A Level Geography CCEA

This subject is broken down into 45 topics in 12 modules:

  1. Physical Geography 7 topics
  2. Human Geography 9 topics
  3. Fieldwork Skills and Techniques in Geography 3 topics
  4. Physical Processes, Landforms and Management: Plate Tectonics 3 topics
  5. Physical Processes, Landforms and Management: Tropical Ecosystems 3 topics
  6. Physical Processes, Landforms and Management: Dynamic Coastal Environments 3 topics
  7. Physical Processes, Landforms and Management: Climate Change 4 topics
  8. Processes and Issues in Human Geography: Cultural Geography 3 topics
  9. Processes and Issues in Human Geography: Planning for Sustainable Settlements 3 topics
  10. Processes and Issues in Human Geography: Ethnic Diversity 3 topics
  11. Processes and Issues in Human Geography: Tourism 3 topics
  12. Decision making in geography 1 topics
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  • 12
    modules
  • 45
    topics
  • 17,416
    words of revision content
  • 2+
    hours of audio lessons

This page was last modified on 28 September 2024.

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Geography

Physical Geography

Processes that shape fluvial environments

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Processes that shape fluvial environments

River Hydrology and Fluvial Processes

  • Important part of Hydrological Cycle is the drainage basin system: catchment area of a river from where it gets its water supply.
  • It includes inputs (precipitation), outputs (evaporation, transpiration), flows (surface run-off, throughflow), and storage (in soil, vegetation, lakes).
  • Throughflow and percolation are the movements of water within the soil and underlying rock layers.
  • The speed and amount of throughflow and percolation depend on the soil and rock type.

Channel Formation and Development

  • River channels form through erosion, which wears away the bed and banks of the river.
  • Transportation is the process of eroded materials being carried along by the river.
  • Deposition occurs when the velocity of the river decreases and it no longer has enough energy to carry its load.

River Erosional Processes

  • Hydraulic action: the force of water hitting the river banks.
  • Abrasion/corrasion: Pebbles in the water scrape and wear away the river bed and banks.
  • Attrition: Material transported by the river collides and rubs together, becoming smaller and rounder.
  • Solution/corrosion: Certain types of rock are dissolved by the river's water.

River Transportation Processes

  • Traction: Larger stones and boulders rolled along the river bed.
  • Saltation: Small pebbles and stones are bounced along the river bed.
  • Suspension: Fine light material is carried along within the water.
  • Solution: dissolved minerals are carried within the water.

River Landforms

  • Interlocking spurs: In the upper course the river erodes the sides of the valley which creates distinctive 'zig-zag' landscape.
  • Waterfall: Formed when there is a layer of soft rock followed by hard rock, the soft rock erodes faster which creates a plunge pool at the base of the hard rock.
  • Meanders and Ox-bow lakes: Formed in the middle and lower course of the river where it has more energy and volume.
  • Floodplain and levees: Levees are formed when a river floods and the heaviest material is deposited closest to the river channel.

River Management and Flood Contingency

  • Hard engineering techniques like dams, levees, and floodwalls aim to physically prevent a river from flooding.
  • Soft engineering techniques involve working with nature to manage the flood risk. These are often more sustainable as they aim to increase the capacity of the river channel and the surrounding floodplain.

Case Studies

  • Understanding and explaining case studies of particular river systems, such as the River Severn in the UK or the Mississippi River in the USA, can deepen your understanding of how these processes occur in real-world scenarios.

Course material for Geography, module Physical Geography, topic Processes that shape fluvial environments

Geography

Physical Processes, Landforms and Management: Tropical Ecosystems

Management and sustainability in arid/semi-arid tropical ecosystems

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Management and sustainability in arid/semi-arid tropical ecosystems

Understanding Arid and Semi-Arid Tropical Ecosystems

  • Arid and semi-arid tropical ecosystems are primarily in regions of low rainfall, high evaporation rates, and often subject to drought conditions.
  • These environments include tropical desert and semi-desert biomes, found in parts of Africa, Americas, Asia and Australia.

Characteristics of Arid and Semi-Arid Tropical Ecosystems

  • These ecosystems maintain a delicate balance, with local flora and fauna adapted to survive under extreme temperature ranges and soil conditions without abundant moisture.
  • Vegetation in these regions is often sparse and well adapted to cope with water stress. Plants such as cacti and succulents store water in their tissues while shrubs and grasses have extensive root systems to seek out water.
  • Wildlife in these regions have also adapted to the harsh conditions, they may be nocturnal or have other specialised coping mechanisms to preserve water and protect against excessive heat.

Management Challenges in Arid and Semi-Arid Tropical Ecosystems

  • These ecosystems face several management challenges due to their fragile nature and susceptibility to disturbances. Human activities, including overgrazing, deforestation, poor farming practices and urbanisation, can degrade the land, leading to desertification.
  • Climate change and unsteady rainfall patterns can exacerbate these problems, making these ecosystems even more vulnerable and affecting their biodiversity.

Sustainability Strategies

  • Sustainable practices are vital for the preservation of arid and semi-arid tropical ecosystems. They revolve around the protection of biodiversity, prevention of land degradation and management of water resources.
  • Reforestation and afforestation: Introducing or promoting growth of native species can prevent soil erosion, enhance biodiversity, and help with carbon capture.
  • Sustainable farming practices: These include rotational farming, terracing, permaculture and use of drought resistant crops. Such practices improve soil fertility, maintain groundwater levels and reduce the risk of land and vegetation degradation.
  • Community-based management: Involving local communities in conservation actions can ensure that their needs and cultural values are considered in decision making. This can promote sustainable livelihoods while minimising the impact on the ecosystem.
  • Water management practices: These may include building water reservoirs, water recycling and implementing efficient irrigation methods. Such practices can maintain water levels necessary for local ecosystem balance.
  • Policies and legislation: Governments can enact laws and regulations to manage resource use and protect these ecosystems from over exploitation. They can also provide incentives for sustainable practices.

Understanding the unique characteristics and vulnerabilities of arid and semi-arid tropical ecosystems is crucial to inform effective management and sustainability strategies. This knowledge can help minimise the impact on these fragile environments and ensure their survival in the long term.

Course material for Geography, module Physical Processes, Landforms and Management: Tropical Ecosystems, topic Management and sustainability in arid/semi-arid tropical ecosystems

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