Management of Water Resources in Iraq: Perspectives and Prognoses

Iraq is one of the Middle East and North African countries (MENA region). The country is currently facing a serious water shortage problem. This problem is expected to be more severe in the future where the supply is predicted to be 43 and 17.61 Billion Cubic Meters (BCM) in 2015 and 2025 respectively while current demand is estimated to be between 66.8 and 77 BCM. It has been estimated that the Tigris and Euphrates river discharges will continue to decrease with time, and they will be completely dry by 2040. Serious, prudent and quick measures need to be taken to overcome this problem. The government should take measures to have a strategic water management vision, including regional cooperation and coordination, research and development, improving agriculture and sanitation sector as well as public awareness program. These measures are required in order to address the following topics: Strategic Water Management Vision, Regional cooperation and coordination, Irrigation and Agriculture, Water Supply and Sanitation, and Research and Development.


Introduction
Middle East and North African countries (MENA region) are considered to be arid or semi-arid as the average annual rainfall does not exceed 166 mm [1,2].For this reason, the scarcity of water resources in the MENA region, and particularly in the Middle East, represents an extremely important factor in the stability of the region and an integral element in its economic development and prosperity [3][4][5].Future predictions suggest more severe shortages to be expected both in surface and groundwater resources [6][7][8][9].Due to the presence of Tigris and Euphrates rivers, Iraq was considered relatively rich in its water resources compared to its neighboring countries until the 1970s.During the 1970s Syria and Turkey started to construct dams on the Euphrates and Tigris Rivers which caused a major decrease in the flow of the Euphrates River [1] as well as deterioration of the quality of its water [10].This fact highlighted a further concern over future water quotas and its alarming implications upon the national security and strategies.
Iraq is located in the eastern part of the MENA region.It is surrounded by Iran in the east, Turkey to the north, Syria and Jordan to the west, Saudi Arabia and Kuwait to the south and the Gulf to the southeast (Figure 1).The total area of Iraq is 438,320 km 2 of which 924 km 2 of inland water.
The population is about 20.4 million (1995) with a growth rate of 3.6% (1980)(1981)(1982)(1983)(1984)(1985)(1986)(1987)(1988)(1989)(1990).About 25% of the inhabitants live in rural areas.The population density ranges from 5 to 170 inhabitants/km 2 in western desertic and the central part from the country respectively.This rate had dropped since 1989 due to severe economic hardship [1].To pographically; Iraq is shaped like a basin containing the great Mesopotamian plain of the Tigris and Euphrates rivers.The climate is mainly of a continental, subtropical semi-arid type with the north and northeastern mountainous regions having a Mediterranean climate (Figure 2).The temperature during summer is usually over 430˚C during July and August and drops down to 20˚C and 160˚C during the day and night respectively in winter time (Figure 3).
Meteorological records were used to calculate the evaporation and evapotranspiration values using the Penman method.The results show that the overall average evaporation and evapotranspiration are of the order of 1900 m per year (Figure 4).m    Furthermore, the values show an increasing trend similar to that of the temperature increasing from the northeast towards the southwest (Figure 4) [11].
The average annual rainfall is 154 mm (Figure 5), but it ranges from less than 100 mm over 60% of the country in the south up to 1200 mm in the northeast.The rainy season is restricted between October to April [1,12,13].
The Rivers Tigris and Euphrates form the main water resources of Iraq.They join together in the south forming what is referred to as the Shat Alarab, which drains towards the Gulf (Figure 1).Most of the water from these ivers comes from Turkey (71%) followed by Iran (6.9%) r nd Syria (4%).The remainder, only 8%, is from a internal sources (Figure 6).The average annual flow of the Euphrates and Tigris is estimated to be about 30 km 3 (which might fluctuate from 10 to 40 km 3 ) for the former and 21.2 km 3 for the latter when it enters Iraq.Its tributaries contribute 24.78 km 3 of water and there are about 7 km 3  of water brought by small wadies from Iran, which drains directly towards the marsh area to the [1].The World Bank [12] stated that 100% of the Euphrates water comes from outside the borders of Iraq while 67% of the Tigris water also comes from outside sources.They also stated that groundwater resources are about 1.2 BCM and form about 2% of the total water resources of Iraq.
The total water withdrawal in Iraq was about 42.8 km 3 in 1990, which is used for agricultural (90%), domestic (4%) and industrial (6%) purposes [4,5,12,14].According to the most recent estimates, 85% of the water withdrawal is used for agricultural purposes [1].It should be mentioned however, that safe water supplies (drinkable water) reach 100% of the urban areas and only 54% of rural areas.The situation had deteriorated after the Gulf war for both water and sanitation sectors.IMMPW [15] stated that 1/3 of the population of Iraq does not have er demand.The Iraqi government access to potable water, and the quantity of water production is decreasing to 5,469,534 m 3 /day which reprents 53% of the wat se hopes to ensure water supplies reach 91% of the population by 2015 [16].
Since Sumerian times (7500 years ago) the land be-tween the Tigris and Euphrates has been irrigated by the water from these rivers.The suitable land for agriculture is 11.5 million ha, which represent 25% of the total area of ile the remainder is rain fed and is located in th the negotiations betw

