Date | November 2019 | Marks available | 4 | Reference code | 19N.2.bp.3 |
Level | SL and HL | Paper | 2 | Time zone | |
Command term | Explain | Question number | 3 | Adapted from | N/A |
Question
The map shows the weight, in kilograms (kg), of domestic electronic waste produced per person in Africa in 2014.
[Source: Baldé, C.P., Wang, F., Kuehr, R., Huisman, J. (2015), The global e-waste monitor – 2014,
United Nations University, IAS – SCYCLE, Bonn, Germany]
Describe the distribution of countries that produce more than 6kg of electronic waste per person.
Explain two reasons why some countries receive large international flows of consumer waste.
Reason 1:
Reason 2:
Suggest two implications of a warmer climate for the food security of places.
Implication 1:
Implication 2:
Markscheme
Award [1] for a comment related to the general distribution and [1] for specifics of location.
Possibilities include:
- general distribution – uneven, scattered, sparse, coastal
- specifics of location may include:
- Southern Africa – South Africa plus Botswana.
- West central Africa – Gabon plus Equatorial Guinea.
- Central north Africa – Libya.
In each case award [1] for identification of a valid reason with a further [1] for development/exemplification.
For example: Some low-income countries import waste because they receive money for it [1], eg Ghana is a low-income country and imports waste because valuable metals are found in it [1].
Other possibilities include:
- Environmental controls/policies.
- Costs of recycling.
- Lack of capacity for disposal or recycling in exporting countries.
- Demand for resources in importing countries – recovered metals.
- Use of waste as an energy source.
- Increasing awareness of the value of waste.
- Trade agreements between countries.
- Burn for power – eg Norway.
- More space to store the waste than countries that produce it – eg Singapore.
- Ocean currents.
- Fragile states with limited political/economic power.
In each case award [1] for identification of valid implication of a warmer climate with further [1] for development/exemplification linked to food security/food production.
For example: Warmer climates lead to extreme weather events, such as hurricanes [1], which can destroy crops and reduce food security [1].
Possibilities include:
- Long-term/gradual climate change risks, such as desertification, sea level rise, changing climatic belts, leading to changes in magnitude of crop production, salinization of soils, patterns of floods for irrigation.
- Access to food decreases because of increase in price – price increases because of food shortage in droughts.
- Slight increase in warming could increase the growing season, whereas a very large increase may result in reduced productivity.
- Temperature increase allows more agricultural output – increase in crop yields, changing limits of cultivation
- Income declines in agricultural sector – unable to access food.
- Spread of pests – changing climate means insects and fungi also spreading towards poles.
- Ocean acidification – acid oceans impact upon plankton, which is the basis of the food chain.
- Warmer temperatures lead to increased evaporation and possibly less water availability for crops.
- Warmer climates require more irrigation and/or increased efficiency of irrigation.