This article needs to be updated.(October 2020) |
Water and sanitation | ||
---|---|---|
Data | ||
Water coverage (broad definition) | Rural 80% (2006) urban 94% (2006) [1] | |
Sanitation coverage (broad definition) | Rural 74% (2002) urban 98% (2002) [2] | |
Continuity of supply | ||
Average urban water use (l/c/d) | ||
Average monthly urban water and sewer bill | ||
Share of household metering | n/a | |
Share of collected wastewater treated | n/a | |
Annual investment in WSS | n/a | |
Share of self-financing by utilities | n/a | |
Share of tax-financing | high | |
Share of external financing | low | |
Institutions | ||
Decentralization to municipalities | ||
National water and sanitation company | 14 water establishments | |
Water and sanitation regulator | Ministry of Water Resources (MOWR) | |
Responsibility for policy setting | Ministry of Water Resources (MOWR) | |
Sector law | Law No. 55 | |
Number of urban service providers | 14 water establishments in 13 governorates | |
Number of rural service providers | 14 water establishments in 13 governorates | |
Syria is a semi-arid country with scarce water resources. The largest water-consuming sector in Syria is agriculture. Domestic water use is only about 9% of total water use. [3] A big challenge for Syria is its high population growth, with a rapidly increasing demand for urban and industrial water. In 2006, the population of Syria was 19.4 million with a growth rate of 2.7%. [4]
Public water supply systems cover about 95% of the households in urban areas and about 80% in rural areas.
Drinking Water Supply [1]
Year | Urban | Rural |
---|---|---|
1996 | 95% | 71% |
2002 | 98% | 83% |
2006 | 94% | 80% |
In 2002 96% of all urban households were connected to a sewer system. Nearly half (46%) of rural house connections were connected to a pipe sewerage system in 2002. In 2002 about 30% of the rural households were connected to a pit latrine.
Improved Sanitation [2]
Year | Urban | Rural |
---|---|---|
1996 | 97% | 56% |
2002 | 98% | 75% |
All major cities - with the exception of Aleppo – and all rural distribution networks in the rural areas are supplied with water from springs and groundwater. Major water treatment facilities exist only for the domestic water supply system for Aleppo, which is provided with water from Lake Assad.
Most of the domestic water in Syria is supplied by groundwater, wells and springs. One exception is Aleppo city, which receives water for domestic use by pipelines from the Assad reservoir. [5] However, the city of Homs is supplied with surface water from the Orontes River through a pipeline from Lake Homs. [6]
In 2002, total wastewater produced in Syria was estimated at 1,364 million m3. Of this total 550 million m3 (40%) was treated in the cities of Damascus, Aleppo, Homs and Salamiyah. All treated wastewater is reused for irrigation. [7] In October 2009, the Ministry of Public Works and Housing announced a plan to develop Syria’s wastewater infrastructure. The plan involves the construction of 180 new wastewater treatment plants across the country. Two plants are in the foreground: one located in Jaramanah and the other serving the southern city of As Suwayda. The procurement of the two plants has been assigned to Syrian-Qatari Holding Company (SQHC). [8] SQH had planned to seek potential strategic partners through competitive tenders before February 2010. To increase the attractiveness of the project the Syrian Ministry of Finance has pledged to provide a sovereign guarantee for the agreements that will be signed with the partners. The two new plants would allow reusing treated effluent for agricultural irrigation, an established practice in Syria. [9] However, as of December 2010 the projects were delayed after SQH failed to reach a financial agreement with the government. Also, a law on public-private partnerships that would have been the legal basis for the Build-Operate Transfer (BOT) projects was delayed. [10]
The Syrian water sector is fragmented and different institutions have overlapping functions and responsibilities.
The Ministry of Water Resources (MOWR) is responsible for proposing, planning and executing the Government's programme in the field of water supply and sanitation. Through its 14 water and sanitation directorates (Establishments) it is also in charge of providing water supply and sanitation services. [11]
The Ministry of Local Administration and Environment (MLAE) has the task to plan and implement all governmental activities at regional level. MLAE is responsible for the protection of the environment by issuing the required standards and monitoring the quality of water for all uses.
The Ministry of Agriculture and Agrarian Reform (MoAAR) is responsible for supplying water for agriculture.
Major environmental issues in Syria include deforestation, overgrazing, soil erosion, desertification, water pollution from the dumping of raw sewage and wastes from petroleum refining, and inadequate supplies of potable water.
Water supply and sanitation in China is undergoing a massive transition while facing numerous challenges such as rapid urbanization, increasing economic inequality, and the supply of water to rural areas. Water scarcity and pollution also impact access to water.