2.
ern part of Turkey s mountain range and ,606 km 2 which is shared by Turkey, otal length is about 1718 km ( The area used for agriculture is 8 million hectares, which forms 70% of the total cultivated area.About 40% -50% of this area is irrigable, and lies in the riverine plains wh e northeastern plains and mountain valleys.The irrigated area is mainly supplied by water from the main rivers, and only 7% is of the area is supplied by ground water [12].Due to fallow practices and the unstable political situation only 3 to 5 million hectares are now actually cultivated annually.In 1993, it is believed that only 3.73 million hectares were cultivated of which 3.46 and 0.27 million hectares consisted of annual and permanent crops respectively [1].Considering the soil resources, about 6 million hectares are classified as excellent, good or moderately suitable for flood irrigation.With the development of water storage facilities, the regulated flow increased and changed the irrigation potential significantly.It is well known that irrigation development depends to a large extent upon the volume of water released by the upstream countries.Existing data estimates that the contribution of the agricultural sector was only 5% of Gross Domestic Product (GDP) which is usually dominated by oil (more than 60%).About 20% of the labour force is engaged in agriculture [1].
The Iraqi water strategy is highly influenced by the Euphrates water where 100% of its flow comes from outside the country.While only 50% of the Tigris flow comes from Turkey.According to een riparian countries, Iraq is supposed to receive 58% of the Euphrates flow, which crosses the Turkish-Syrian border, while Syria receives 42%.Turkey promised in the past to secure minimum flows of 15.8 km 3 /year at its border which gives Iraq 9 km 3 /year.Up to now there has been no formal agreement between the three countries concerning the Euphrates and Tigris water.Present estimates indicate that Iraq is receiving only about 0.03 km 3 / year of the Euphrates water [1].
In this research, the difficulties facing Iraq will be reviewed and discussed, and recommendations will be given to solve the problems of water resources in Iraq.

River Tigris
The River Tigris rises in the southeast on the southern slopes of the Touro drains an area of 472 Syria and Iraq.Its t 1).About 58% of the basin lies in Iraq.Three major tributaries (Butman Su, Karzan and Razuk) join the Tigris before it reaches the Turkish/Iraqi border.The mean annual flow of the river does not exceed 64 m 3 /s and it increases at Razuk to 413 m 3 /s.It enters Iraq at Fiesh Khabur where the Khabur tributary joins the main river at a small distance to the south.The mean annual flow of the Khabur is 68 m 3 /s.The River Tigris flows towards the south and reaches the first major city (Mosul).Its mean discharge at Mosul reaches 630 m 3 /s.
The Greater Zab River joins the Tigris about 60 km south of Mosul.The confluence of the two rivers is situated midway between Mosul and Sharkat cities.This tributary drains an area of 25,810 km 2 o s in Iraq.This tributary is one of the largest with a mean annual flow of 418 m 3 /s.
Further south, the Lesser Zab tributary joins the Tigris at Fatha.This tributary drains an area of 21,476 km 2 (25% in Iran) with a mean annual flow of 227 m 3 /S whiles the mean annual flow of th 3 /S down-stream of this confluence.South of Fatha, the Adhaim tributary joins the Tigris.This tributary drains an area of 13,000 km 2 and lies totally in Iraq [17].The mean annual flow of this river reaches 25.5 km 3 .This tributary runs dry between June and November each year.Furher to the south, the last major tributary, the Diyala River joins the Tigris south of Baghdad.The Diyala basin is 31,846 km 2 of which about 20% lie in Iran.The mean daily flow of this tributary is 182 m 3 /s.
No major tributary joins the River Tigris south of Baghdad [18,19].Few canals draw water from the Tigris in this region for irrigation purposes.For this reason, the mean annual daily flow of the river falls Baghdad (1140 m 3 /S) in Kut and Amara cities at the south (Figure 7) [20].
The Tigris River mean discharge at Mosul city prior to 1984 was 701 m 3 /S and dropped to 596 m 3 /S afterward (Figure 4).This implies a 15% decrease of the river discharge.

