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Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran)

Year 2020, , 406 - 421, 29.09.2020
https://doi.org/10.33462/jotaf.703167

Abstract

Meeting the
healthy nutrition needs of the increasing population in the arid and semi-arid
climates of the different regions of the world such as Iran has become very
important for the agriculture ministry and water resources managers. In this
study, the system dynamics approach was used in the Vensim software environment
to allocate the water of the Zonouz dam reservoir for irrigation purposes in
the northwest of Iran. For this purpose, the existing surface water resources
in the basin and the amounts of agricultural water and environmental water
demands were determined and a water allocation plan was developed. In the first
stage of the study, it was found that if the existing water resources and
demands will not change, the amount of water stored in the reservoir will
provide approximately 91% of irrigation water demands and approximately 99% of
environmental water needs. The model created in the study was found to be
sensitive to reservoir inputs and irrigation water demands. Within the scope of
this study, the impact of two different scenarios that may occur as a result of
climate change and irrigation management in the operation of the reservoir was
evaluated. The decrease in the amount of water entering the reservoir in the
first scenario and the increase in irrigation water needs in the second
scenario are assumed within the next 10 years. According to the simulation
results of the first scenario, irrigation water demands will not be met
sufficiently with the decrease in the amount of water to be stored in the
reservoir due to the decrease in the amount of water entering the reservoir in
the next 10 years. According to the results of the second scenario, in the next
10 years due to possible climate change or if the cultivated area increases due
to some new agricultural policies; The amount of water stored in the reservoir
will not meet the irrigation demands and there will be water shortage in the
system. In this case, it is necessary to make changes in irrigation water
management and use new irrigation systems to save water. Based on the findings
of the study, it has been observed that the impact of all types of irrigation
water policies can be successfully evaluated within the scope of the system
dynamics approach.

References

  • Abadi, L.S.K., Shamsai, A. and Goharnejad, H., 2015. An analysis of the sustainability of basin water resources using Vensim model. KSCE Journal of Civil Engineering, 19(6), pp.1941-1949. https://doi.org/10.1007/s12205-014-0570-7
  • Abdi, A., Hassanzadeh, Y., Talatahari, S., Fakheri-Fard, A., Mirabbasi, R., (2017). Regional Drought Frequency Analysis Using L-Moments and Adjusted Charged System Search. Journal of Hydroinformatics. 19(3): 426- 442. DOI: 10.2166/hydro.2016.228.
  • Abrishamchi, A., Golian, S., and Tajrishi, M., 2007. Analysis of water utilization policies in the basin with the system dynamics method. Journal of Water and Wastewater. 63: 70-80.
  • Alami, M., Farzin, S., Ahmadi, M., Aghabalaee, B. (2014). 'System Dynamics Modeling of Dam and Groundwater for Optimal Water Management (Case study: Golak Dam)', Journal of Civil and Environmental Engineering, 44.1(74), pp. 1-12.
  • Arshadi, M., Bagheri A., 2013. A System Dynamic Approach to Sustainability Analysis in Karun River Basin, Iran. Iran-Water Resources Research Journal. 9 (3): 1-13.
  • Babaeian, F., Bagheri, A., Rafieian, M., 2016. Vulnerability Analysis of Water Resources Systems to Water Scarcity Based on a Water Accounting Framework (Case Study: Rafsanjan Study Area). Iran- Water Resources Research. 12 (1): 1-17
  • Baron, J.S., Poff, N.L., Angermeier, P.L., Dahm, C.N., Gleick, P.H., Hairston, N.G., Jackson, R.B., Johnston, C.A., Richter, B.G. and Steinman, A.D. 2002. Meeting ecological and social needs for fresh water. Ecological Applications, 12(5):1274-1260.
  • Dace, E., Bazbauers, G., Berzina, A. and Davidsen, P.I. 2014. System dynamics model for analyzing effects of eco-design policy on packaging waste management system. Resources, Conservation and Recycling, 87:175-190.
  • Ding, Z., Yi, G., Tam, V.W.Y. and Huang T. 2016. A system dynamics-based environmental performance simulation of construction waste reduction management in China. Waste Management, 51:130-141
  • Farzaneh M., Bagheri, A., Momeni, F., 2016. A system dynamics insight to institutional context analysis of groundwater resources in Rafsanjan Plain. Iran. Water Resources Research. 12 (2): 67-82.