Water supply and sanitation in Saudi Arabia is characterized by challenges and achievements. One of the main challenges is water scarcity. In order to overcome water scarcity, substantial investments have been undertaken in seawater desalination, water distribution, sewerage and wastewater treatment. Today about 50% of drinking water comes from desalination, 40% from the mining of non-renewable groundwater and only 10% from surface water in the mountainous southwest of the country. The capital Riyadh, located in the heart of the country, is supplied with desalinated water pumped from the Persian Gulf over a distance of 467 km. Water is provided almost for free to residential users. Despite improvements, service quality remains poor, for example in terms of continuity of supply. Another challenge is weak institutional capacity and governance, reflecting general characteristics of the public sector in Saudi Arabia. Among the achievements is a significant increase in desalination, and in access to water, the expansion of wastewater treatment, as well as the use of treated effluent for the irrigation of urban green spaces, and for agriculture.
Water supply and sanitation in Iran has witnessed some important improvements, especially in terms of increased access to urban water supply, while important challenges remain, particularly concerning sanitation and service provision in rural areas. Institutionally, the Ministry of Energy is in charge of policy and provincial companies are in charge of service provision.
This page list topics related to Syria.
Water supply and sanitation in Israel are intricately linked to the historical development of Israel. Because rain falls only in the winter, and largely in the northern part of the country, irrigation and water engineering are considered vital to the country's economic survival and growth. Large scale projects to desalinate seawater, direct water from rivers and reservoirs in the north, make optimal use of groundwater, and reclaim flood overflow and sewage have been undertaken. Among them is the National Water Carrier, carrying water from the country's biggest freshwater lake, the Sea of Galilee, to the northern part of the Negev desert through channels, pipes and tunnels. Israel's water demand today outstrips available conventional water resources. Thus, in an average year, Israel relies for about half of its water supply on unconventional water resources, including reclaimed water and desalination. A particularly long drought in 1998–2002 had prompted the government to promote large-scale seawater desalination.
Tunisia has achieved the highest access rates to water supply and sanitation services among the Middle East and North Africa. As of 2011, access to safe drinking water became close to universal approaching 100% in urban areas and 90% in rural areas. Tunisia provides good quality drinking water throughout the year.
Water supply and sanitation in Jordan is characterized by severe water scarcity, which has been exacerbated by forced immigration as a result of the 1948 Arab–Israeli War, the Six-Day War in 1967, the Gulf War of 1990, the Iraq War of 2003 and the Syrian Civil War since 2011. Jordan is considered one of the ten most water scarce countries in the world. High population growth, the depletion of groundwater reserves and the impacts of climate change are likely to aggravate the situation in the future.
Drinking water supply and sanitation in Egypt is characterized by both achievements and challenges. Among the achievements are an increase of piped water supply between 1998 and 2006 from 89% to 100% in urban areas and from 39% to 93% in rural areas despite rapid population growth; the elimination of open defecation in rural areas during the same period; and in general a relatively high level of investment in infrastructure. Access to an at least basic water source in Egypt is now practically universal with a rate of 98%. On the institutional side, the regulation and service provision have been separated to some extensions through the creation of a national Holding Company for Water and Wastewater in 2004, and of an economic regulator, the Egyptian Water Regulatory Agency (EWRA), in 2006. , many challenges remain. Only about one half of the population is connected to sanitary sewers. Partly because of low sanitation coverage about 50,000 children die each year because of diarrhea. Another challenge is low cost recovery due to water tariffs that are among the lowest in the world. This in turn requires government subsidies even for operating costs, a situation that has been aggravated by salary increases without tariff increases after the Arab Spring. Poor operation of facilities, such as water and wastewater treatment plants, as well as limited government accountability and transparency, are also issues.
Water resources management in Syria is confronted with numerous challenges. First, all of the country's major rivers are shared with neighboring countries, and Syria depends to a large extent on the inflow of water from Turkey through the Euphrates and its tributaries. Second, high population growth and urbanisation increase the pressure on water resources, resulting in localized groundwater depletion and pollution, for example in the Ghouta near Damascus. Third, there is no legal framework for integrated water resources management. Finally, the institutions in charge of water resources management are weak, being both highly centralized and fragmented between sectors, and they often lack the power to enforce regulations. Water resources policies have been focused on the construction of dams, the development of irrigated agriculture and occasional interbasin transfers, such as a pipeline to supply drinking water to Aleppo from the Euphrates. There are 165 dams in Syria with a total storage capacity of 19.6 km³. Demand management through metering, higher tariffs, more efficient irrigation technologies and the reduction of non-revenue water in drinking water supply has received less emphasis than supply management. The government implements a large program for the construction of wastewater treatment plants including the use of reclaimed water for irrigation.
Costa Rica is divided into three major drainage basins encompassing 34 watersheds with numerous rivers and tributaries, one major lake used for hydroelectric generation, and two major aquifers that serve to store 90% of the municipal, industrial, and agricultural water supply needs of Costa Rica. Agriculture is the largest water user demanding around 53% of total supplies while the sector contributes 6.5% to the Costa Rica GDP. About a fifth of land under cultivation is being irrigated by surface water. Hydroelectric power generation makes up a significant portion of electricity usage in Costa Rica and much of this comes from the Arenal dam.
