Glacial Movements: Understanding Glacial Creep and Glacial Sliding
What are the differences between glacial creep and glacial sliding?
1. What causes glacial creep to occur?
2. How does glacial sliding differ from glacial creep?
Answers:
1. Glacial creep is caused by the internal deformation of ice crystals under the immense pressure of the glacier's weight.
2. Glacial sliding, on the other hand, is facilitated by the presence of a lubricating layer of meltwater between the glacier's base and the underlying bedrock.
Glacial creep and glacial sliding are two distinct mechanisms through which glaciers move, each with its unique characteristics and implications for glacier dynamics.
Glacial creep occurs when the internal deformation of ice crystals causes the glacier to slowly move downhill. This gradual movement is a result of the plastic nature of ice crystals near the base of the glacier, allowing them to slide past one another over time under high pressure and stress. Glacial creep is most significant in the central and lower parts of the glacier, where pressure is at its peak.
Glacial sliding, on the other hand, happens when a lubricating layer of meltwater forms between the glacier's base and the underlying bedrock. This layer reduces friction, enabling the glacier to slide more rapidly over the surface. Glacial sliding tends to occur in areas with smoother bedrock or where meltwater accumulates, facilitating faster movement.
Both glacial creep and glacial sliding play crucial roles in the flow of glaciers, influencing their shape, speed, and impact on the landscape. By understanding these mechanisms, scientists can gain insights into the complex dynamics of glacier movement and their contribution to shaping our Earth's surface.