River Euphrates
The River Euphrates is 2781 km long and rises from the southeaste km 2 shared by four coun  together in the southeastern Syria 17% and Saudi Arabia 14%) (Table 2).The Rivers Karah Su and Murad Su join parts of Turkey at Kuban forming the River Euphrates.The River enters Syria at Jarablis where it runs 675 km and then enters Iraq.Thirty kilometers south of Jarablis, the Sajor tributary joins the Euphrates.Further downstream, two tributaries, the Balikh and Khabur, join the main river after which it crosses the Iraqi border at Hasaibah.The mean daily discharge of the Euphrates River inside Iraq (at Hit) is 909 m 3 /s [1,13,21].Inside Iraq, no tributary contributes water to the river.The river supplies a number of small canals in the central and southern parts of Iraq for irrigation purposes (Figure 1).Some of its water is diverted to the Habaniya reservoir during floods, which is situated about 40 km south of Ramadi.About 135 km south of Faluja, the Hindiya barrage diverts a maximum discharge of 471.5 m 3 /s to small parallel tributaries [22].
The Euphrates channel south of Kifil is divided into two main channels (Kufa and Shamiya), and they joins again at Mushkhab ( ).Further downstream, the channel splits again about 25 km south of Shanafiya and rejoins near Simawa.Then the river enters Hamar marsh, where it forms two main channels within Hamar marsh.One of the channels (northern) joins the Tigris River at Qurna orming (known as the Shat Alarab River) while the other channel joins the Shat Alarab River at Karmat Ali.
The Euphrates River mean discharge at Hit and Ha-

Shat
This river forms at Qurna where the Tigris and Euphrates Rivers join together, and it flows into the gulf (Figures 1  and 9).Its total length is 192 km and it drains an area of 2 main tributaries (Suwaib an of the river.Most of the flow of these tributaries is halted by Iranian water projects.

Dams in Iraq
The idea of building dams in Iraq started in the first half of the twentieth century.Primarily it was to protect Baghdad, the capital, and other major cities from flood-  ing.The first big dam (Dokan) was constructed in 1959 on the Lesser Zab River.Later, dams were constructed for irrigation and power generation purposes (Table 3) [23,24].The Iraqi Government realized the process of building dams should be speeded up due the huge increase of water demand and the threat of reduced water in the rivers by Turkey and Syria.The process stopped in the 1990s due to the second Gulf war and UN sanctions.None of these dams were filled to their maximum storage capacities during the twenty first century.This is due to the depletion of flow in the Euphrates and Tigris Rivers by the Turkish and Syrian dams.It is noteworthy that the Haditha dam is almost of no use now due to the severe depletion of the Euphrates flow.In addition there were few concerning and worrying circumstances with some of the existing dams where, Mosul dam was built on highly soluble, fractured and jointed gypsum beds [25,26]) which left this dam at a high risk of collapse [27].Furthermore, rock sliding at Darbandikhan reservoir close to the dam wall required the water level in this reservoir to be kept high to ensure the stability of the sliding rocks (Figure 9) [28].

