Cast shadows reveal changes in glacier surface elevation

Abstract: Abstract. Increased rates of glacier retreat and thinning need accurate local estimates of glacier elevation change to predict future changes in glacier runoff and their contribution to sea level rise. Glacier elevation change is typically derived from digital elevation models (DEMs) tied to surface change analysis from satellite imagery. Yet, the rugged topography in mountain regions can cast shadows onto glacier surfaces, making it difficult to detect local glacier elevation changes in remote areas. A rather… Show more

“…In studies focusing on understanding surface radiation distribution [15], biophysical variables [16], vegetation growth, solar energy utilization [17], glacier estimation [18], and related areas, the influence of hillshade becomes a crucial consideration. This calls for extensive and comprehensive attention, especially since hillshade has a significant influence on the spatial distribution of surface evapotranspiration [19], surface temperature [20], and soil moisture [16] in mountainous regions.…”

To Ignore or Not: Understanding the Influence of Hillshade

“…In studies focusing on understanding surface radiation distribution [15], biophysical variables [16], vegetation growth, solar energy utilization [17], glacier estimation [18], and related areas, the influence of hillshade becomes a crucial consideration. This calls for extensive and comprehensive attention, especially since hillshade has a significant influence on the spatial distribution of surface evapotranspiration [19], surface temperature [20], and soil moisture [16] in mountainous regions.…”

To Ignore or Not: Understanding the Influence of Hillshade