Water scarcity in Iran explained

Water scarcity in Iran is caused by high climatic variability, uneven distribution of water, over exploitation of available water resources,and prioritization of economic development.[1] [2] Water scarcity in Iran is further exacerbated by climate change.

Water scarcity can be a result of two mechanisms: physical (absolute) water scarcity and economic water scarcity, where physical water scarcity is a result of inadequate natural water resources to supply a region's demand, and economic water scarcity is a result of poor management of the sufficient available water resources.

Rainfall is highly seasonal, which led to the government building dams to ensure a more consistent water supply. Despite this, water availability has declined since the 20th century whilst demand has increased. By the 2010s, authorities and the United Nations were describing it as a crisis and it contributed to protests in the country.

Background

Background[3] [4]
Land Area1,531,595 sq km
Water Area116,600 sq km
Geographic Coordinates32.00 N 53.00 E
ClimateMostly arid or semiarid, subtropical along Caspian coast
Irrigated Land95,539 sq km
Population83,024,745
GDP (per capita)$20,100
Internal renewable water resources89 BCM(Billion Cubic meters)
Drinking Water SourceImproved: 96.2%Unimproved: 3.8%
Sanitation Facility AccessImproved: 90%Unimproved: 10%

Climate

Rainfall in Iran is highly seasonal with a rainy season between October and March that leaves the land extremely dry for the remainder of the year. Immense seasonal variations in flow characterize Iran's rivers. For example, the Karun River in Khuzestan carries water during periods of maximum flow that is ten times the amount borne in dry periods. In numerous localities, there may be no precipitation until sudden storms, accompanied by heavy rains, dump almost the entire year's rainfall in a few days. Water shortages are compounded by the unequal distribution of water. Near the Caspian Sea, rainfall averages about per year, but in the Central Plateau and in the lowlands to the south it seldom exceeds .[5] Iran's susceptibility to high variation in temperature and precipitation has led to the creation of dams and reservoirs to regulate and create a more stable water flow throughout the country.

Climate change

See main article: Climate change in Iran. Iran is expected to have a mean temperature increase of 2.6 °C and a 35% decrease in precipitation within the next few decades.[6] This could potentially exacerbate current drought and crop production issues.

Drought

Iran is an arid and drought prone country with increasing vulnerability to this natural hazard. Water scarcity and drought issues are among the biggest challenges facing the country.The severity of drought episodes during 1999 to 2001 was immense as it affected to varying degrees 26 provinces and over half the population of the country.[7]

Environmental Challenges

Environmental issues such as decreasing rainfall, low precipitation levels due to climate change have aggravated Iran's water scarcity in recent years. In 2017 precipitation levels decreased by 25 percent, felt even in historically water-rich areas in the country's north and northwestern areas. This has contributed to the reported reduction of water entering Iran's dams by 33 percent, from 32 billion cubic meters (BCM) of surface water in 2017 to 25 BCM in 2018.[8]

Water resources

Water availability

Internal renewable water resources are estimated at 89 billion cubic meters (BCM)/year[9] As a result of previous droughts and overexploitation of available water resources, the per capita water availability has been reduced to 1100 m3/year today with 85 million inhabitants .Surface runoff represents a total of 97.3 BCM/year, of which 5.4 BCM/year comes from drainage of the aquifers and thus needs to be subtracted from the total. Groundwater recharge is estimated at 49.3 BCM/year, of which 12.7 BCM/year is obtained from infiltration in the river bed and also needs to be subtracted. Iran receives 6.7 BCM/year of surface water from Pakistan and some water from Afghanistan through the Helmand River. The flow of the Arax river, at the border with Azerbaijan, is estimated at 4.6 BCM/year. The surface runoff to the sea and to other countries is estimated at 55.9 BCM/year.[10] [11] Per capita, water availability in the pre-Islamic Revolution era was about 4,500 cubic meters. In 2009, this figure was less than 2,000 cubic meters.[12]