Global Climate Change
The MENA region is among the most vulnerable in the world to the potential impacts of climate change [29].
The most significant changes in a region which already ffers from aridity, r (50.4˚C), and Sudan (49.7˚C) were among the top 19 countries affected [30].
The MENA region contains hyper-arid, arid and semiarid zones (Figure 10) [31].Several research projects have concluded that arid and semi-arid regions are highly vulnerable to climate change [32].It is expected that the region will suffer from higher temperatures and intense heat waves affecting inhabitants and crop yields, and will also affecting marine ecosystems and fisheries.Less but more intense rainfall, coupled with higher temperatures will likely cause more droughts and greater flooding, sea level rise, more intense cyclones and new areas exposed to dengue, malaria, and other vector and waterborne diseases.
It is very likely that 20th century global warming has expanded the size of seas and oceans resulting in a loss of land ice [33].Through the period of 1961-2003, it was observed that the global sea level rise was about 1.8 mm per year while during the period 1993-2003 it reached up to 3.1 mm per year [34].
AFED [29] and Dasgupta et al. [35], reported that the Gulf will be highly vulnerable at its northern tip north in Kuwait and in the south of Iraq (Shatt el Arab) to SLR (Figures 11 and 12).Despite the limited coastline Iraq su ecurrent drought and water scarcity are the increased average temperatures, less and more erratic precipitation, and sea level rise (SLR).
Records of temperature highs in 2010 show that five countries from the MENA region including Kuwait (52.6˚C),Iraq (52.0˚C),Saudi Arabia (52.0˚C),Qatar    has in the Gulf region, the vulnerable low land areas exten The combination of the climate change impact and rapid trends of population growth, FAO projections indicate that Algeria, Egypt, Morocco, Syria and Tuni-sia are expected to experience severe water shortages by 2050, and only Iraq is expected to be in a relatively better situation [36][37][38].
Arnell [39] indicated that by the end of the 21st century, the flow of rivers in the Middle East will be decreased due to climatic changes; however, the magnitude of change is highly uncertain.
The drought will affect the agricultural life and water supply in the MENA region [40].This is d e to the fact ost of t gricultural areas of t NA region are rain-fed [41].For example about o rd of Iraq's cereal production (wheat and barley) is produced under rain-fed cond n the north [42].Dust storm y lead to aerosol tion which changes cloud p perties and then redu recipitation in the polluted region.In the desert land limited precipitation will to produce more dry which leads to produce mo in the air [ ], indicated that el factors have a frequency of dus s in Iraq, t being relative hum while evapor cover were the lowest.For the past few years, Iraq has experienced a number of dust storms.Figure 13 shows a thick dust created from the border of Iraq with a southwest moving front passing Saudi Arabia and the Red Sea to reach Egypt [36].
At the end of the century the mean temperatures in the MENA region are projected to increase by 3˚C to 5˚C while the precipitation will decrease by about 20% [45].Water run-off will be reduced by 20% to 30% in most of MENA by 2050 [32] and water supply might be reduced by 10% or greater by 2050 [46].The weather events will include more droughts and floods.Mediterranean water level is predicted to rise between 30 cm and 1 metre by the end of the century causing flooding to coastal areas along the Nile Delta [34].
CGCM3.1 (T47) model with the A2 scenario was chosen in order to simulate the average monthly temperature and rainfall on Iraq for the historical period 1900-2009, and for mean future projected temperature and rainfall until 2099 [47].The data were obtained from [48].
The data set is produced by th RU) of University of East A by the International Water Management Institute (IWMI).Both 1900-2009 and 2020-2099 periods were divided into four periods (1900-1930, 1930-1960, 1960-1990, and 1990-2009)  A comparison between the values of annual temperatures (Figure 14) shows that the increase of annual temperature was limited during the historical period 1900-2009, but the increase is more noticeable during the period 2020-2099.The rainfall trend (Figure 15) shows an increase till 1960 followed by a decrease up to 2009.Furthermore it is expected that rainfall will increase again until 2039 followed by a decrease to 2099.
The summation of average monthly rainfall (average annual) for the four historical periods (   Considering the average monthly rainfall (average annual) of the first future period (2020-2039) represents the rainfall benchmark for all future periods, the differences in total rainfall over the four periods reached up to 24.45, 16.37, and then it increased by 0.72 mm respectively.Where the percentage reduction reached up to 13.93%, 10.83%, and then increased by 0.53%, in general, the summation of average monthly rainfall (average annual) tends towards reduction in its values.