Water resources management in Nicaragua is carried out by the National water utility and regulated by the Nicaraguan Institute of water. Nicaragua has ample water supplies in rivers, groundwater, lagoons, and significant rainfall. Distribution of rainfall is uneven though with more rain falling on an annual basis in the Caribbean lowlands and much lower amounts falling in the inland areas. Significant water resources management challenges include contaminated surface water from untreated domestic and industrial wastewater, and poor overall management of the available water resources.
Water resources management in Belize is carried out by the Water and Sewerage Authority (WASA) in most cases. One of the primary challenges the country is facing with regard to water resources management, however, is the lack of coordinated and comprehensive policies and institutions. Furthermore, there are various areas of water management that are not well addressed at all such as groundwater data and provision of supply. Data on irrigation and drainage is not adequately available either. Demand on water resources is growing as the population increases, new economic opportunities are created, and the agriculture sector expands. This increased demand is placing new threats on the quality and quantity of freshwater resources. Other constant challenge for management entities are the constant threat of floods from tropical storms and hurricanes. The Belize National Emergency Management Organization (NEMO) is charged with flood management as they occur but it is unclear what institution has responsibility for stormwater infrastructures.
Water management in Greater Damascus, a metropolitan area with more than 4 million inhabitants, is characterized by numerous challenges, including groundwater overexploitation, increasing water demand, intermittent supply, and pollution. These challenges could be exacerbated by the impact of climate change, since projections indicate that a decrease in rainfall is likely. The quality of residential water supply mirrors social divisions within the metropolitan area, with the poorest neighborhoods receiving the worst service. Irrigation in the rural parts of Greater Damascus, in particular in the Ghouta, still accounts for about 70% of water use in the metropolitan area, with the remainder being used for residential, commercial and industrial use.
Water supply and sanitation in Turkey is characterized by achievements and challenges. Over the past decades access to drinking water has become almost universal and access to adequate sanitation has also increased substantially. Autonomous utilities have been created in the 16 metropolitan cities of Turkey and cost recovery has been increased, thus providing the basis for the sustainability of service provision. Intermittent supply, which was common in many cities, has become less frequent. In 2004, 61% of the wastewater collected through sewers was being treated. In 2020 77% of water was used by agriculture, 10% by households and the rest by industry.
Water supply and sanitation in Lebanon is characterized by a number of achievements and challenges. The achievements include the reconstruction of infrastructure after the 1975–90 Civil War and the 2006 war with Israel, as well as the reform of the water and sanitation sector through a water law passed in 2000. The law created four Regional Water Establishments to consolidate numerous smaller utilities.
Water supply and sanitation in Iraq is characterized by poor water and service quality. Three decades of war, combined with limited environmental awareness, have destroyed Iraq's water resources management system. Thus, Iraq faces difficulties to realize the target of 91% of households using safe drinking water supply by 2015. Currently, 16% of households report daily problems with supply and 20% use an unsafe drinking water source. Furthermore, animal waste and septic tanks pollute the drinking water network.(11)
Water supply and sanitation in Vietnam is characterized by challenges and achievements. Among the achievements is a substantial increase in access to water supply and sanitation between 1990 and 2010, nearly universal metering, and increased investment in wastewater treatment since 2007. Among the challenges are continued widespread water pollution, poor service quality, low access to improved sanitation in rural areas, poor sustainability of rural water systems, insufficient cost recovery for urban sanitation, and the declining availability of foreign grant and soft loan funding as the Vietnamese economy grows and donors shift to loan financing. The government also promotes increased cost recovery through tariff revenues and has created autonomous water utilities at the provincial level, but the policy has had mixed success as tariff levels remain low and some utilities have engaged in activities outside their mandate.
Drinking water supply and sanitation in Algeria is characterized by achievements and challenges. Among the achievements is a substantial increase in the amount of drinking water supplied from reservoirs, long-distance water transfers and desalination at a low price to consumers, thanks to the country's substantial oil and gas revenues. These measures increased per capita water supply despite a rapidly increasing population. Another achievement is the transition from intermittent to continuous water supply in the capital Algiers in 2011, along with considerable improvements in wastewater treatment resulting in better water quality at beaches. These achievements were made possible through a public-private partnership with a private French water company. The number of wastewater treatment plants throughout the country increased rapidly from only 18 in 2000 to 113 in 2011, with 96 more under construction. However, there are also many challenges. One of them is poor service quality in many cities outside Algiers with 78% of urban residents suffering from intermittent water supply. Another challenge is the pollution of water resources. There has also been insufficient progress concerning reuse of treated water, a government priority in this dry country.
The Ministry of Water Resources is a department of the Syrian government. The current minister is Tammam Raad.