Water usage

The total water withdrawal was estimated at 70 BCM in 1993, rising to 96 BCM in 2018,[13] of which 92% was used for agricultural purposes, 6% for domestic use and 2% for industrial use. Although this is equal to 51% of the actual available renewable water resources, annual abstraction from aquifers (57 BCM in 1993, 53 BCM in 2004) is already more than the estimated safe yield (46 BCM). Of the 4.3 BCM/year in 1993 (6.2 in 2004) used for domestic purposes, 61% is supplied from surface water and 39% from groundwater.[14] For example, Greater Tehran with its population of more than 13 million is supplied by surface water from the Lar dam on the Lar River in the Northeast of the city, the Latyan dam on the Jajrood River in the North, the Karaj River in the Northwest, as well as by groundwater in the vicinity of the city. Provinces of Gilan, Mazandaran and Isfahan have the highest efficiency of irrigation with 54, 52 and 42 percents respectively, and Khuzestan province has the lowest irrigation efficiency with 38 percent. Tap water consumption in the country is 70% over and above the global average.[15] 16 BCM of water was used for power generation in 1999.

As of 2014, Iran is using 70% of its total renewable freshwater, far above the upper limit of 40% recommended according to international norms.[16]

The Qanats

About 2,500 years ago, Iranians invented a number of ways to use groundwater, including a water management system called qanat. The qanats, which are still used today, are a series of underground tunnels and wells that transport underground water to the surface. They supply about 7.6 billion cubic meters or 15% of the country's total water needs and play an important role in advanced water harvesting. However, many of these systems have been abandoned and replaced by other methods over the past few decades, mainly due to socio-economic conditions and changing water extraction technology. In addition, the drilling of deeper and shallower wells has damaged the quality of groundwater, especially in the coastal area of the Central Plain of Iran, which has consequences for the environment, people, and economy of Iran. Therefore, it is necessary to recommend and implement methods to increase the efficiency of qanats to achieve sustainable development in water resources management.

Water pollution

Water pollution is caused by industrial and municipal wastewater, as well as by agriculture. Concerning municipal wastewater, the bulk of collected sewage is discharged untreated and constitutes a major source of groundwater pollution and a risk to public health. In a number of cities without sanitary sewerage, households discharge their sewage through open rainwater drains.[17]

Infrastructure

Most drinking water in Iran is supplied through modern infrastructure, such as dams, reservoirs, long-distance transmission pipelines—some of which are more than long—and deep wells. An estimated 60,000 traditional Karez (کاریز) systems in the plateau regions of Iran in Yazd, Khorasan and Kerman—are still in use today for irrigation and drinking water supply in rural areas and small towns. The oldest and largest known Karez is in the Iranian city of Gonabad which after 2700 years still provides drinking and agricultural water to nearly 40,000 people. Its main well depth is more than 360m (1,180feet) and its length is . It is estimated that there are as many as 500,000 deep and shallow wells in the country.[18] There are 42 large dams under operation in Iran with a combined storage capacity of 33 BCM/year. These dams lose about 200 million cubic meters of storage capacity every year due to sedimentation (0.5–0.75% of their storage capacity). Most dams are multi-purpose dams for hydropower, irrigation, flood control and—in some cases—drinking water supply.[19]

Political climate

In December 2013, Hamid Chitchian, head of the Ministry of Energy, which is in charge of regulating the water sector—stated that the sector's situation had reached "critical levels". He correctly established that past approaches, which mainly focused on constructing dams and trying to increase the storage capacity, would no longer be appropriate remedies. In fact, total storage capacity behind the country's many dams amounts to 68 billion cubic meters, whereas the water potential of the country's rivers totals 46 billion cubic meters per annum.[20]

In July 2013, Issa Kalantari, the Minister of Agricultural under president Hashemi Rafsanjani, told Ghanoon newspaper that the water crisis is the "main problem that threatens" Iran, adding that it is more dangerous "than Israel, USA or political fighting among the Iranian elite". If the water issue is not addressed, Iran could become "uninhabitable". If this situation is not reformed, in 30 years Iran will be a ghost town. Even if there is precipitation in the desert, there will be no yield, because the area for groundwater will be dried and water will remain at ground level and evaporate."[21]

A 2017 United Nations report stated that "Water shortages are acute; agricultural livelihoods no longer sufficient. With few other options, many people have left, choosing uncertain futures as migrants in search of work".

