Abstract
Swarming water-related problems are threatening many arid and semiarid regions of the earth, and Iran is no exception. Integrating such problems with health, environmental, political, socioeconomic, and sustainability issues has greatly increased demand for managing the problems. This research investigates the Iranians abilities in managing, developing, and maintaining their water resources throughout different traditional, transitional, and modern time periods. The study shows until the mid-transitional period, owning to the low population and large per capita water availability, Iranians did not feel a great need to make upgrades and alterations in managing water. In the late transitional period, after sending students to the West and founding advanced universities, gradually modern hydrological technologies started appearing in the major cities. In the modern era, population explosion, industry’s development, consumerism culture, and unprecedented urbanization coupled with drought and global warming, have brought many difficulties for water sectors. Hence, the desire for supply-based policies has prevailed, and some strategies, such as deep-pumped well drilling, dam building, and inter-basin water transferring, have been undertaken to fix the problems. However, the water resource sustainability not only has not improved, but has worsened through imprudent policies such as food self-sufficiency and subsidizing water. Groundwater over-abstraction, soil–water degradation, shrinking and drying up of water bodies, intensifying flood hazards, dust storming, agricultural and ecological losses, and depopulation of rural areas are among direct and indirect evidence that confirm this claim. In conclusion, if these problems persist, the country will be at risk from water insecurity and water access conflicts.
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After Rahimi et al. (2013)
After Delauncey (2017)
After Alemohammad and Gharari (2010)
Source data after Gurbuz and Yilmaz (2007)
After Kousari et al. (2011)
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Notes
Center for South Asian and Middle Eastern Studies.
Statistical Center of Iran.
Islamic Republic of Iran Meteorological Organization.
Iran Water Resources Management Company.
Tehran Regional Water Authority.
Agricultural Planning and Economic Research Institute.
National Water and Wastewater Engineering Company.
National Drought Warning and Monitoring Center.
General Circulation Model.
Intergovernmental Panel on Climate Change.
Khuzestan Water and Power Organization.
United Nations International Strategy for Disaster Reduction.
Global Water Partnership.
United Nations Development Program.
References
Abattouy, M. (1999). The Arabic tradition of mechanics: Textual and historical characterization. Majallat kulliyyat al-adab wa al-ulum al-insaniyya bi-Fas (Journal of the Faculty of Letters and Humanities in Fez),12(1), 75–109.
Abbaspour, K. C., Faramarzi, M., Ghasemi, S. S., & Yang, H. (2009). Assessing the impact of climate change on water resources in Iran. Water Resources Research,45, W10434. https://doi.org/10.1029/2008WR007615.
Abdi, F., Atarodi, Z., Mirmiran, P., & Esteki, T. A. (2016). Review of nutritional status in Iranian population. Focus on Sciences. https://doi.org/10.20286/focsci-020332.
Alasti, S. (2013). Legislation on use of water in agriculture. Washington, DC: The Law Library of Congress, Global Legal Research Center.
Alcamo, J., Henrichs, T., & Rosch, T. (2000). World water in 2025-Global modeling and scenario analysis for the world commission on water for the 21st century. In: Report A0002, Center for Environmental Systems Research, University of Kassel, Kurt Wolters Strasse 3, 34109 Kassel, Germany.
Alemohammad, S. H., & Gharari, S. (2010) Qanāt: An ancient invention for water management in Iran. In Proceedings of water history conference, Delft, The Netherlands
Al-Hassan, A. Y., & Hill, R. (1986). Islamic technology: An illustrated history. Cambridge: Cambridge University Press.
Alizadeh, A., & Keshavarz, A. (2005). Status of agricultural water use in Iran, in water conservation, reuse, and recycling. In Proceedings of an Iranian-American workshop (Vol. 4, pp. 94–105). Washington, DC: National Academies Press.
Amanat, A. (2016). Environment and culture: An introduction. Journal Iranian Studies,49(6), 925–941. https://doi.org/10.1080/00210862.2016.1241563.
Amiri, M. J., & Eslamian, S. S. (2010). Investigation of climate change in Iran. Journal of Environmental Science & Technology,3(4), 208–216.
APERI. (1997). Comprehensive research of restoring and development of agriculture and natural resources of lower Karkheh. Final Report—Abstract and Sum Up of Reports, Tehran, Iran.
