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Article
Affiliation(s)

1. Komar University of Science and Technology, Sulaymaniyah 46004, Iraq
2. Lulea University of Technology, Lulea 971 87, Sweden
3. Sågaregränd 3, Norrköping 60358, Sweden

ABSTRACT

Iraq is part of the Fertile Crescent with the two large rivers: Tigris and Euphrates and their tributaries that secure the required quantity and quality of water to the Iraqi population for their different uses; including agriculture, industry, and other domestic requirements. During the last decades, however, the quantity and quality of water in these rivers decreased causing water scarcity in the country. This scarcity is having severe impacts on food security in Iraq since large cultivated areas in different parts of the country that grow different agricultural products have been abandoned due to lack of water. The worsening situation is attributed mainly to global climate changes including decreasing rainfall amounts, increase in air temperature, and insufficient water inflows in the two main rivers and their tributaries. This last issue is exasperated by the unfair water sharing policies of the riparian countries namely Turkey and Iran. In writing this article relevant data from different sources were used. Numerous published reports and papers dealing with this important issue were consulted, while at the same time, the long experience of the authors in these very important issues was also drawn upon to elucidate the difficulties that are current today and those expected in the future in this field. 

KEYWORDS

Water scarcity, food security, agricultural yield, global change, dry marshes, fertile crescent.

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References

[1]   Caretta, M. A., Mukherji, A., Arfanuzzaman, M., Betts, R. A., Gelfan, A., Hirabayashi, Y., Lissner, T. K., Liu, J., Lopez Gunn, E., Morgan, R., Mwanga, S., and Supratid, S. 2022. “Chapter 4: Water.” In Climate Change (2022) Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change, edited by Pörtner, H.-O., Roberts, D. C., Tignor, M., Poloczanska, E. S., Mintenbeck, K., Alegría, A., Craig, M., Langsdorf, S., Löschke, S., Möller, V., Okem, A., and Rama, B. Cambridge, UK and New York, NY: Cambridge University Press, pp. 551-712, doi: 10.1017/9781009325844.006.

[2]   Rijsberman Frank, R. 2006. “Water Scarcity: Fact or Fiction?” Agricul Water Manage 80 (1-3): 5-22. doi: 10.1016/j.agwat.2005.07.001.

[3]   IFPRI (International Food Policy Research Institute). 2023. Food Security. Washington, DC: IFPRI.

[4]   FAO. 2015. Climate Change and Food Security: Risks and Responses. Ghana: FAO. https://www.fao.org/3/i5188e/I5188E.pdf.

[5]   Allan, A. 2020. The Middle East Water Question: Hydropolitics and the Global Economy. London, UK: I.B. Tauris and Co Ltd.

[6]   Seckler, D., Barker, R., and Amarasinghe, U. 1999. “Water Scarcity in the Twenty-First Century.” Int. J. Water Resour. Dev. 15: 29-42.

[7]   Statistics Times. 2023. “Population of Iraq.” Accessed March 28, 2023. https://statisticstimes.com/demographics/country/iraq-population.php.

[8]   Sissakian, V. K. 2011. “Origin of the Tharthar Depression, Central Part of Iraq.” Iraqi Bull. Geol. Min. 7 (3): 47-62.

[9]   Sissakian, V. K., Al-Ansari, N., Adamo, N., and Abdulahad, A. D. 2019. “Origins and Utilizations of the Main Natural Depressions in Iraq.” J Earth Scien Geotech Engin. 10 (1): 15-41.

[10]  Al-Jiburi, H., and Al-Basrawi, N. H. 2011. “Hydrogeology of the Mesopotamian Plain.” Iraqi Bull. Geol. Min. 4: 83-104.

[11]  Sissakian, V. K., and Fouad, S. F. 2015. “Geological Map of Iraq, Scale 1:1000000 (4th ed.).” Iraqi Bull. Geol. Min. 11 (1): 9-18.

[12]  FAO. 2006. Food Security. Ghana: FAO. https://www.fao.org/fileadmin/templates/faoitaly/documents/pdf/pdf_Food_Security_Cocept_Note.pdf.

[13]  FANTA (Food and Nutation Technical Assistance). 2006. Household Dietary Diversity Score for Measurement of Household Food Access: Indicator Guide (Version 2). Accessed April 4, 2023. https://www.fantaproject.org/sites/default/files/resources/HDDS_v2_Sep06_0.pdf.

