This topic explores the physical processes that shape glaciated upland landscapes, including the role of glacial erosion, transport, and deposition, as wel
Topic Synopsis
This topic explores the physical processes that shape glaciated upland landscapes, including the role of glacial erosion, transport, and deposition, as well as the impact of weathering and mass movement on relict landscapes. It also examines how human activities interact with these environments and the significance of specific UK glaciated upland locations.
Key Concepts & Core Principles
- Glacial erosion processes: plucking (ice freezes onto rock and pulls it away) and abrasion (rock fragments embedded in ice scrape the bedrock like sandpaper).
- Freeze-thaw weathering: water in cracks freezes and expands, breaking rock into angular fragments that become tools for abrasion.
- Landforms of erosion: corries (armchair-shaped hollows with steep backwalls), arêtes (narrow ridges between two corries), pyramidal peaks (e.g., Mount Snowdon), U-shaped valleys (wide, flat-floored valleys with steep sides), and hanging valleys (tributary valleys left high above the main valley floor).
- Glacial transportation: material is carried on, within, or beneath the ice (supraglacial, englacial, subglacial), and is deposited when ice melts.
- Landforms of deposition: moraines (terminal, lateral, medial, ground), drumlins (elongated hills shaped by ice flow), and erratics (large boulders transported far from their source).
Exam Tips & Revision Strategies
- Use annotated diagrams to explain the formation of landforms like corries or drumlins.
- Ensure you can link specific weather conditions (e.g., freeze-thaw) to the physical processes occurring today.
- Be prepared to use 1:25000 and 1:50000 OS maps to identify glaciated landforms.
- When discussing human activity, always consider both the advantages and disadvantages of developments like tourism or renewable energy.
- Use GIS and OS maps to investigate the impact of human intervention as specified in the integrated skills.
Common Misconceptions & Mistakes to Avoid
- Confusing erosional landforms with depositional landforms.
- Failing to link current physical processes (like freeze-thaw) to the relict landscape.
- Neglecting the role of human activity in shaping or managing these landscapes.
- Inaccurate use of terminology regarding glacial transport and erosion.
- Lack of specific detail when discussing the named UK glaciated upland case study.
Examiner Marking Points
- Glacial processes: plucking, abrasion, transport (on/within ice), and deposition.
- Physical processes on relict landscapes: mechanical weathering (freeze-thaw), mass movement (soil movement, rock falls/slides).
- Impact of climate: how past climate and current UK weather (seasonal/diurnal variations) affect processes.
- Glacial erosional landforms: truncated spurs, corries, glacial troughs, glacial lake/tarns, arêtes, hanging valleys, roche moutonnées.
- Glacial depositional landforms: ground and terminal moraines.
- Interaction landforms: crag and tail, drumlins.
- Human activity impacts: farming, forestry, settlement.
- Development impacts: water storage/supply, renewable energy, recreation/tourism, conservation.