Ardakanian, R. (2003). An overview of water management in Iran. In Proceedings of the Dushanbe international fresh water forum, Tajikistan.
Ardakanian, R. (2004). Long-term development strategies for Iran’s water resources. Tehran: Public Relations and International Affairs Bureau of Iran Water Resource Management Company.
Aresvik, O. (1976). The agricultural development of Iran. California: Praeger Publishers.
Asem, A., Mohebbi, F., & Ahmadi, R. (2012). Drought in Urmia Lake, the largest natural habitat of brine shrimp Artemia. World Aquaculture,43(1), 36–38.
Asgharpour, S. E., & Ajdari, B. (2011). A case study on seasonal floods in Iran, watershed of Ghotour Chai Basin. Procedia-Social and Behavioral Sciences,19, 556–566.
Assadollahi, S. A. (2009) Groundwater resource management in Iran. In Technical papers in the 5th Asian regional conference of INCID, Vigyan Bhawan, New Delhi, India.
Atieh Bahar Consulting. (2008). Iran agriculture brief. Tehran: Department of Agriculture. (in Persian).
Attari, J., & Dijk, M. P. V. (2016). Reaching the poor in Mashhad City: From subsidizing water to providing cash transfers in Iran. International Journal of Water,10(2–3), 213–227.
Balali, M. R., Keulartz, J., & Korthals, M. (2009). Reflexive water management in arid regions: The case of Iran. Environmental Values,18(1), 91–112.
Baqa Dashtaki, B., Khamechian, M., & Nazari, M. (2010). Determination of the solubility of Anbal salt dome in Gotvand Olya and its effect on the quality of water reservoir. In Proceedings of the first national conference of practical studies of water resources of Iran, Tehran, Iran.
Bastan, M., Abdollahi, F., & Shokoufi, K. (2013). Analysis of Iran’s dust emission with system dynamics methodology. Technical Journal of Engineering and Applied Sciences,3(24), 3515–3524.
Bastanirad, H. (2012). System of capital in Iran during Seljuk period: With an emphasis on main cities of Kerman. Motaleat-e farhangi Journal,3(10), 29–48.
Beaumont, P. (1974). Water resource development in Iran. Geographical Journal,140(3), 418–431.
Behnia, A. (2000). Qanāt making and Qanāt maintenance. Tehran: Tehran University Center Press. (in Persian).
Birol, F. (2010). World energy outlook. Paris: International Energy Agency.
Chapagain, A. K., & Hoekstra, A. Y. (2003a). Virtual water flows between nations in relation to trade in livestock and livestock products. Delft: UNESCO-IHE Institute for Water Education.
Chapagain, A. K., & Hoekstra, A. Y. (2003). Virtual water trade: A quantification of virtual water flows between nations in relation to international trade of livestock and livestock products. In: Virtual water trade. Proceedings of the international expert meeting on virtual water trade (pp. 49–76). Delft: UNESCO-IHE (United Nations Educational, Scientific and Cultural Organization-Institute for Water Education).
Clarkson, C., et al. (2017). Human occupation of northern Australia by 65,000 years ago. Nature,547(7663), 306.
Costanzia, J., Graumlich, L., Steffen, W., Crumley, C., Dearing, J., Hibbard, K., et al. (2007). Sustainability or collapse: what can we learn from integrating the history of humans and the rest of nature? Royal Swedish Academy of Sciences. Ambio,36, 522–527.
CSAMES. (2017). Water in the Middle East. Illinois: University of Illinois at Urbana-Champaign. www.csames.illinois.edu. Accessed 2 June 2017.
Curtis, G. E., & Hooglund, E. (1978). Iran, a country study. Washington, DC: Government Printing Office. ISBN 978-0-8444-1187-3.
Damoq, N., & Zareei, H. (2010). The spread of thick salt layers of Gachsaran formation in Gotvand Olya dam reservoir and its effect on water quality. In Proceedings of the first international conference on practical studies on water resources of Iran, Tehran, Iran.
Dandamayev, M. A. (1992). Iranians in Achaemenid Babylonia. Tehran: Mazda Publishers.
Dandamayev, M. A., & Lukonin, V. G. (1989). The culture and social institutions of ancient Iran. English edition by P. L. Kohl with the assistance of D. J. Dadson. Cambridge: Cambridge University Press.