GAP Project
1977, the Turkish government set up a project referred to as Southeastern Anatolia Project (GAP) [49].The main components of the project include 22 dams and 19 hydraulic power plants which are supposed to irrigate 17,000 km 2 of land (Table 4) [50].The estimated time for the completion of the project was 2010 [49,50] but due to financial, technical and political problems it is still not completed.The overall volume of water to be captured is about 100 km 3 which is three times more than the overall capacity of Iraqi an ct is supposed to develop the southeastern provinces which cover 9.7% of the total area of Turkey which forms 20% of the agricultural land of the country.De- 47% of the river flow will be depleted.This in turn t exceed 15.6 km 3 /year in Turey while the overall water supplies reach 195 km 3 /year [57].If we consider the existing population growth rate in Turkey, then its population will be 91 million in 2025 then the demand will be 26.28 km 3 .This fact has been reflected on by the Turkish Government where it offered to export 500 million m 3 of water/year to Israel [1].
The fact that Turkey can exert virtual control over the water of the Tigris and Euphrates Rivers is of vital concern to Iraq which depends so much on these two rivers for much of its water supply.The collapse of water levels in the rivers has been swift where it dropped in the Euphrates from 950 before 2005 to less than 230 m 3 /s now t on the Euphrates and Tibad water quality TDS is 1800 mg/L now); 1-55].In addition to the GAP dams, Syria built three major dams with a total storage capacity of 16.1 km 3 (Table 5).The construction of these dams is for irrigation and electricity generation [56].
GAP is designed to irrigate 1.82 million hectares [49] that means that the required water for irrigation is about 29 km 3 while the reservoirs of the project store 100 km 3 .
Turkish, Syrian and Iraqi water requirem iver Euphrates are 15.7, 11 and 13 km 3 respectively to irrigate all the cultivated lands.It should be noted, however, that other authors had cited different figures for the water requirement for Turkey, Syria (7.95 km 3 ) and Iraq (19 km 3 ) [57].When GAP project is completed, 80% of the Euphrates water will be controlled by Turkey [58][59][60].Syria used to receive 21 km 3 /year of the Euphrates water prior 1990 which dropped to 12 km 3 from 2000 onward (40% reduction).As far as Iraq is concerned, the volume of the water received dropped from 29 km 3 before 1990 [61] to .4 km 3 (90 ral used land in both countries has reduced from 650,000 hectares to 240,000 hectares.In addition, the quality of water deteriorated due to back water irrigation directed toward the main channel in its upstream reaches [1].When Ilisu dam is constructed on the Tigris River, Iraq will recieve only 9.7 km 3 [62].This implies that means that 696,000 hectares of agricultural land will b abandoned due to water scarcity [1].
Water demand does no e k .We can summarize the consequences as follows: The upstream developmen gris Rivers will contribute to water depletion in Iraq which will increase with time.This will reduce the quantity of water entering Iraq from the Euphrates River from 9 -21 BCM to 9 BCM or less which represents a drop from 75% to 28% [12].Syria is planning to double its irrigated area (740,000 ha) which will increase its water withdrawal from 5 BCM to 9 BCM [12].This will cause:  Diminishing water for agriculture;  Land degradation due to expected high salinity;  More drying of the Basra marshes causing more ecological damage;  Further deterioration of the already of the Euphrates (  Less hydropower generation;  Rising the risk of regional conflict [63];  Demographical implications where farmers and fishermen will leave their homes;  Lower groundwater levels.

Supply and Demand
Despite the differences in numbers given by various sources, there is an overall agreement that there is a gap between supply and demand [1,12,16,64] It should be noted however that the quality of water deteriorates from north to south along both the Tigris and Euphrates Rivers where it approaches a salinity of about 2000 mg/l in Basra

Distribution Network
ater usage in Iraq is about 350 liters/capita/day [15].Safe water supplies used to reach 100% and 54% of the urban and rural areas in 1991.The situation deteriorated in both quality and quantity afterwards and 33% of the population do not have access to safe water and sanitation [1,15].
Current estimates indicate that water supply to urban areas is 73% and in rural areas 40% -45% of requirements.Water services are limited to a few hours per day and it is of poor quality.Multiple Indicator Cluster Sur- ICS) [68] indicated that 79% of the populatio nking water (92% in was also stated that urban and 57% i e having access king w es abou urba minutes in ru for 17% of urce same ho wed tha e no a g wa have lems w le have a reliable source.According to [15] domestic water shortage is 1.7 MCM/day but if the percentage per capita is decreased, there will be excess water (Table 6).
The demand is about 11 million cubic meters per day while the supply is half that amount [15].The Iraqi government hopes to ensure water supplies to 91% of the population by 2015 [16].The scenarios given by [15] are based on lower ongoing consumption level (Table 6).The efficiency of the distribution network is very poor (32%) [12] and it is deteriorating with time.For this n water allocation per capita has been decreasing with time since 1980 [69].