  • Fazel Modares, N., Niazi, F, Mofid, H., Fakheri-Fard, A., 2012. Planning of optimal allocation of water resources using the Vensim model (case study: Alavian dam). Ninth International Congress on Civil Engineering. 19 to 21 May, Isfahan University of Technology, Iran.
  • Feng, Y.Y., Chen, S.Q. and Zhang, L.X. 2013. System dynamics modeling for urban energy consumption and CO2 emission: A case study of Beijing, China. Ecological Modeling, 252:45-52
  • Fletcher, E.J. 1998. The use of system dynamics as a decision support tool for the management of surface water resource. First Int. Conf., New Information Technologies for Decision Making in Civil Engineering, Montreal, Canada, 909-920.
  • Forrester, J.W. 1961. Industrial Dynamics. Cambridge, Massachusetts: Productivity Press.
  • Forrester, J.W. 2007. On the history, the present and the future of system dynamics. System Dynamics Review. 23(2-3): 157–189.
  • Forrester, J.W., Senge, P.M. 1980. Tests for building confidence in system dynamics models. In System Dynamics (A.A. Legast, J.W. Forrester and J.M. Lyneis, eds). Amsterdam: North-Holland.
  • Gohari, A., Mirchi, A. and Madani, K. 2017. System Dynamics Evaluation of Climate Change Adaptation Strategies for Water Resources Management in Central Iran. Water Resour Manage, 31(5): 1413-1434.
  • Grigg, N.S. 1997. System analysis of urban water supply and growth management. Journal of Urban Planning and Development, 123(2): 23-33.
  • Grigg, N.S. and Bryson, M.C. 1975. Interactive simulation for water system dynamics. Journal of Urban Planning and Development, 101: 77-92.
  • Jackson, R.B., Carpenter, S.R., Dahm, C.N., Mcknight, D.M., Naiman, R.J., Postel, S.L. and Running, S.W. 2001. Water in a changing word. Ecological Applications, 11(4): 1027-1045.
  • Jamab Consultant Engineers Company, 2005. Comprehensive Climate Adaptation Planning Studies Volume I. Organization for Management and Planning, Office of Water, Agriculture and Natural Resources.
  • Keyes, A.M., Palmer, P.N. 1993. The role of object-oriented simulation models in the drought preparedness studies. Proc., 20th Annual International Conference on Water Resources Planning and Management. ASCE, Seattle, Washington, 479-482.
  • Kotir, J.H., Smith, C., Brown, G., Marshall, N. and Johnstone, R. 2016. A system dynamics simulation model for sustainable water resources management and agricultural development in the Volta River Basin, Ghana. Science of the Total Environment, 573: 444-457
  • Koushali, H.P., Moshtagh, R. and Mastoori, R., 2015. Water resources modelling using system dynamic in Vensim. J Water Resource Hydraul Eng, 4(3): 251-256.
  • Liu, T.M., Tung, C.P., Ke, K.Y., Chuang, L.H. and Lin, C.Y., 2009. Application and development of a decision-support system for assessing water shortage and allocation with climate change. Paddy and Water Environment, 7(4), 301. https://doi.org/10.1007/s10333-009-0177-7
  • Mirabbasi, R. and Eslamian, S., 2010. Delineation of groundwater quality concerning applicability of pressure irrigation system in Sirjan watershed, Iran. International Conference on Management of Soil and Groundwater Salinization in Arid Regions, 11-14 January 2010, Sultan Qaboos University, Muscat, Oman.
  • Nasseri H., Ahmadi S. and SalaviTabar A., 2009. Modeling of water resources management in the Shahr Chay Dam (Urmia) using the system dynamics method. First National Groundwater Conference. The Islamic Azad University of Behbahan Branch.
  • Radzicki, M.J. and Taylor, R.A. 2008. Origin of System Dynamics: Jay W. Forrester and the History of System Dynamics. In: U.S. Department of Energy's Introduction to System Dynamics. Retrieved 23 October 2008.