Danilenko, A., Van den Berg, C., Macheve, B., & Moffitt, L. J. (2014). The IBNET water supply and sanitation blue book 2014: The international benchmarking network for water and sanitation utilities databook. Washington: World Bank Publications.
Daryaee, T. (2008). The political history of Eransahr (224–651 CE). Irvine: E-Sasanika2, University of California.
De Schacht, T., De Dapper, M., Asadi, A., Ubelmann, Y., & Boucharlat, R. (2012). Geoarchaeological study of the Achaemenid dam of Sad-i Didegan (Fars, Iran). Géomorphologie-relief Processus Environnement,1, 91–108.
Deihimfard, R., Zand, E., Damghani, A. M., & Soufizadeh, S. (2007). Herbicide risk assessment during the wheat self-sufficiency project in Iran. Pest Management Science,63(10), 1036–1045.
Delauncey, L. (2017). New date rewrites history of man’s migration out of Africa: Arte facts reveal humans arrived in Australia 20,000 years earlier and lived alongside giant kangaroos and tortoises (The graphic of the movement). https://www.dailymail.co.uk/sciencetech/article-4710982/Humans-reached-Australia-18-000-years-earlier-thought.html.
Doostan, R. (2015). Analysis of the Iran droughts in the past half century. Journal of Climate Research,6(23), 1–18. (in Persian).
Eduljee, K. E. (2008). What is a Kareez/Kariz/Karez (Qanāt)? Zoroastrian Heritage. Heritage Institute. http://www.heritageinstitute.com/zoroastrianism/kareez/index.htm. Accessed 6 July 2016.
Eghbal Ashtiani, A. (1986). Moghul history. Tehran: Amirkabir Publishing. (in Persian).
Ehsani, K. (2006). Rural society and agricultural development in post-revolution Iran: the first two decades. Critique: Critical Middle Eastern Studies,15(1), 79–96.
English, P. W. (1968). The origin and spread of qanats in the Old World. Proceedings of the American Philosophical Society,112(3), 170–181.
Ertsen, M., & De Schacht, T. (2013). Modeling an ancient Iranian dam system. In EGU general assembly conference abstracts (Vol. 15).
Eslamian, S., Davari, A., & Reyhani, M. N. (2017). Iranian Qanāts: An ancient and sustainable water resources utilization. In A. N. Angelakis, et al. (Eds.), Underground aqueducts handbook, Ch. 9 (pp. 123–150). Boca Raton: Taylor and Francis, CRC Group.
Estaji, H., & Raith, K. (2016). The role of Qanāt and irrigation networks in the process of city formation and evolution in the Central Plateau of Iran, the Case of Sabzevar. In Urban change in Iran (pp. 9–18). Cham: Springer. ISBN: 978-3-319-26113-3.
Etheredge, L. S. (2011). The Middle East in transition, Iran. Chicago: Britannica Educational Publishing.
Factbook, C. I. A. (Ed.) (2010). The World Factbook (2009). https://www.cia.gov/library/publications/download/download-2009/index.html.
Factbook, C. I. A. (Ed.) (2015). The World Factbook (2014). https://www.cia.gov/library/publications/download/download-2009/index.html.
Falkenmark, M. (1989). The massive water scarcity threatening Africa: Why isn’t it being addressed? Ambio,18(2), 112–118.
FAO. (2008). Irrigation in the Middle East region in figures. AQUASTAT Survey Bureau for Agricultural Census and Information. www.fao.org. Accessed 2 May 2016.
FAO. (2014). Country fact sheet on food and agriculture policy trends. Rome: FAO.
FAO. (2015). General summary Asia-irrigation. Rome: FAO.
Faramarzi, M., Yang, H., Mousavi, J., Schulin, R., Binder, C. R., & Abbaspour, K. C. (2010). Analysis of intra-country virtual water trade strategy to alleviate water scarcity in Iran. Hydrology and Earth System Sciences,14(8), 1417.
Farhangi, B. (2003). Water melody in the passage of time: A review of hydro structures of Iran from the ancient era to present time. Tehran: Ministry of Energy.
Foltz, R. C. (2002). Iran’s water crisis: Cultural, political, and ethical dimensions. Journal of Agricultural and Environmental Ethics,15(4), 357–380.
Frenken, K. (2009). Irrigation in the Middle East region in figures AQUASTAT Survey-2008. Rome: Food and Agriculture Organization of the United Nations.