[14]  Gregory, P. J., Ingram, J. S. I., and Brklacich, M. 2005. “Climate Change and Food Security.” Philosophical Transactions of the Royal Society B: Biological Sciences 360: 2139-48. doi: 10.1098/rstb.2005.1745.

[15]  FAO. 1997. The Food System and Factors Affecting Household Food Security and Nutrition. Agriculture, Food and Nutrition for Africa: A Resource Book for Teachers of Agriculture. Rome: Agriculture and Consumer Protection Department. Accessed February 19, 2023. https://www.fao.org/3/W0078e/w0078e02.htm.

[16]  FAO. 2022. The Right to Adequate Food. Ghana: FAO. Accessed February 19, 2023. https://www.ohchr.org/sites/default/files/Documents/Publications/FactSheet34en.pdf.

[17]  Tweeten, L. 1999. “The Economics of Global Food Security.” Rev Agricul Econ 21 (2): 473-88. doi: 10.2307/1349892.

[18]  FAO. 2006. The State of Food Security in the World. Ghana: FAO. Accessed March 14, 2023. https://www.fao.org/fileadmin/templates/faoitaly/documents/pdf/pdf_Food_Security_Cocept_Note.pdf.

[19]  Adamo, N., Al-Ansari, N., Sissakian, V. K., Laue, J., and Knutsson, S. 2018. “Climate Change: The Uncertain Future of Tigris River Tributaries’ Basins.” J. Earth Scien. Geotech. Engin. 8 (3): 75-93. http://www.scienpress.com/journal_focus.asp?Main_Id=59.

[20]  Adamo, N., Al-Ansari, N., and Sissakian, V. K. 2020. “Global Climate Change Impacts on Tigris-Euphrates Rivers Basins.” J. Earth Scien. Geotech. Engin. 10 (1): 77-126. http://www.scienpress.com/journal_focus.asp?main_id=59&Sub_id=IV&volid=413.

[21]  Adamo, N., Al-Ansari, N., Sissakian, V. K., Laue, J., and Al-Khanfar, S. A. A. 2023. “Virtual Water Trade and Food Security for Iraq.” Engineering 15: 417-30.

[22]  Al-Ansari, N., Adamo, N., and Sissakian, V. K. 2019. “Water Shortages and Its Environmental Consequences within Tigris and Euphrates Rivers.” J. Earth Scien. Geotech. Engin. 9 (4): 27-56. http://www.scienpress.com/journal_focus.asp?main_id=59&Sub_id=IV&Issue=1389407.

[23]  Al-Ansari, N., Adamo, N., and Sissakian, V. K. 2019. “Water Quality and Its Environmental Implications within Tigris and Euphrates Rivers.” J. Earth Scien. Geotech. Engin. 9 (4): 57-108. http://www.scienpress.com/journal_focus.asp?main_id=59&Sub_id=IV&Issue=1391375.

[24]  Sissakian, V. K., Adamo, N., Al-Ansari, N., and Laue, J. 2023. “The Severe Consequences of Climate Change in Iraq. A Case Study.” J. Eng. 15: 242-60.

[25]  Conacher, A., and Conacher, J. 1995. Rural Land Degradation in Australia. South Melbourne, Victoria: Oxford University Press, pp. 144-59.

[26]  Johnson, D. L., Ambrose, S. H., Bassett, T. J., Garfield Bowen, M. L., Crummey, D. E., Isaacson, J. S., Johnson, D. N., Lamb, P., Saul, M., and Winter-Nelson, A. E. 1997. “Meanings of Environmental Terms.” J. Environm. Qual. 26: 581-9.

[27]  Sissakian, V. K., Al-Ansari, N., Adamo, N., Abdullah, M., and Laue, J. 2020. “Desertification and Salinization of the Mesopotamian Plain. A Critical Review.” J. Earth Sci. Geotech. Eng. 10 (4): 125-42. file:///C:/Users/Varoujan/Desktop/Vol%2010_4_6.pdf.

[28]  The Main Drain Channel. 2023. Accessed April 16, 2023. https://ar.wikipedia.org/wiki/%D8%A7%D9%84%D9%85%D8%B5%D8%A8_%D8%A7%D9%84%D8%B9%D8%A7%D9%85. (in Arabic)

[29]  Attane, I. 2022. “China’s New Three-Child Policy: What Effects Can We Expect?” Popular Societies 596 (1): 1-4. https://www.cairn-int.info/journal-population-and-societies-2022-1-page-1.htm.



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