Water usage differs greatly from country to country, depending on how developed a nation is. Other influencing factors include agriculture and supply networks.
The global demand for water
The amount of water used in the world every day is very uneven. MEDCs use more water than LEDCs – households, farming and industry all demand water.
What is the water used for?
What the water is used for depends on the country. The pie charts below show the difference in water usage in four countries.
- In general LEDCs (like Bangaldesh and Malawi) will have most of their water used in agriculture (farming) and little in industry or domestic use. Bangladesh has farming as a large part of its economy so a large percentage of their water is used for that purpose.
- MEDCs (like the UK) have a more significant use of water for domestic reasons. MEDCs also tend to have a higher percentage for industrial use.
- There are exceptions. The USA is an MEDC, but it still has a high amount of water used for agriculture because there is also lot of farming across the country.
The amount of water used
The amount of water used per person in each country changes dramatically.
Why are there so many differences in the way water is used?
- In MEDCs irrigation is mechanised. Sprinklers or timed irrigation feeds are used. Where agriculture is common, vast amounts of water can be released at a touch of a button.
- In LEDCs irrigation channels are prone to loosing water through evaporation.
- Industries in MEDCs can be on a large scale, and so demand a lot of water. Corus Steelworks in South Wales is an example of an industry which needs a large water supply.
- LEDCs have smaller scale cottage industries. They demand less water in the production of items. However as more multinational companies locate in LEDCs there will be more demand on water. For example in India Coca-Cola uses over a million litres of water a day to produce drinks.
Domestic water use
- In MEDCs there are a lot of facilities which demand water use. For example showers, baths, washing machines and swimming pools.
- In LEDCs many people do not have access to piped water and so use it more sparingly. Water may be brought to the home from a well or stream.
As a country becomes more wealthy, there will be an increase in its demand for water. Higher levels of industrialisation and more domestic goods such as washing machines all lead to an increase in demand for water. With greater wealth there is also more demand for spas, golf courses and even baths and showers.
Management of water usage in MEDCs
There are problems in supplying water in MEDCs. These are:
- the quality of available water
- the seasonal changes in supply
- broken pipes when transporting water
Both water supply and the demand for water need to be managed.
Managing water supply
In the UK there is a big issue with water supply. Areas which receive high amounts of rainfall tend to be sparsely populated.
One third of the UK population live in South East England. This is also the driest area in the UK.
Ways to manage the water supply include:
- making sure the broken pipes are mended (as water loss from broken pipes can be as much as 30 per cent)
- using reservoirs and dams in one area to pipe water into large urban areas
- making sure that the water supply is of good quality – reducing fertiliser use on farms helps this
In December 2010 over 40,000 people had water supply problems in Northern Ireland. One reason was because the water pipes were quite old – some over 60 years old. This meant that when there was a spell of very cold weather, many pipes could not cope and the pipelines failed.
Managing water demand
The demand for domestic water can be monitored. Households with water meters in the UK use less water in general than those without. Households can also conserve water. Ways to do this are:
- having a shower not a bath
- collecting rainwater to use on the garden rather than tap water
- recycling bath water to flush the toilets with
- installing more efficient versions of appliances such as washing machines
Industries can also look to recycle waste water. For example, when using water for cooling in steel-making, the water can be recycled again and again in the process.
In agriculture, drip-feed irrigation systems could be used rather than sprinkler systems.
Management of water usage in LEDCs
There are problems in supplying water in LEDCs. These are:
- lack of availability of clean water
- diseases spread via the water supply
- water pollution
Managing water resources
One in eight people of the world population do not have access to safe water. Sixty million children are born each year in LEDCs who do not have access to safe water.
In LEDCs using appropriate technology is usually the best way to manage supply.
- Wells, dug by hand, are a common way of accessing water – but the supply can be unreliable and sometimes the well itself can be a source of disease.
- Gravity-fed schemes are used where there is a spring on a hillside. The water can be piped from the spring down to the villages.
- Boreholes can require more equipment to dig, but can be dug quickly and usually safely. They require a hand or diesel pump to bring the water to the surface.
In addition to locating new sources of water, some strategies help to reduce the need for water. These include:
- harvesting (collecting) rainwater landing on buildings
- recycling waste water to use on crops
- improving irrigation techniques
- growing crops less dependant on a high water supply
- minimizing evaporation of water
As LEDC cities grow, so does the demand for water. The problem doesn’t end when water supplies have been improved and pipes put in place. The water has got to come from somewhere, and the source of supply may be scarce.
Managing safe water
Without safe water people cannot lead healthy and productive lives. Areas which are in poverty are likely to remain in that way. One example where non-governmental charities have helped break this cycle is in Nigeria.
In Nigeria only 38 per cent of people have access to sanitation. A community led total sanitation project (CLTS) was started by one non-governmental charity. In one year, the project helped 2.5 million people gain access to sanitation. Areas with poor infrastructure, high rates of illness and poverty were identified, and the charity worked with the local population in these areas. The teams worked with the people and educated them as to how poor hygiene and sanitation can make people ill. This included how it can also make others in the community ill. Toilets were built using local, affordable materials. Key people in the community led the work.