Garousi, V., Najafi, A., Samadi, A., Rasouli, K., & Khanaliloo, B. (2013). Environmental crisis in Lake Urmia, Iran: A systematic review of causes, negative consequences and possible solutions. In Proceedings of the 6th international perspective on water resources and the environment (IPWE), Izmir, Turkey.
Ghadiri Masoum, M., & Najafi Kani, A. A. (2003). Development program after the Islamic revolution and its impact on rural areas. Geographical Research,35(1), 111–121. (in Persian).
Ghazani, M. T., & Siedzadeh, A. (2014). Investigation of targeted subsidy act on technical and financial performance of urban water and wastewater companies. In Proceedings 5th national conference on water resources management, Tehran, Iran. (in Persian).
Ghirshman, R. B. (1954). Iran: From the earliest times to the Islamic conquest. Harmondsworth: Penguin books Ltd.
Ghobadi, A. S. (2014). Challenges to the country’s groundwater resources and applicable procedures. In Proceedings of the first workshop of hydrogeology. Tehran: Geological Survey of Iran.
Gholikandi, G. B., Sadrzadeh, M., Jamshidi, S., & Ebrahimi, M. (2013). Water resource management in ancient Iran with emphasis on technological approaches: A cultural heritage. Journal of Water Supply: Research and Technology – AQUA,13(3), 582–589. https://doi.org/10.2166/ws.2013.084.
Gohari, A., Eslamian, S., Abedi-Koupaei, J., Bavani, A. M., Wang, D., & Madani, K. (2013). Climate change impacts on crop production in Iran’s Zayandeh-Rud River Basin. Science of the Total Environment,442, 405–419.
Goharpour, H., & Jalalkamali, V. (2016). Studying the myth of water in ancient Iran and its relationship with rain-making rituals. The Turkish Online Journal of Design, Art and Communication- TOJDAC. https://doi.org/10.7456/1060AGSE/017.
Government of I.R. Iran. (2003). Long-term development strategies for Iran’s water resources. Tehran: Iran Water Resource Management Company, Ministry of Energy.
Government of I.R. Iran. (2013). Food agreement between the Governments of the United State, the Governments of the United Kingdom and the Imperial Iranian Government. Executive Agreement Series 292.
Grant, E. H. C., Lynch, H. J., Muneepeerakul, R., Arunachalam, M., Rodríguez-Iturbe, I., & Fagan, W. F. (2012). Inter-basin water transfer, riverine connectivity, and spatial controls on fish biodiversity. PLoS ONE,7(3), e34170. https://doi.org/10.1371/journal.pone.0034170.
Gurbuz, A., & Yilmaz, Ö. (2007). Sustainable energy supply studies in Turkey and the role of EIE. In Proceedings of international congress on river basin management, Turkey.
Gurung, P. (2015). Inter-basin water transfer: Is this a solution for water scarcity?. Nepal: Pabitra Gurung Publications.
GWP (Global Water Partnership). (2000). Towards water security: A framework for action. Stockholm: GWP.
Habashiani, R. (2011). Qanāt: A sustainable groundwater supply system. Doctoral dissertation, James Cook University, Queensland, Australia.
Harris, J. R., Schiantarelli, F., & Siregar, M. G. (2000). Qanāt: A sustainable groundwater supply system. Washington: The World Bank.
Heidemy. (1960). Dez irrigation project: Report of land and water rights. Arnhem, Netherlands
Hooglund, E. (1982). Land and revolution in Iran, 1960–1980. Austin: University of Texas Press.
IPCC. (2012). Managing the risks of extreme events and disasters to advance climate change adaptation: Special report of the intergovernmental panel on climate change. Ed. C. B. Field. Cambridge University Press.
Iran Department of Environment. (2014). Towards a solution for Iran’s drying wetlands, conclusions and recommendations. Tehran: Prepared in Cooperation with UNDP. International Technical Round Table on Drying Wetlands.
IRIMO. (2017). Annual report of climatic statistics. http://www.irimo.ir. Accessed 2 February 2017.
IWRMC. (2010). Water yearbook 2008–2009. Tehran: Water and Wastewater Department. Report to Ministry of Energy.
IWRMC. (2012). An overview of water resource management in IR of Iran. Tehran: Report to Ministry of Energy.
IWRMC. (2017). List of dams and reservoirs in Iran. http://www.wrm.ir. Accessed 2 May 2017.
