According to a new report from the United Nations International Resource Panel (IRP) without altering current levels of water consumption and pollution, almost half of the world’s population will suffer severe water stress by 2030, damaging the well being of millions of people.
The report, entitled Policy Options for Decoupling Economic Growth from Water Use and Water Pollution, finds that as the global population rises, increased urbanisation, climate change and a shift in how food is consumed are likely to dramatically increase future demand for water.
As a result governments will be forced to spend US$200 billion a year on upstream water supply as demand outstrips cheaper forms of supply, up from historic averages of US$40bn to US$45bn.
Achim Steiner, Executive Director of the United Nations Environment Program (UNEP), said: “Reliable access to clean water is a cornerstone of sustainable development.
“When clean water is consistently unavailable, the world’s poorest must spend much of their disposable income buying it, or a large amount of time transporting it, which limits development.
“And since only half of one per cent of the world’s freshwater is available for the needs of both humanity and ecosystems, we will need to do more and better with less if we are to ensure healthy ecosystems, healthy populations and economic development.”
The UNEP-hosted IRP, a consortium of 27 internationally renowned scientists, 33 national governments and other groups, said that in sub-Saharan Africa, a region struggling to cope with the impacts of climate change and poverty, water demand was expected to rise by 283 per cent over 2005 levels by 2030.
Some countries have already proven that decoupling water use from economic growth is possible.
For example, in Australia, water consumption declined by 40 per cent between 2001 and 2009 while the economy grew by more than 30 per cent.
For example, the agricultural sector accounts for 70 per cent of all global freshwater withdrawals.
As the global population increases, agriculture will exert growing pressure on water resources.
However, in India, the expected gap between water supply and demand could be reduced by up to 80 per cent if techniques such as crop rotation, mulch and organic fertiliser are used and improved to increase crop yields.
In South Africa, the gap between water supply and demand is up to 2970 million cubic metres.
By improving water productivity, the country could save US$150 million a year by 2030.
In urban centres around the world, about 100 billion to 120 billion cubic metres of water could be saved in 2030 by reducing leaks in the supply of bulk water in commercial, residential and public premises.
Despite the importance of water, many countries have a “mixed track record” in managing their water resources, the report said.
Governments have tended to invest heavily in mega-projects like dams, canals, aqueducts, pipelines and water reservoirs, the report says.
The most cost-effective way of achieving water decoupling, according to the report, is for governments to create holistic water management plans that take into account the entire water cycle: from source to distribution, economic use, treatment, recycling, reuse and return to the environment.
“Inherent complexities, uncertainties and ignorance still limit current understanding of hydrological cycles and the complex relationships of water with other sectors.”
Specifically, to achieve water decoupling, the IRP recommends:
- Investing more in research and development to improve technology that reduces water waste;
Building sustainable infrastructure to improve the efficiency of water use and eliminate water contamination and pollution;
- Introducing policies to curb water demand and re-allocate water to sectors where it produces goods and services most beneficial to society while ensuring vulnerable groups are protected;
- Strengthening research into the value of ecosystem services and water to human welfare and economic development.
- Doing more to assess “virtual water” (the water used to manufacture goods that are traded internationally), water footprints and related impacts to better understand how international trade patterns could be used to support decoupling where it is most needed.
The full report can be found here.