5 Must Know Facts For Your Next Test

1. Basal sliding can account for up to 90% of a glacier's movement in certain conditions, especially when meltwater is abundant.
2. The rate of basal sliding can vary significantly based on seasonal changes, with increased melting during warmer months leading to faster glacial movement.
3. Pressure at the base of the glacier causes the ice to melt slightly, creating a layer of water that acts as a lubricant.
4. Basal sliding affects the landscape through erosion processes, carving out valleys and shaping landforms like fjords.
5. The study of basal sliding helps scientists predict glacier behavior in response to climate change, as warmer temperatures increase meltwater availability.

Review Questions

• How does basal sliding influence the overall movement of glaciers and what factors contribute to this process?
  • Basal sliding significantly impacts glacier movement by allowing it to glide over its base rather than just deforming internally. This process is primarily driven by factors such as temperature and pressure. When temperatures rise, pressure at the base can cause melting, generating water that reduces friction and facilitates easier movement. The presence of subglacial meltwater is crucial in this dynamic, enhancing the speed and flow of glaciers.
• Evaluate the relationship between basal sliding and glacial erosion, particularly in terms of landform development.
  • Basal sliding plays a pivotal role in glacial erosion, as it allows glaciers to exert greater force on their bedrock. This enhanced movement enables glaciers to carve out valleys and create various landforms, such as U-shaped valleys and fjords. The sediment and debris picked up during this process accumulate into features like moraines. Therefore, understanding basal sliding is essential for comprehending how glaciers shape landscapes over time.
• Synthesize how changes in climate may affect basal sliding and subsequently influence glacial dynamics and landform evolution.
  • Climate change has the potential to dramatically alter basal sliding by increasing temperatures, which leads to enhanced meltwater production at the base of glaciers. This increased lubrication can cause glaciers to move faster, thereby accelerating erosion processes and reshaping landforms more quickly than under stable conditions. The interplay between warming temperatures, basal sliding, and glacial dynamics is critical for predicting future landscape changes as glaciers respond to ongoing climatic shifts.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.