Javaheri, P., & Javaheri, M. (2006). Challenge for water in ancient fars, Volume I, II and III. The regional water company of Fars, Boushehr and Kohkiloye & Boyer Ahmad, Iran.
Javanmard, S., Emamhadi, M., BodaghJamali, J., & Didehvarasl, A. (2017). Spatial–temporal analysis of drought in Iran using SPI during a long-term period. Earth Science,6(2), 15. https://doi.org/10.11648/j.earth.20170602.12.
Kazem, M., Hasanzadeh, M., & Maknoon, R. (2013). Water transmission protocols and sustainable development in face of climate change. Case study: Urban water supply in Dez to Qomrood Water Transmission Project, Iran. Environmental Management and Sustainable Development,2(2), 41–53.
Keshavarz, A., Ashrafi, S. H., Hydari, N., Pouran, M., & Farzaneh, E. (2005). Water allocation and pricing in agriculture of Iran. In Water conservation, reuse, and recycling. Proceedings of an Iranian American workshop (pp. 153–172). Washington: The National Academies Press.
Koch, H. (1990). Administrative and economic configuration of central parts of Iran during Achaemenids. Wiesbaden: Reichert.
Kolahduzan, M. (2005). Iran the land of water and light. Iran: Tehran University Publication.
Kousari, M. R., & Asadi Zarch, M. A. (2010). Minimum, maximum, and mean annual temperatures, relative humidity, and precipitation trends in arid and semi-arid regions of Iran. Arabian Journal of Geosciences . https://doi.org/10.1007/s12517-009-0113-6.
Kousari, M. R., Ekhtesasi, M. R., Tazeh, M., Naeini, M. A. S., & Zarch, M. A. A. (2011). An investigation of the Iranian climatic changes by considering the precipitation, temperature, and relative humidity parameters. Theoretical and Applied Climatology,103(3–4), 321–335.
Kuros, G. R. (1971). Water and irrigation techniques in ancient Iran. Tehran: Iranian National Committee on Irrigation and Drainage.
KWPO. (2016). Technical report on flood in rivers and flood plains. Ahvaz: Irrigation and Drainage Department of Khuzestan Water and Power Organization. (in Persian).
Lenczowski, G. (1978). Iran under the Pahlavis. Stanford: Hoover Institution Press, Stanford University.
Madani, K. (2014). Water management in Iran: What is causing the looming crisis? Journal of Environmental Studies and Sciences,4(4), 315–328.
Madani, K., AghaKouchak, A., & Mirchi, A. (2016). Iran’s socioeconomic drought: challenges of a water-bankrupt nation. Iranian Studies,49(6), 997–1016.
Madani Larijani, K. (2005). Iran water crisis, inducers, challenges and counter measures. In Proceedings of ERSA 45th congress of the European regional Science Association, 23-27 August 2005. Amsterdam: Vrige University.
Mahab Ghodss Consulting Engineering Co. (2012). Geotechnical characteristics of the Upper Gotvand Dam foundation. Tehran: Report for Upper Gotvand Dam, Dam Department. (in Persian).
Mahdavi, S. (1999). For God, Mammon, and Country: a nineteenth-century Persian Merchant. Colorado: Westview Press.
Mahdei, K. N., Pouya, M., Taheri, F., Azadi, H., & Van Passel, S. (2015). Sustainability indicators of Iran’s developmental plans: Application of the sustainability compass theory. Sustainability,7(11), 14647–14660.
Maknoon, R., Kazem, M., & Hasanzadeh, M. (2012). Inter-basin water transfer projects and climate change: The role of allocation protocols in economic efficiency of the project. Case study: Dez to Qomrood Inter-Basin Water Transmission Project (Iran). Journal of Water Resource and Protection,4(09), 750.
Malakouti, M. J., Nafici, N., & Motesharrezadeh, B. (2001). National effort for production of fertilizers as a step toward self-sufficiency and sustainable agriculture. Karaj: Ministry of Agriculture.
Marjanizadeh, S., Qureshi, A. S., Turral, H., & Talebzadeh, P. (2009). From Mesopotamia to the third millennium: The historical trajectory of water development and use in the Karkheh River Basin, Iran. Colombo: International Water Management Institute.
Matthee, R. (2016). Patterns of food consumption in early modern Iran. Oxford Handbooks Online. https://doi.org/10.1093/oxfordhb/9780199935369.013.13.
