Water crisis

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Deforestation of the Madagascar Highland Plateau has led to extensive siltation and unstable flows of western rivers.
Deforestation of the Madagascar Highland Plateau has led to extensive siltation and unstable flows of western rivers.

Water Crisis is a term that refers to the status of the world’s water resources relative to human demand. The term has been applied to the worldwide water situation by the United Nations and other world organizations.[1][2] The major aspects of the water crisis are overall scarcity of usable water[3] and water pollution.

The Earth has a finite supply of fresh water, stored in aquifers, surface waters and the atmosphere. Sometimes oceans are mistaken for available water, but the amount of energy needed to convert saline water to potable water is prohibitive today, explaining why only a very small fraction of the world's water supply derives from desalination.[4]

There are several principal manifestations of the water crisis.

Waterborne diseases and the absence of sanitary domestic water are one of the leading causes of death worldwide. For children under age five, waterborne diseases are the leading cause of death. At any given time, half of the world's hospital beds are occupied by patients suffering from waterborne diseases.[6] According to the World Bank, 88 percent of all diseases are caused by unsafe drinking water, inadequate sanitation and poor hygiene.[7]


Historically the manifestations of the water crisis have been less pronounced, but 20th century levels of human overpopulation have revealed the limited quantity of fresh water. Drought dramatizes the underlying tenuous balance of safe water supply, but it is the imprudent actions of humans that have rendered the human population vulnerable to the devastation of major droughts.

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[edit] Health impacts of the water crisis

Sewage treatment plant whose effluent is used to create the Wonga Wetlands, Australia.
Sewage treatment plant whose effluent is used to create the Wonga Wetlands, Australia.

Not only are there 1.1 billion without adequate drinking water, but the United Nations acknowledges 2.6 billion people are without adequate water for sanitation (e.g. wastewater disposal). The issues are coupled, since, without water for sewage disposal, cross-contamination of drinking water by untreated sewage is the chief adverse outcome of inadequate safe water supply. Consequently, disease and significant deaths arise from people using contaminated water supplies; these effects are particularly pronounced for children in underdeveloped countries, where 3900 children per day die of diarrhea alone[8].

While these deaths are generally considered preventable, the situation is considerably more complex, since the Earth is beyond its carrying capacity with respect to available fresh water[9]. Often technology is advanced as a panacea, but the costs of technology presently exclude a number of countries from availing themselves of these solutions. If lesser developed countries acquire more wealth, partial mitigation will occur, but sustainable solutions must involve each region in balancing population to water resource and in managing water resources more optimally. In any case the finite nature of the water resource must be acknowledged if the world is to achieve a better balance.

[edit] Damage to biodiversity

Santa Cruz Long-toed Salamander, a species endangered by freshwater habitat reduction by man.
Santa Cruz Long-toed Salamander, a species endangered by freshwater habitat reduction by man.

Vegetation and wildlife are fundamentally dependent upon adequate freshwater resources. Marshes, bogs and riparian zones are more obviously dependent upon sustainable water supply, but forests and other upland ecosystems are equally at risk of significant productivity changes as water availability is diminished. In the case of wetlands, considerable area has been simply taken from wildlife use to feed and house the expanding human population. But other areas have suffered reduced productivity from gradual diminishing of freshwater inflow, as upstream sources are diverted for human use. In seven states of the U.S. over 80 percent of all historic wetlands were filled[10] by the 1980s, when Congress acted to create a “no net loss” of wetlands.

In Europe extensive loss of wetlands has also occurred with resulting loss of biodiversity. For example many bogs in Scotland have been drained or developed through human population expansion. One example is the Portlethen Moss in Aberdeenshire, that has been over half lost, and a number of species which inhabited this moss are no longer present such as the Great Crested Newt.

On Madagascar’s central highland plateau, a massive transformation occurred that eliminated virtually all the heavily forested vegetation in the period 1970 to 2000. The slash and burn agriculture eliminated about ten percent of the total country’s native biomass and converted it to a barren wasteland. These effects were from overpopulation and the necessity to feed poor indigenous peoples, but the adverse effects included widspread gully erosion that in turn produced heavily silted rivers that “run red” decades after the deforestation. This eliminated a large amount of usable fresh water and also destroyed much of the riverine ecosystems of several large west-flowing rivers. Several fish species have been driven to the edge of extinction and some coral reef formations in the Indian Ocean are effectively lost.