  • Rouzegari, N., Hassanzadeh, Y., & Sattari, M. T. (2019). Using the Hybrid Simulated Annealing-M5 Tree Algorithms to Extract the If-Then Operation Rules in a Single Reservoir. Water Resources Management, 33(10), 3655-3672.
  • Royston, W.J.C. 1999. Use of object oriented programming in water supply system modeling. The 26th Annual Water Resources Planning and Management Conference, ASCE, Temp-Arizona.
  • Ryu, J.H., Contor, B., Johnson, G., Allen, R. and Tracy, J. 2012. System Dynamics to Sustainable Water Resources Management in the Eastern Snake Plain Aquifer under Water Supply Uncertainty. Journal of the American Water Resources Association, 48(6): 1204-1220
  • Sahin, O., Stewart, R.A. and Porter, M.G. 2015. Water security through scarcity pricing and reverse osmosis: a system dynamics approach. Journal of Cleaner Production, 88: 160-171.
  • Salvitabar, A., Zarghami, M., Abrishamchi, A., 2006. System Dynamic Model in Tehran Urban Water Management. Journal of Water and Wastewater. 59: 12-28.
  • Sattari, M. T., Apaydin, H., & Ozturk, F. (2009). Operation analysis of Eleviyan irrigation reservoir dam by optimization and stochastic simulation. Stochastic Environmental Research and Risk Assessment, 23(8), 1187.
  • Sattari, M. T., Apaydin, H., & ÖZTÜRK, F. (2013). Stochastic operation analysis of irrigation reservoir in low-flow conditions: a case study from Eleviyan Reservoir, Iran. Turkish Journal of Agriculture and Forestry, 37(5), 613-622.
  • Sattari, M. T., Apaydin, H., Ozturk, F., & Baykal, N. (2012). Application of a data mining approach to derive operating rules for the Eleviyan irrigation reservoir. Lake and reservoir management, 28(2), 142-152.
  • Saysel, A.K., Barlas, Y. and Yenigun, O. 2002. Environmental sustainability in an agricultural development project: a system dynamics approach. Journal of Environment Management, 64: 247-260.
  • Shahbazbegian, M.R., Bagheri, A. 2016. Systemic Analysis of the Vulnerability of the Sistan Plain to Water Scarcity - Experiencing Policy Options Based on the Resilience Approach. Iran- Water Resources Research. 12 (1): 40-55
  • Shao, W., Yang, D., Hu, H. and Sanbongi, K., 2009. Water resources allocation considering the water use flexible limit to water shortage—a case study in the Yellow River Basin of China. Water Resources Management, 23(5): 869-880. https://doi.org/10.1007/s11269-008-9304-2
  • Simonovic, S.P. and Ahmad, S. 2002. System dynamics modeling of reservoir operation for management. Journal of Computing in Civil Engineering, 14(3): 190-198.
  • Simonovic, S.P., Fahmy, H. 1999. A new modeling approach for water resources policy analysis. Journal of Water Resources Research, 35(1): 295-304.
  • Simonovic, S.P., Fahmy, H., Elshorbagy, A. 1997. The use of object oriented modeling for water resources planning in Egypt. Journal of Water Resources Management, 11: 243-261. Sterman, J.D. 2000. Business Dynamics. McGraw-Hill, Book Co., Boston.
  • Sun, Y., Liu, N., Shang, J. and Zhang, J. 2017. Sustainable utilization of water resources in China: A system dynamics model. Journal of Cleaner Production, 142(2): 613-625.
  • Tennant, D.L. 1976. Instream flow regimens for fish, wildlife, recreation and related environmental resources. Fisheries, 1(4): 6-10.
  • Venata systems, Inc. 2000. Vensim Ple for Windows Version 5.9.
  • Weller, F., Cecchini, L.A., Shannon, L., Sherley, R.B., Crawford, R.J.M., Altwegg, R., Scott, L., Stewart, T. and Jarre, A. 2014. A system dynamics approach to modeling multiple drivers of the African penguin population on Robben Island, South Africa. Ecological Modelling, 277: 38-56
  • Wins, I., Breierly, G. and Trowsdale, S. 2009. The use of system dynamics simulation in water resources management. Springer Science. 23: 1301-1323.
