av willwilliams Williams 12 år siden
13312
Mer som dette
A case study of international migration (eg asylum seekers and economic migrants to UK).
Managing migration — refugee and asylum-seeker issues: the case for controlling migration flows.
Types of migration (voluntary versus forced); the push-pull factors affecting migration.
Migration — a component of population change; international migration; net migration.
A case study of sustainable tourism (eg Galapagos, Bhutan).
A case study of a package holiday destination.
Attempts to make tourism more sustainable (eg ecotourism)
The impact of mass tourism on the environment, economy and people of destination areas.
The growth of global tourism and its causes (increased leisure, the package holiday, modern transport, marketing).
A case study of the global operations of a TNC or a TNC’s operations in one LIC.
TNCs: organisation; role as key players in the global economy; benefits and costs to countries hosting TNCs.
The global shift in manufacturing and the reasons for it (labour costs, resources, profiteering).
The rise of the global economy (growth of production and commodity chains) and the factors encouraging it (trade, foreign investment, aid, labour, modern transport and information technologies).
A case study of one named urban area in an HIC to explain how and why changes are taking place.
The roles of managers (planners, politicians, property developers and industrialists) in urban regeneration and re-imaging.
Areas of social deprivation and poverty in HIC cities: symptoms and locations. The changing fortunes of inner-city areas.
The nature of, and reasons for, the changes taking place at the edge of HIC cities (eg retail complexes, business parks and industrial estates). The ‘greenfield’ versus ‘brownfield’ debate.
A case study of shanty town management in a LIC city.
A case study of one city to show the land use patterns and the distribution of social/ethnic groups.
Land use transects plotting
Shanty towns (squatter communities): location, growth, problems and mitigating strategies (including self-help).
Reasons for, and consequences of, the segregation of different socioeconomic and ethnic groups.
Factors encouraging similar land uses to concentrate in particular parts of the urban area (eg locational needs, accessibility, land values).
Environmental quality survey
The problems associated with rapid urbanisation including congestion, transport, employment, crime and environmental quality.
The nature of urbanisation (including suburbanisation and counterurbanisation); the factors affecting the rate of urbanisation and the emergence of mega-cities.
Investigating peoples’ views on the use of renewable and nonrenewable energy
The relative merits of using renewable (eg wind, solar and nuclear power) versus non-renewable sources of energy (eg fossil fuels).
The concept of ‘precious’ energy and the need for energy efficiency.
The rising demand for energy and the energy gap.
Reasons for the location of factories or services
Case study of recent employment changes within an area of a HIC.
Case study of the factors affecting the development and location of one hightech industry.
Factors affecting the changing location of manufacturing (TNCs, raw materials, labour, new technology, government policy).
Factors affecting the location and growth of tertiary and quaternary activities (prosperity, new technology, accessibility, transport, government policy).
A comparative study of sectoral shifts in one HIC and one LIC.
Informal employment: characteristics and causes.
The relative importance of these economic sectors changes with development and varies between and within countries.
The classification of employment by sector: primary, secondary, tertiary and quaternary.
Surveying peoples’ views on the management of a hazard event
Case studies of the management of one tropical storm and one tectonic event. One of these should have happened in an LIC and the other in an HIC.
TROPICAL STORM + HIC = KATRINA
TECTONIC + LIC = PINATUBO
LONGER TERM
Responding to hazards: short-term (emergency aid and disaster relief); long-term (risk assessment, adjustment, improving prediction).
Predicting and preparing for hazards (education, early warning systems, shelters).
Managing hazards (tropical storms, volcanic eruptions and earthquakes) involves taking actions both before and after the event.
CASE STUDY
A comparative study of the impacts of tropical storms, in an LIC and an HIC.
Reasons why people continue to live in areas at risk from hazard events.
Identifying the scale of natural disasters and their short-term (deaths, injuries, damage to buildings and infrastructure) and longterm (homelessness, costs of repairing damage) impacts.
Collecting and recording weather data
Measuring and recording weather conditions, eg strong winds, intense rainfall.
The global distributions, causes and characteristics of tropical revolving storms, volcanic and earthquake activity (plate movements).
Different types of hazard (climatic, tectonic, etc).
Surveying peoples’ views on the management of pressured and/or retreating coastlines
CASE STUDIES
Case study of one stretch of retreating coastline.
Case study of a stretch of a coastline under pressure.
Case study of a located coral reef or a mangrove stand and its management.
Coasts as a natural system of interdependent places. Coastal retreat, flooding and natural processes. Coastal protection: soft and hard defences; management retreat. Different views on coastal protection.
Conflicts between different users of the coast and between development and conservation.
Coastal ecosystems are of value to people, but are threatened by tourism and other developments (industrialisation; agricultural practices; deforestation).
Factors affecting the distribution of coastal ecosystems.
Coastal ecosystems and biodiversity (coral reefs and mangroves).
FIELDWORK
Beach measurements, eg profiles and sediments
Role of geological structure, vegetation, people and sea-level change (estuaries and raised beaches).
Landforms: erosional (headlands and bays; cliffs; wave-cut platforms; caves; arches and stacks); depositional (beaches; spits; bars).
Depsoitional
Processes: marine (wave characteristics and erosion; longshore drift; wave deposition); sub-aerial (weathering; mass movement).