Protests

Some analysts believe the water crisis may have been a significant contributor to the protests around January 2018. At least five protesters were allegedly shot in January 2018 in Qahderijan, where water rights were reportedly the main grievances., small and intermittent water protests have continued to occur in some rural areas.[22] [23] In July 2021, people in Khuzestan Province took to the streets to protest water shortages.[24]

There have been massive protests in Susengerd, a city of 120,000 people and the industrial city of Shush (ancient Shush). There were also demonstrations in the city of Ahvaz, the capital of Khuzestan, and dozens of other places.[25]

Since holding demonstrations against the water shortage crisis in Iran in the summer of 2021, the government has become extremely defenseless against the water shortage and has faced internal tensions and pressures.[26]

See also

Notes and References

  1. Madani . Kaveh . 2014-12-01 . Water management in Iran: what is causing the looming crisis? . Journal of Environmental Studies and Sciences . en . 4 . 4 . 315–328 . 10.1007/s13412-014-0182-z . 2190-6491.
  2. Madani, Kaveh. "Water management in Iran: what is causing the looming crisis?." Journal of environmental studies and sciences 4.4 (2014): 315-328.
  3. Web site: Middle East :: Iran — The World Factbook - Central Intelligence Agency. www.cia.gov. 2019-11-13.
  4. Web site: ایران - Wikimedia Commons. commons.wikimedia.org. en. 2019-11-13.
  5. [Helen Chapin Metz]
  6. Mansouri Daneshvar. Mohammad Reza. Ebrahimi. Majid. Nejadsoleymani. Hamid. 2019-03-01. An overview of climate change in Iran: facts and statistics. Environmental Systems Research. en. 8. 1. 7. 10.1186/s40068-019-0135-3. 2193-2697. free.
  7. Morid . Saeid . Smakhtin . Vladimir . Moghaddasi . Mahnosh . 2006-06-15 . Comparison of seven meteorological indices for drought monitoring in Iran . International Journal of Climatology . en . 26 . 7 . 971–985 . 10.1002/joc.1264 . 0899-8418.
  8. Web site: Iran's Water Problem .
  9. Web site: Iran Daily . 21 February 2010.
  10. Web site: Natural Resources and Environment: Land and Water Division.
  11. Web site: World Resources Institute:Water Resources and Freshwater Ecosystems COUNTRY PROFILE - Iran.
  12. Web site: Food Security Index at 96%. Sadeq Dehqan. Iran Daily. https://web.archive.org/web/20090502233616/http://www.iran-daily.com/1387/3323/html/economy.htm. 2 May 2009.
  13. Web site: AQUASTAT: Iran (Islamic Republic of). https://web.archive.org/web/20110604185917/http://www.fao.org/nr/water/aquastat/countries_regions/iran/index.stm. 4 June 2011.
  14. Seyed Ali Mamoudian, Secretary of the IWA National Committee for Iran: "Iran. Water and wastewater management across the country", IWA Yearbook 2008, p. 28
  15. [Kayhan]
  16. Bijan Rouhani & Fatema Soudavar Farmanfarmaian:Iran's Imperiled Environment, Payvand News, January 2014
  17. http://www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2005/05/09/000090341_20050509132811/Rendered/PDF/31984.pdf World Bank: Northern Cities Water Supply and Sanitation Project
  18. https://www.un.org/esa/agenda21/natlinfo/countr/iran/Iranwatersanitf.pdf United Nations:Freshwater and Sanitation Country Profile - The Islamic Republic of Iran
  19. http://www.waser.cn/news%20and%20announcements/waser%20Technical%20Sessions/Sedimentation%20in%20the%20Reservoir%20of%20Large%20Dams%20in1final.ppt Ministry of Energy, Water Research Institute:Sedimentation in the Reservoirs of Large Dams in Iran
  20. Web site: Iran sinks in water crisis. 3 May 2014. al-monitor.com.
  21. Web site: Iran's Water Crisis: A Bigger Threat Than Israel?. Zachary. Keck. The Diplomat. July 12, 2013.
  22. News: Sengupta. Somini. Warming, Water Crisis, Then Unrest: How Iran Fits an Alarming Pattern. 14 April 2018. The New York Times. 2018.
  23. News: Dehghanpisheh. Babak. Water crisis spurs protests in Iran. 14 April 2018. U.S.. Reuters.
  24. Web site: Protests In Iran's Oil-Rich Region Reignite For Third Consecutive Night. Iran International. 18 July 2021.
  25. Web site: 2021-07-18 . Protests In Iran's Oil-Rich Region Reignite For Third Consecutive Night . 2023-07-17 . Iran International . en.
  26. Web site: Water Insecurity: Iran's Formidable Threat . 2023-08-18 . The Washington Institute . en.