Sanitation
About 92% of the population of Iraq is living in households using improved sanitation and 82% of this category use flush toilets connected to sewage systems or nks or latrines (Figure 17) [70].Improved sanitation is 98% and 82% in urban and rural areas respectively.Only 48% have their toilets connected to pipe sewer systems in metropolitan areas, 57% have septic tanks in urban areas and 36% flush their toilets to latrines which is very common in rural areas.In reality, most of the of the sewage treatment plants and septic systems do not function properly and as a result there is an overflow of the effluent into the environment [68].Only 14 cities out of 252 urban centers have a wastewater treatment plant [12].Wastewater treatment capacity reaches 350,000 cubic meters per day and this serves 8% of the population.Most if not all the sewage and sewarage systems require replacement, rehabilitation and upgrading.It should be mentioned however that 70% of the sewage water is discharged untreated directly to rivers [12].Damaged waste water systems and drinking water networks are causing mix of water and as a result many people are infected by sewage related diseases [12, 68,70,71].

Water Quality
Water quality of the Tigris and Euphrates is poor due to the return flows from irrigation projects.Inside Iraq, most of the irrigation returns flow is directed to the third drain river which drains to the Gulf.Some of the Tigris flood flows are diverted to Tharthar Lake which is highly saline, and then it is redirected for use in the river system with the salt washed from the lake.The expansion of irrigation in Turkey and Syria will cause a further deterioration in the water quality.In addition, direct discharge of raw sewage into the rivers and industrial effluents are causing more damage [68].It was also noticed that over 500,000 cubic metres of raw sewage are discharged into rivers each day, and the rapid increase in water salinity ation large number of the population are suffering from various diseases [16,70,73].

Desertification
Declining water flow of the Tigris and Euphrates Rivers, the repeated frequency of drought [74], water quality degradation and increasing soil salinity mean that larg are a-central and south Iraq were deogging and salinity.This forced the dertake a land rehabilitation program into branches forming the arshes and lakes.The marshes had developed after a series of transgressions and regressions of the Gulf sea water.
The marshes lie on the thick fluvial sediments carried by the rivers in the area [78,79].
The area has played a prominent part in the history of mankind and was inhabited since the dawn of civilization by the Summarians who occupied the area before 6000 BP.The area was considered among the largest wetlands in the world and the greatest in western Asia where it supports a diverse range of flora and fauna and human populations of more than 500,000 persons and is a major stopping point for migratory birds [16,79].It has been estimated that 60% of the fish consumed in Iraq comes from the marshes.In addition oil reserves have been discovered in and near the marshlands.
The Saddam regime began to drain the marsh lands so s poses an urgent challenge.TDS values of the Tigris water at the Turkish Iraqi border is 280 -275 mg/l and it reaches more than 1800 mg/l in Basra [15].The TDS of Euphrates water at the Iraqi-Syrian border is 600 mg/l and increases to more than 1300 mg/l downstream at Samawa [12,15].The situation might be worse on the tributaries where TDS values in the Diyala River reaches 3705 mg/l [72].
The quality of drinking water does not meet WHO standards or Iraqi national water quality standards [66].Leakage, in both drinking water distribution and sewerge systems causes high contamination.In view of this a situ e as of Iraq are facing serious problems of desertific tion.It is believed that at least 45% of the area of Iraq has been substantially affected by desertification [75].In addition, during the Gulf wars, huge number of palm trees were destroyed which originally were acting as natural barriers against the expansion of desertification.In view of the above, a large number of farmers and fishermen left their land and villages were deserted.The expansion of desert areas led to frequent sand or dust storms.Between 2007 and 2009, 40% of cropland area experienced reduced crop coverage and 20,000 rural inhabitants left their homes (Figure 18) [66].
Iraq experienced salinity 3800 years ago [76].In 1970 about 50% of the areas in graded due to water l government to un and a total of 700,000 ha were reclaimed.Later the situation deteriorated where recent estimates indicate that 4% of irrigated areas are severely saline, 50% are of medium salinity and 20% are slightly saline [76].