  • Wu, G., Li, L., Ahmad, S., Chen, Xi. and Pan, X. 2013. A Dynamic Model for Vulnerability Assessment of Regional Water Resources in Arid Areas: A Case Study of Bayingolin, China. Water Resources Management, 27(8): 3085-3101
  • Xi, X. and Poh, L.M. 2013. Using system dynamics for sustainable water resources management in Singapore. Procedia Computer Science, 16: 157-166.
  • Xie, Y.L., Xia, D.H., Huang, G.H. and Ji, L., 2018. Inexact stochastic optimization model for industrial water resources allocation under considering pollution charges and revenue-risk control. Journal of Cleaner Production, 203: 109-124. Doi:10.1016/j.jclepro.2018.08.245.
  • Yang, J., Lei K., Khu, S. and Meng W. 2015. Assessment of Water Resources Carrying Capacity for Sustainable Development Based on a System Dynamics Model: A Case Study of Tieling City, China. Water Resources Management, 29: 885-899.
  • Zarghami, M. and Akbariyeh, S. 2012. System dynamics modeling for complex urban water systems: Application to the city of Tabriz, Iran. Resources, Conservation and Recycling, 60: 99-106
  • Zarghami, M., Fotookian, M.R., Safari, N. and Aslanzadeh, A. 2016. Reservoir operation using system dynamics under climate change impacts: a case study of Yamchi reservoir, Iran. Arabian Journal of Geosciences, 9: 678. Doi:10.1007/s12517-016-2676-3.
  • Çakmak, B., Gökalp, Z., & Demir, N. (2014). Sınıraşan nehir havzalarda tarımda su kullanımının değerlendirilmesi. Tekirdağ Ziraat Fakültesi Dergisi, 11(2), 119-129.
  • Çakmak, B., Kendirli, B., & Uçar, Y. (2007). Evaluation of Agricultural Water Use: A Case Study for Kizilirmak. Tekirdağ Ziraat Fakültesi Dergisi, 4(2), 175-185
Year 2020, , 406 - 421, 29.09.2020
https://doi.org/10.33462/jotaf.703167

Abstract

Meeting the healthy nutrition needs of the increasing population in the arid and semi-arid climates of the different regions of the world such as Iran has become very important for the agriculture ministry and water resources managers. In this study, the system dynamics approach was used in the Vensim software environment to allocate the water of the Zonouz dam reservoir for irrigation purposes in the northwest of Iran. For this purpose, the existing surface water resources in the basin and the amounts of agricultural water and environmental water demands were determined and a water allocation plan was developed. In the first stage of the study, it was found that if the existing water resources and demands will not change, the amount of water stored in the reservoir will provide approximately 91% of irrigation water demands and approximately 99% of environmental water needs. The model created in the study was found to be sensitive to reservoir inputs and irrigation water demands. Within the scope of this study, the impact of two different scenarios that may occur as a result of climate change and irrigation management in the operation of the reservoir was evaluated. The decrease in the amount of water entering the reservoir in the first scenario and the increase in irrigation water needs in the second scenario are assumed within the next 10 years. According to the simulation results of the first scenario, irrigation water demands will not be met sufficiently with the decrease in the amount of water to be stored in the reservoir due to the decrease in the amount of water entering the reservoir in the next 10 years. According to the results of the second scenario, in the next 10 years due to possible climate change or if the cultivated area increases due to some new agricultural policies; The amount of water stored in the reservoir will not meet the irrigation demands and there will be water shortage in the system. In this case, it is necessary to make changes in irrigation water management and use new irrigation systems to save water. Based on the findings of the study, it has been observed that the impact of all types of irrigation water policies can be successfully evaluated within the scope of the system dynamics approach.

References

  • Abadi, L.S.K., Shamsai, A. and Goharnejad, H., 2015. An analysis of the sustainability of basin water resources using Vensim model. KSCE Journal of Civil Engineering, 19(6), pp.1941-1949. https://doi.org/10.1007/s12205-014-0570-7
  • Abdi, A., Hassanzadeh, Y., Talatahari, S., Fakheri-Fard, A., Mirabbasi, R., (2017). Regional Drought Frequency Analysis Using L-Moments and Adjusted Charged System Search. Journal of Hydroinformatics. 19(3): 426- 442. DOI: 10.2166/hydro.2016.228.
