
Further Reading
Found 37 results
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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.
(2012). Regional variability in dust-on-snow processes and impacts in the Upper Colorado River Basin.
Hydrological Processes. 29(26), 5397 - 5413.
(2015). On the relationship between snow grain morphology and in-situ near infrared calibrated reflectance photographs.
Cold Regions Science and Technology. 61(1), 34-42.
(2010). Satellite perspectives on the spatial patterns of new snowfall in the Southern Appalachian Mountains.
Hydrological Processes.
(2014). 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.
(2012). Sea ice thickness, freeboard, and snow depth products from Operation IceBridge airborne data.
Cryosphere. 7, 1035-1056.
(2013). Seasonal Snow Extent and Snow Mass in South America Using SMMR and SSM/I Passive Microwave Data (1979-2003).
Remote Sensing of Environment. 113, 291-305.
(2009). Simulation of the microwave emission of multi-layered snowpacks using the Dense Media Radiative transfer theory: the DMRT-ML model.
Geosci. Model Dev.. 6, 1061-1078.
(2013). Snow grain size retrieval over the polar ice sheets with the Ice, Cloud, and land Elevation Satellite (ICESat) observations.
J. Quant. Spectrosc. Radiat. Transfer. 186, 159-164.
(2017). So, How Much of the Earth’s Surface Is Covered by Rain Gauges? .
Bull. Amer. Meteor. Soc. 98(1), 69-78.
(2017). Uncertainties of temperature measurements on snow-covered land and sea ice from in-situ and MODIS data during BROMEX.
Journal of Applied Meteorology and Climatology. 54(5), 966-978.
(2015). Variability in the surface temperature and melt extent of the Greenland ice sheet from MODIS.
Geophysical Research Letters. 40, 1-7.
(2013).