Marshes
The Iraqi marsh lands, which are known as the Garden of Eden, cover an area about 15,000 -20,000 sq.km in the lower part of the Mesopotamian basin where the Tigris and Euphrates Rivers flow (Figure 19) [77].The marshes lie on a gently sloping plan which causes the two rivers to meander and split m that troops could be moved into that area and use the ater to block the advances of Iranian troops and perhap w to get rid of the marsh dwellers due to the fact they participated in reprisals against him in 1991 [73,79].To enable the army to move inside the marshes, the central government started to execute five major drainage projects to prevent water from the Tigris and Euphrates Rivers from reaching the marshes.Later, the army launched a major attack against marsh dwellers using artillery, mortar and ground attacks.The area was highly contaminated by army munitions and poison gas [79].
Accordingly, two third of the marshes were not receiving water inputs in 1993 and by 2000 less than 10% re governorates w rocess such as land use changes, climatic variations and changes in soil and waecological fragmentation where mmar, Al Hawiza he Cent is implies th 6 MCM shou hi e water quality as it is [79].If the water qua be improved then 18863 M M of water is requir orld Bank [12] estimate at 10 -16 BCM/yea equired to restore the marshe his requires plenty fort and international cooperation to overcome the existing obstaribution netw phrates discharges will continue to decrease with time and they ly dry up by 2040.
f the work of the Ministry of Water Resources, f regional and Internauding employment mained (Figure 19).The consequences were that most of the marsh dwellers left their homes and some animals and plants are extinct now.The government at that time, to change the entire environment of the marshlands, implemented many agricultural projects in the dried areas of the marshlands.The total areas invested in these projects are 1920 km 2 distributed over three hich are Thi-Qar, Maissan and Basrah [79].
After the fall of the Saddam regime in 2003, the Iraqi government, with the help of other countries and international organizations, started the process of restoration and rehabilitation of the Iraqi marshes.There are number of difficulties encountered in the p ter salinity as well as many species were affected as well as the marsh dwellers themselves.
It is believed that 70% -75% of the original areas of the marshes can be restored [79].The exact areas are cles.

Conclusions and Recommendations
Iraq is facing water shortage problems due to various factors involved.Some of these factors like global warming and the GAP project cannot be solved independently or in short term actions or planning.In addition, these themes need to be addressed with regional and international cooperation.However there are other issues which can be solved independently in a relatively short period of time.These are water losses in the dist 1800, 1800 and 2425 km 2 for Al Ha and t ral marshes.Th at 12,88 water ld be available to ac eve this goal keeping th lity can ed.The W C d th r is r s.T of ef orks, drinking water quality, development of irrigation techniques etc.It has been noted by various researchers and organizations that the problem is becoming more alarming with time where the gap between supply and demand is increasing.The supply will be 43 and 17.61 BCM in 2015 and 2025 respectively while current demand is estimated between 66.8 to 77 BCM.In addition to all this, it has been reported that Tigris and Eu Public awareness program is vital so that all the people appreciate the serious problem they are facing.Regional cooperation and coordination: Defining instituti waste water) should be considered and evaluated.Private sector is to be enhanced to be involved (especially for infrastructure investment.Inter-ministerial coordination is very important.This will save time, effort and money.More decentralization including budget in irr  ments with riparian countries on water quotas.UN organizations (e.g.UNEP, UNDP, UNESCO etc.) and International institutions and organizations (FAO, WMO etc.) and universities should be approached to benefit from their experiences and expertise.

Acknowledgement
The

Figure 1 .
Figure 1.Location map of Iraq.

Figure 6 .
Figure 6.Sources of water for the Tigris and Euphrates Rivers (MWR, 2010).

Figure 7 .
Figure 7. Average monthly recorded discharges of Tigris River at Sarai Baghdad station for the period 1960-2012 (Data source until 2007 from [20]).