  • Abrishamchi, A., Golian, S., and Tajrishi, M., 2007. Analysis of water utilization policies in the basin with the system dynamics method. Journal of Water and Wastewater. 63: 70-80.
  • Alami, M., Farzin, S., Ahmadi, M., Aghabalaee, B. (2014). 'System Dynamics Modeling of Dam and Groundwater for Optimal Water Management (Case study: Golak Dam)', Journal of Civil and Environmental Engineering, 44.1(74), pp. 1-12.
  • Arshadi, M., Bagheri A., 2013. A System Dynamic Approach to Sustainability Analysis in Karun River Basin, Iran. Iran-Water Resources Research Journal. 9 (3): 1-13.
  • Babaeian, F., Bagheri, A., Rafieian, M., 2016. Vulnerability Analysis of Water Resources Systems to Water Scarcity Based on a Water Accounting Framework (Case Study: Rafsanjan Study Area). Iran- Water Resources Research. 12 (1): 1-17
  • Baron, J.S., Poff, N.L., Angermeier, P.L., Dahm, C.N., Gleick, P.H., Hairston, N.G., Jackson, R.B., Johnston, C.A., Richter, B.G. and Steinman, A.D. 2002. Meeting ecological and social needs for fresh water. Ecological Applications, 12(5):1274-1260.
  • Dace, E., Bazbauers, G., Berzina, A. and Davidsen, P.I. 2014. System dynamics model for analyzing effects of eco-design policy on packaging waste management system. Resources, Conservation and Recycling, 87:175-190.
  • Ding, Z., Yi, G., Tam, V.W.Y. and Huang T. 2016. A system dynamics-based environmental performance simulation of construction waste reduction management in China. Waste Management, 51:130-141
  • Farzaneh M., Bagheri, A., Momeni, F., 2016. A system dynamics insight to institutional context analysis of groundwater resources in Rafsanjan Plain. Iran. Water Resources Research. 12 (2): 67-82.
  • Fazel Modares, N., Niazi, F, Mofid, H., Fakheri-Fard, A., 2012. Planning of optimal allocation of water resources using the Vensim model (case study: Alavian dam). Ninth International Congress on Civil Engineering. 19 to 21 May, Isfahan University of Technology, Iran.
  • Feng, Y.Y., Chen, S.Q. and Zhang, L.X. 2013. System dynamics modeling for urban energy consumption and CO2 emission: A case study of Beijing, China. Ecological Modeling, 252:45-52
  • Fletcher, E.J. 1998. The use of system dynamics as a decision support tool for the management of surface water resource. First Int. Conf., New Information Technologies for Decision Making in Civil Engineering, Montreal, Canada, 909-920.
  • Forrester, J.W. 1961. Industrial Dynamics. Cambridge, Massachusetts: Productivity Press.
  • Forrester, J.W. 2007. On the history, the present and the future of system dynamics. System Dynamics Review. 23(2-3): 157–189.
  • Forrester, J.W., Senge, P.M. 1980. Tests for building confidence in system dynamics models. In System Dynamics (A.A. Legast, J.W. Forrester and J.M. Lyneis, eds). Amsterdam: North-Holland.
  • Gohari, A., Mirchi, A. and Madani, K. 2017. System Dynamics Evaluation of Climate Change Adaptation Strategies for Water Resources Management in Central Iran. Water Resour Manage, 31(5): 1413-1434.
  • Grigg, N.S. 1997. System analysis of urban water supply and growth management. Journal of Urban Planning and Development, 123(2): 23-33.
  • Grigg, N.S. and Bryson, M.C. 1975. Interactive simulation for water system dynamics. Journal of Urban Planning and Development, 101: 77-92.
  • Jackson, R.B., Carpenter, S.R., Dahm, C.N., Mcknight, D.M., Naiman, R.J., Postel, S.L. and Running, S.W. 2001. Water in a changing word. Ecological Applications, 11(4): 1027-1045.