McLachlan, K. (1979). The agricultural development of Iran. International Affairs,55(1), 155–156.
Miller, F., Bolitho, A., Jamieson, N., Catmur, C., Hurlimann, A., & Bowen, K. (2014). A plan to push limits? Investigating the ecologically sustainable development dimensions of Melbourne’s Central Region sustainable water strategy. Australian Geographer,45(1), 19–35.
Ministry of Energy. (2016). Investigation of flood damages. Water and Wastewater Division: Journal No. 164 - N. Tehran, Iran.
Ministry of Interior. (1961). National and province statistics of the first census of Iran: November 1956. Public Statistics of the Ministry of Interior, 2 volumes, Tehran, Iran.
Ministry of Interior. (1994). Public statistics: Agricultural statistics in Iran (Vol. 15). Tehran: Ministry of Interior.
Ministry of Jihad-e Agriculture. (2015). Agricultural statistics data. Tehran: Bureau for Base Information and Studies, Ministry of Jihad-e Agriculture. (in Persian).
Ministry of Power. (2012). Energy balance (2011). Tehran: Ministry of Power Publications.
Modarres, R., & Sarhadi, A. (2009). Rainfall trends analysis of Iran in the last half of the twentieth century. Journal of Geophysics Research,114(D03101), 1–9. https://doi.org/10.1029/2008JD010707.
Moghimi Benhangi, S., Bagheri, A., & Abolhassani, L. (2018). Assessment of formal water institution in Iran corresponding to the mechanisms governing emergence of agricultural water demand regarding the social learning framework. Iran-Water Resources Research,14(1), 140–159.
Moshanir Consulting Engineering Co. (1997). Upper Gotvand hydroelectric power project, feasibility study, Appendix 4, Civil Design of Project, Dam Department, Tehran, Iran. (in Persian).
Motiee, H., Monouchehri, G. H., & Tabatabai, M. R. M. (2001). Water crisis in Iran, codification and strategies in urban water. In Proceedings of the Workshops held at the UNESCO Symposium, Technical documents in Hydrology No. 45, Marseille, June 2001 (pp. 55–62).
Naderi, M., & Raeisi, E. (2016). Climate change in a region with altitude differences and with precipitation from various sources, South-Central Iran. Theoretical and Applied Climatology,124(3–4), 529–540.
Nadji, M., & Voigt, R. (1972). “Exploration for Hidden Water” by Mohammad Karaji—The Oldest Textbook on Hydrology? Groundwater,10(5), 43–46.
Najafi, A., & Vatanfada, J. (2011). Environmental challenges in trans-boundary waters, case study: Hamoon Hirmand wetland (Iran and Afghanistan). International Journal of Water Resources and Arid Environments,1(1), 16–24.
National Disaster Management Organization. (2017). The list and impacts of great disasters in Iran. Tehran: The Ministry of Interior’s National Disaster Management Organization.
NDWMC. (2017). The final report of drought in Iran (Watersheds and Provinces). Tehran: National Drought Warning and Monitoring Center.
NWWEC. (2017). Annual performance report of Iranian urban water and wastewater companies in 2015. Tehran: Iranian Water and Wastewater Engineering Company. (in Persian).
OECD. (2012). Water governance in Latin American and the Caribbean: A multi-level approach. OECD Studies on Water. Paris: OECD Publishing.
Omrani, A. (2013). The management of water in Iran. Master of Science in Business Administration Program Thesis. Faculty of Economics & Management Commercial Sciences & Management Field of Study. Hogeschool Universiteit Brussels, Belgium.
Pagliai, M., Vignozzi, N., & Pellegrini, S. (2004). Soil structure and the effect of management practices. Soil and Tillage Research,79(2), 131–143.
Pahlavi, F. (2005). An enduring love: My life with the Shah-A Memoir. Los Angeles: Miramax Books.
Panahi, A., Alijani, B., & Mohammadi, H. (2010). The effect of the land use/cover changes on the floods of the Madarsu Basin of Northeastern Iran. Journal of Water Resource and Protection,2(04), 373.
Parliament of Iran. (1983). Law of fair water distribution. Tehran: The Islamic Republic of Iran Parliament.
Parliament of Iran. (2011). The “Law on the Fifth Five-Year Economic, Cultural, and Social Development Plan for 1389–1394 (2010–2015. Tehran: The Islamic Republic of Iran Parliament.
