 11, 2571-2593.
Hall, D.K., Cullather R.I., Comiso J.C., DiGirolame N.E., Nowicki S.M., & Medley B.C. (2018).  A multilayer IST – albedo product of Greenland from MODIS. Remote Sensing [Special Issue: Remote Sensing of Essential Climate Variables and their Applications]. 10(4), 555.
Crawford, C.J., Manson S.M., Bauer M.E., & Hall D.K. (2013).  Multitemporal snow cover mapping in mountainous terrain for Landsat climate data record development. Remote Sensing of Environment. 135, 224-233.
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), 
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), 
Riggs, G.A., Hall D.K., & Román M.O. (2017).  Overview of NASA’s MODIS and Visible Infrared Imaging Radiometer Suite (VIIRS) snow-cover Earth System Data Records. Earth System Data Records. 9, 765-777.