Glacier
Glaciers are a system of flowing ice that form where more snow accumulates each year than melts. There are two major types of glaciers, continental and valley glaciers, which produce distinctive erosional and depositional landforms. As ice flows, it erodes the surface of the land by abrasion and plucking. Sediment is transported by the glacier and deposited where the ice melts. In the process, landscape is greatly modified.
Definition
A glacier is a natural body of ice formed by the accumulation, compaction, and recrystallization of snow that thick enough to flow. It is a dynamic system involving the accumulation and transportation of ice. The movement of ice is a critical factor. A mass of ice must move or flow to be considered a glacier. Bodies of ground ice, formed by the freezing of groundwater within perennially frozen ground, are not glaciers, nor is the relatively thin sheet of frozen seawater known as sea ice, which is so abundant in the polar regions.
Formation
The essential parts of a glacial system are the zone of accumulation, where there is a net gain of ice, and the zone of ablation, where ice leaves the system by melting, calving, and evaporating. The boundary between these zones is the snow line. In the zone of accumulation, snow is transformed into glacial ice. Freshly fallen snow consists of delicate hexagonal ice crystals or needles of low density. As snow accumulates, the ice at the points of the snowflakes melts from the pressure of the snow buildup and migrates toward the center of the flake, eventually forming an elliptical granule of recrystallized ice approximately 1 millimeter in diameter. The accumulation of these particles packed together is called firn, or névé. With repeated annual deposits, the loosely packed névé granules are compressed by the weight of the overlying snow. Meltwater, which results from daily temperature fluctuations and the pressure of the overlying snow, seeps through the pore spaces between the grains; when it freezes, it adds to the recrystallization process. Most of the air in the pore spaces is driven out. When the ice reaches a thickness of approximately 60 meters, it can no longer supports its own weight and yields to plastic flow.