[edit] Water politics

Main article: Water politics

There are approximately 260 different river systems worldwide, where conflicts exist crossing national boundaries. While Helsinki Rules help to interpret intrinsic water rights among countries, there are some conflicts so bitter or so related to basic survival that strife and even warfare are inevitable. In many cases water use disputes are merely an added dimension to underlying border tensions founded on other bases.

The Tigris-Euphrates River System is one example where differing national interests and withdrawal rights have been in conflict. The countries of Iran, Iraq and Syria each present valid claims of certain water use, but the total demands on the riverine system surpass the physical constraints of water availability.[11] As early as 1974 Iraq massed troops on the Syrian border and threatened to destroy Syria’s al-Thawra dam on the Euphrates.[12]

In 1992 Hungary and Czechoslovakia took a dispute over Danube River water diversions and dam construction to the International Court of Justice. This case represents a minority of disputes where logic and jurisprudence may be the path of dispute resolution. Other conflicts involving North and South Korea, Israel and Palestine, Egypt and Ethiopia, may prove more difficult tests of negotiation.

[edit] Overview of regions suffering crisis impacts

There are many other countries of the world that are severely impacted with regard to human health and inadequate drinking water. The following is a partial list of some of the countries with significant populations (numerical population of affected population listed) whose only consumption is of contaminated water [1]:

According to the California Department of Water Resources, if more supplies aren’t found by 2020, the region will face a shortfall nearly as great as the amount consumed today. Los Angeles is a coastal desert able to support at most 1 million people on its own water; the Los Angeles basin now is the core of a megacity that spans 220 miles (350 km) from Santa Barbara to the Mexican border. The region’s population is expected to reach 22 million by 2020. The population of California continues to grow by more than a half million a year and is expected to reach 48 million in 2030. But water shortage is likely to surface well before then.[13]

Water deficits, which are already spurring heavy grain imports in numerous smaller countries, may soon do the same in larger countries, such as China and India.[14] The water tables are falling in scores of countries (including Northern China, the US, and India) due to widespread overpumping using powerful diesel and electric pumps. Other countries affected include Pakistan, Iran, and Mexico. This will eventually lead to water scarcity and cutbacks in grain harvest. Even with the overpumping of its aquifers, China is developing a grain deficit. When this happens, it will almost certainly drive grain prices upward. Most of the 3 billion people projected to be added worldwide by mid-century will be born in countries already experiencing water shortages. Unless population growth can be slowed quickly by investing heavily in female literacy and family planning services, there may not be a humane solution to the emerging world water shortage.[15][16][17]

After China and India, there is a second tier of smaller countries with large water deficits — Algeria, Egypt, Iran, Mexico, and Pakistan. Four of these already import a large share of their grain. Only Pakistan remains self-sufficient. But with a population expanding by 4 million a year, it will also likely soon turn to the world market for grain.[18]

According to a UN climate report, the Himalayan glaciers that are the sources of Asia's biggest rivers - Ganges, Indus, Brahmaputra, Yangtze, Mekong, Salween and Yellow - could disappear by 2035 as temperatures rise.[19] Approximately 2.4 billion people live in the drainage basin of the Himalayan rivers.[20] India, China, Pakistan, Bangladesh, Nepal and Myanmar could experience floods followed by droughts in coming decades. In India alone, the Ganges provides water for drinking and farming for more than 500 million people.[21][22][23]

[edit] Outlook

Wind and solar power such as this installation in a village in northwest Madagascar can make a difference in safe water supply.
Wind and solar power such as this installation in a village in northwest Madagascar can make a difference in safe water supply.

Year 2025 forecasts state that two thirds of the world population will be without safe drinking water and basic sanitation services. Construction of wastewater treatment plants and reduction of groundwater overdrafting appear to be obvious solutions to the worldwide problem; however, a deeper look reveals more fundamental issues in play. Wastewater treatment is highly capital intensive, restricting access to this technology in some regions; furthermore the rapid increase in population of many countries makes this a race that is difficult to win. As if those factors are not daunting enough, one must consider the enormous costs and skill sets involved to maintain wastewater treatment plants even if they are successfully developed.

Reduction in groundwater overdrafting is usually politically very unpopular and has major economic impacts to farmers; moreover, this strategy will necessarily reduce crop output, which is something the world can ill afford, given the population level at present.