Pazira, E., & Sadeghzadeh, K. (1999). Sustainable soil and water use in agricultural sector of Iran. In Proceedings of 99 international conference on agricultural engineering, Beijing, China (pp. II25–II32).
Petersen, A. (1996). Dictionary of Islamic architecture. London: Psychology Press, Taylor & Francis Group.
Plant G (1995) Water as a weapon in war. In Proceedings of the water and war, symposium on water in armed conflicts, Montreux 21–23 November 1994, Geneva, ICRC, Italy.
Priscoli, J. D. (2000). Water and civilization: Using history to reframe water policy debates and to build a new ecological realism. Water Policy,1(6), 623–636.
Rahimi, J., Ebrahimpour, M., & Khalili, A. (2013). Spatial changes of extended De Martonne climatic zones affected by climate change in Iran. Theoretical and Applied Climatology,112(3–4), 409–418.
Rajabi, G. R., Ostad-Ali-Askari, K., Eslamian, S., Singh, V. P., Dalezios, N. R., et al. (2018). Non-accounted water assessment at the level of water distribution networks in Isfahan’s Small communities, Isfahan, Iran. Journal of Environmental Research,2(1), 4.
Raskin, P., Gleick, P., Kirshen, P., Pontius, G., & Strzepek, K. (1997). Water futures: Assessment of long-range patterns and prospects. Stockholm: Stockholm Environment Institute.
Rezakhani, Kh. (2008). The Bactrian collection: An important source of sasanian economic history. E-Sasanika 3, University of California, LA.
Sadr, H. (2017). National Museum of Iran (Iran-e Bastan). Tavoos Art Quarterly, No. 7. http://www.tavoosonline.com/Articles. Accessed 2 May 2017.
Saghafian, B., & Davtalab, R. (2007). Mapping snow characteristics based on snow observation probability. International Journal of Climatology,27(10), 1277–1286.
Saghafian, B., Farazjoo, H., Bozorgy, B., & Yazdandoost, F. (2008). Flood intensification due to changes in land use. Water Resources Management,22(8), 1051–1067.
Saliba, G. (1995). A history of Arabic astronomy: Planetary theories during the golden age of Islam. New York: New York University Press. ISBN 0-8147-8023-7
Samadi-Boroujeni, H., & Saeedinia, M. (2013). Study on the impacts of inter-basin water transfer: Northern Karun. African Journal of Agricultural Research,8(18), 1996–2002.
Sanizadeh, S. K. (2008). Novel hydraulic structures and water management in Iran: A historical perspective. In El Moujabber, S., Trisorio-Liuzzi, O., & Laureano, R. (Eds.) Water culture and water conflict in the Mediterranean area. Options Méditerranéennes, 83, 25–43.
Savory, R. (2007). Iran under the Safavids. Cambridge: Cambridge University Press.
Sazeh Ab Shafagh Consulting Engineers. (2003). The Compiling Plan of Research and Water-Resource (Surface & GW) Atlas Preparation of Karkheh River Basin. First Volume: Statistics, Information and Preliminary Survey. Sazeh Ab Shafagh Consulting Engineers Reports, Tehran, Iran.
SCI. (1998). Distribution and classification of urban population of Iran (1957–1997). Tehran: Statistical Center of Iran Press. (in Persian).
SCI. (2012). Statistical yearbook of Iran, 2011. Tehran: Statistical Center of Iran. (in Persian).
SCI. (2017). Statistical Yearbook of Iran, 2016. Tehran: Statistical Center of Iran. (in Persian).
Semsar Yazdi, A. A. (2010). Qanāt, from practitioners’ point of view. Tehran: Water Resource Management Organization Press. (in Persian).
Semsar Yazdi, A. A., & Askarzadeh, S. (2007). A historical review on the Qanāts and historic hydraulic structures of Iran since the first millennium BC. In Proceedings of the international history seminar on irrigation and drainage, Tehran, Iran.
Shahri, J. (2000). Tehran’s social history in the thirteenth century. Tehran: Rasa Publications. (in Persian).
Sharifi Garmdareha, E., Vafakhahb, M., & Eslamian, S. (2018). Regional flood frequency analysis using support vector regression in the arid and semi-arid regions of Iran. Hydrological Sciences Journal. https://doi.org/10.1080/02626667.2018.1432056.