Figure 1 Country
Figure 1

Figure 8 .
Figure 8. Water discharge of River Euphrates at Hit and Hadiththa Cities for the period 1948-2007.

Figure 12 .
Figure 12.Effect of sea level rise on Iraq and Kuwait, Source [37].

Figure 13
Figure 13.A thick dust moving from southwest of Iraq passing Saudi Arabia and then the Red Sea to reach Egypt (after [36]).
First 1900-1930, spectively.The total rainfall value had increased by otal summation of the rainfall (average an of the total summation of th e Climatic Research Unit nglia (UEA), and refor-(C matted second 1930-1960, Third 1960-1990 and Fourth 1990-2009) was as follows 182.5, 194.7, 168.9, and 162.6 mm, re 12.2 mm from 1930 to 1960 with a percentage increase of up to 6.68%.Moving from 1960 to 1990 the total rainfall decreased by 25.8 mm, with a percentage decrease of up to 13.25%.While moving from 1990 to 2009 the total rainfall fell again by 6.3 mm, with a percentage decrease of up to 3.73%.The maximum t nual) was fell from 194.7 mm during the period of 1930-1960 to reach its lowest value of 162.6 mm during 1990-2009.The future predicted part in Figure15shows that an increase and decrease e rainfall (average annual) through the four periods of

Figure 14 .
Figure 14.Average annual temperature over the historical and future study periods.

Figure 15 .
Figure 15.Average annual rainfall (mm) over the study historical and future periods.20 [15].According to the World Bank (2006), the Iraqi water deficit in 2030 will reach 25.55 BCM (37%) where the expected supply is 44 BCM only.Recent reports state that the Tigris an ill be completely dry by 2040 [16].

Figure 16 .
Figure 16.Water allocation in some MENA countries.
will be complete All these facts taken together suggest that the Iraqi government needs to take quick, prudent and firm action as a high priority.The action should address the following points:  Strategic Water Management Vision should include: This plan should be an integrated long term "National Water Master Plan" needs to be designed and put in practice immediately.Such a plan should be the outcome o Water Resources staff at Universities, private sector, NGO's and representatives o tional organizations concerned.It should include improving the efficiency of distribution networks specially diversion and supply down to the point of use which is most cost effective and Irrigation modernization using suitable techniques.Present techniques should be very restricted and new less water consuming techniques should be adopted e.g.drip irrigation.Rehabilitation of infrastructure which should cover dams, barrages, weirs as well as pumping stations is also required.Defining institutional agenda incl and training should be well planned.Supply and demand should be considered.In this context new nonconventional water resources (water harvesting, treated


onal and technical needs for cooperation is to be set.Cooperation on trans-boundary resources should be taken seriously.Iraq, Turkey, Iran and Syria are to coordinate their efforts to reach reasonable agree-tors are to be practiced.Restoring the marshes should be considered.

bility and demand (source of data [15]).
 Irrigation and Agriculture Modernization of irrigation and drainage system is a must.Institutions should reflect decentralization, autonomy and farmer empowerment and private investment in the agricultural sector should be enhanced.Public awareness program for farmers to use new suitable techniques in irrigation (drip irrigation and sprinkler irrigation) must be considered.Maintenance of irrigation and drainage projects should be carefully planned and partially built dams should be completed and measure is to be taken to build the suggested dams and irrigation projects.This will increase the storage capacity of dams about 27 km 3 . Water Supply and Sanitation Maintenance and restoring Distribution and collection networks should be maintained and restored and new projects should be put in practice.Services (e.g.usin ICT) should be impro Non-conventional methods to augments water recourses are to be used.It is believed that water harvesting techniques can be very effective and are relative cheap cost wise. Research and Development Two types of Data Banks using reliable data which can be accessed by the public and another for researchers should be established.Research should be encouraged to import new technologies in water resources and agriculture which suites Iraq environment.Training programs for technicians, engineers and decision makers about up to date technologies should be well planned and executed and projects of pioneer nature which help in augmenting water resources, developing land productivity, minimizing water use and consumption.Universities and institutes should set special courses in arid region hydrology.
Institute of Technology, Chalmers University of Technology and Uppsala University.Their support is highly appreciated.