At more realistic levels, developing countries can strive to achieve primary wastewater treatment or secure septic systems, and carefully analyse wastewater outfall design to miminise impacts to drinking water and to ecosystems. Developed countries can not only share technology better, including cost-effective wastewater and water treatment systems but also in hydrological transport modeling. At the individual level, people in developed countries can look inward and reduce overconsumption, which further strains worldwide water consumption. Both developed and developing countries can increase protection of ecosytems, especially wetlands and riparian zones. These measures will not only conserve biota, but also render more effective the natural water cycle flushing and transport that make water systems more healthy for humans.

[edit] Desalination

As new technological innovations continue to reduce the capital cost of desalination, more countries are building desalination plants as a small element in addressing their water crises [2], [3].

Nuclear power is one way to provide the energy for desalination. [14], [15], [16], [17].

However, given the energy intensive nature of desalination, with associated economic and environmental costs, desalination is generally considered a last resort after water conservation.

[edit] Global experiences in managing water crisis

It is alleged that the likelihood of conflict rises if the rate of change within the basin exceeds the capacity of institution to absorb that change [28] Although water crisis is closely related to regional tensions, history showed that the 37 records of acute conflict over water are far less than the record of cooperation. In the last 50 years 157 treaties were signed, 1,288 crises turned out to be a co-operative opportunities.

The key lies in strong institutions and cooperation. The Indus River Commission and the Indus Water Treaty survived two wars between India and Pakistan despite their hostility, and was proved to be a successful mechanism in resolving conflicts by providing a framework for consultation, inspection and exchange of data.The Mekong Committee has also functioned since 1957 and it survived the Vietnam War. In contrast, regional instability resulted when there is an absence of institutions to co-operate regional collaboration, like Egypt’s plan for a high dam on the Nile. However, there is currently no global institution in place for the management and management of transboundary water sources, and international co-operation had happened through ad hoc collaborations between agencies, like Mekong Committee was formed due to alliance between UNECAFE and US Bureau of Reclamation. Formation of strong international institutions seems to be a way forward: They fuel early intervention and management, preventing the costly dispute resolution process.

One common feature of almost all disputes resolved is that the negotiations had a “need-based” instead of a “right –based” paradigm. Irrigable lands, population, technicalities of projects define "needs". The success of a need-based paradigm is reflected in the only water agreement ever negotiated in the Jordan River Basin, it focuses in needs not on rights of riparians. In the Indian subcontinent, irrigation requirements of Bangladesh determine water allocations of The Ganges River. A need based, regional approach focuses on satisfying individuals with their need of water, ensures that minimum quantitative needs are being met. It removes the conflict that arises when countries view the treaty from a national interest point of view, move away from the zero-sum approach to a positive sum, integrative approach that equitably allocated the water and its benefits[29].

[edit] See also

[edit] Water-related problems

[edit] Demographic problems

[edit] Cases of water crisis

[edit] Other

[edit] References

  1. ^ United Nations statement on water crisis
  2. ^ UN World Summit on Sustainable Development addresses the water crisis
  3. ^ Freshwater: lifeblood of the planet
  4. ^ World Energy Outlook 2005: Middle East and North Africa Insights, International Energy Agency, Paris (2005)
  5. ^ Water is Life - Groundwater drawdown
  6. ^ WaterPartners International: Learn about the Water Crisis
  7. ^ All About: Water and Health, CNN, December 18, 2007
  8. ^ NRDC: The United Nations World Summit on Sustainable Development - Safe Water and Sanitation for the Developing World
  9. ^ Lester R. Brown, Plan B 2.0, W.W. Norton & Co, New York (2006) ISBN 0-393-32831-7
  10. ^ William J. Mitsch, James G. Gosselink Wetlands,
  11. ^ Nurit Klio, Water Resources and Conflict in the Middle East, Routledge, Oxfordshire, England (2001)
  12. ^ Contested Environments. edited by Nick Bingham, Andrew Blowers, Chris Belshaw, John Wiley and sons, Chichester, UK (2003)
  13. ^ U.S. Water Supply
  14. ^ India grows a grain crisis
  15. ^ Water Scarcity Crossing National Borders
  16. ^ Water Shortages May Cause Food Shortages
  17. ^ Yemen's Capital Facing Water Shortage Due to Rapid Increase in Population
  18. ^ The Food Bubble Economy
  19. ^ Vanishing Himalayan Glaciers Threaten a Billion
  20. ^ Big melt threatens millions, says UN
  21. ^ Ganges, Indus may not survive: climatologists
  22. ^ Glaciers melting at alarming speed
  23. ^ Himalaya glaciers melt unnoticed

[edit] External links