Sharifi, F., Samadi, S. Z., & Wilson, C. A. (2012). Causes and consequences of recent floods in the Golestan catchments and Caspian Sea regions of Iran. Natural Hazards,61(2), 533–550.
Tabari, H., Marofi, S., Zare Abyaneh, H., Amiri Chayjan, R., & Sharifi, M. R. (2008). Comparison of combined methods and artificial neural network for estimation snow water equivalent in Samsami basin. In: 3th conference on water resource management of Iran, Tabriz, Iran.
Tajrishy, M. (2010). Wastewater treatment and reuse in Iran: Situation analysis. Tehran: Department of Civil Engineering, Sharif University of Technology, Environment and Water Research Center (EWRC).
Tajrishy, M., Cities, S., Abdolghafoorian, A., & Abrishamchi, A. (2014). Water reuse and wastewater recycling: Solutions to Tehran’s growing water crisis. In W. Quentin Grafton & A. White (Eds.), Global water: Issues and insights. Acton: ANU Press.
Tavassoli, M. (2016). Urban structure in hot arid environments. Cham: Springer.
The World Bank. (2018). Iran: Water supply and sanitation project (English). Washington, DC: World Bank.
The World Bank. (2017). Agriculture and rural development. Washington, DC: The World Bank open data, the World Bank.
Teymori, P., & Gohardoust, A. (2013). General attitude to the impact of climate change on water resources Middle East (with Iran). Journal of Geology and Geophysics,2, 132. https://doi.org/10.4172/2329-6755.1000132.
Tisseuil, C., Roshan, G. R., Nasrabadi, T., & Asadpour, G. A. (2013). Statistical modeling of future lake level under climatic conditions, Case study of Urmia Lake (Iran). International Journal of Environmental Research,7(1), 69–80.
Tockner, K., Bernhardt, E. S., Koska, A., & Zarfl, C. (2016). A global view on future major water engineering projects. In R. Hüttl, O. Bens, C. Bismuth, & S. Hoechstetter (Eds.), Society—water—technology. Water resources development and management. Cham: Springer.
TRWA. (2002). Tehran water data. Tehran: Internal Reports, Tehran Regional Water Authority. (in Persian).
UNDP. (1999). Agenda 21: Economic aspects of sustainable development in the Islamic Republic of Iran. http://www.un.org/esa/agenda21/natlinfo/countr/iran/eco.htm. Accessed 2 June 2018.
UNISDR. (2009). Global assessment report on disaster risk reduction. Geneva: United Nations International Strategy for Disaster Reduction (UN ISDR). ISBN: 980852698, 207.
Vafakhah, M. (2018). Spatiotemporal variability of snow depth, density, and water equivalent across Iran. Russian Meteorology and Hydrology,43(2), 118–126.
Valentine, A. (Ed.) (2013). The business year: Iran 2013. London, UK. ISBN: 978-1-908180-11-7. http://www.scimagojr.com. Accessed 2 February 2015.
Waite, J., & Haidari, J. (2009). Persia. Tehran: Megaps Co. Ltd.
Yazdanpanah, M., Hayati, D., Zamani, G. H., Karbalaee, F., & Hochrainer-Stigler, S. (2013). Water management from tradition to second modernity: An analysis of the water crisis in Iran. Environment, Development and Sustainability,6, 1605–1621.
Yousif, A. F. (2000). A socio-cultural, religious analysis of Al-Biruni’s contributions towards the study of science, mathematics and philosophy. IIUM Engineering Journal, 1.
Zafarnejad, F. (2009). The contribution of dams to Iran’s desertification. International Journal of Environmental Studies,66(3), 327–341.
Zargan, J., & Waez Mousavi, S. M. (2016). Water crisis in Iran: It’s intensity, causes and confronting strategies. Indian Journal of Science and Technology,9(44), 1–6. https://doi.org/10.17485/ijst/2016/v9i44/100632.
Zarghami, M., Abdi, A., Babaeian, I., Hassanzadeh, Y., & Kanani, R. (2011). Impacts of climate change on runoffs in East Azerbaijan, Iran. Global and Planetary Change,78(3), 137–146.
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Saatsaz, M. A historical investigation on water resources management in Iran. Environ Dev Sustain 22, 1749–1785 (2020). https://doi.org/10.1007/s10668-018-00307-y
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DOI: https://doi.org/10.1007/s10668-018-00307-y