  • Jamab Consultant Engineers Company, 2005. Comprehensive Climate Adaptation Planning Studies Volume I. Organization for Management and Planning, Office of Water, Agriculture and Natural Resources.
  • Keyes, A.M., Palmer, P.N. 1993. The role of object-oriented simulation models in the drought preparedness studies. Proc., 20th Annual International Conference on Water Resources Planning and Management. ASCE, Seattle, Washington, 479-482.
  • Kotir, J.H., Smith, C., Brown, G., Marshall, N. and Johnstone, R. 2016. A system dynamics simulation model for sustainable water resources management and agricultural development in the Volta River Basin, Ghana. Science of the Total Environment, 573: 444-457
  • Koushali, H.P., Moshtagh, R. and Mastoori, R., 2015. Water resources modelling using system dynamic in Vensim. J Water Resource Hydraul Eng, 4(3): 251-256.
  • Liu, T.M., Tung, C.P., Ke, K.Y., Chuang, L.H. and Lin, C.Y., 2009. Application and development of a decision-support system for assessing water shortage and allocation with climate change. Paddy and Water Environment, 7(4), 301. https://doi.org/10.1007/s10333-009-0177-7
  • Mirabbasi, R. and Eslamian, S., 2010. Delineation of groundwater quality concerning applicability of pressure irrigation system in Sirjan watershed, Iran. International Conference on Management of Soil and Groundwater Salinization in Arid Regions, 11-14 January 2010, Sultan Qaboos University, Muscat, Oman.
  • Nasseri H., Ahmadi S. and SalaviTabar A., 2009. Modeling of water resources management in the Shahr Chay Dam (Urmia) using the system dynamics method. First National Groundwater Conference. The Islamic Azad University of Behbahan Branch.
  • Radzicki, M.J. and Taylor, R.A. 2008. Origin of System Dynamics: Jay W. Forrester and the History of System Dynamics. In: U.S. Department of Energy's Introduction to System Dynamics. Retrieved 23 October 2008.
  • Rouzegari, N., Hassanzadeh, Y., & Sattari, M. T. (2019). Using the Hybrid Simulated Annealing-M5 Tree Algorithms to Extract the If-Then Operation Rules in a Single Reservoir. Water Resources Management, 33(10), 3655-3672.
  • Royston, W.J.C. 1999. Use of object oriented programming in water supply system modeling. The 26th Annual Water Resources Planning and Management Conference, ASCE, Temp-Arizona.
  • Ryu, J.H., Contor, B., Johnson, G., Allen, R. and Tracy, J. 2012. System Dynamics to Sustainable Water Resources Management in the Eastern Snake Plain Aquifer under Water Supply Uncertainty. Journal of the American Water Resources Association, 48(6): 1204-1220
  • Sahin, O., Stewart, R.A. and Porter, M.G. 2015. Water security through scarcity pricing and reverse osmosis: a system dynamics approach. Journal of Cleaner Production, 88: 160-171.
  • Salvitabar, A., Zarghami, M., Abrishamchi, A., 2006. System Dynamic Model in Tehran Urban Water Management. Journal of Water and Wastewater. 59: 12-28.
  • Sattari, M. T., Apaydin, H., & Ozturk, F. (2009). Operation analysis of Eleviyan irrigation reservoir dam by optimization and stochastic simulation. Stochastic Environmental Research and Risk Assessment, 23(8), 1187.
  • Sattari, M. T., Apaydin, H., & ÖZTÜRK, F. (2013). Stochastic operation analysis of irrigation reservoir in low-flow conditions: a case study from Eleviyan Reservoir, Iran. Turkish Journal of Agriculture and Forestry, 37(5), 613-622.
  • Sattari, M. T., Apaydin, H., Ozturk, F., & Baykal, N. (2012). Application of a data mining approach to derive operating rules for the Eleviyan irrigation reservoir. Lake and reservoir management, 28(2), 142-152.
  • Saysel, A.K., Barlas, Y. and Yenigun, O. 2002. Environmental sustainability in an agricultural development project: a system dynamics approach. Journal of Environment Management, 64: 247-260.
  • Shahbazbegian, M.R., Bagheri, A. 2016. Systemic Analysis of the Vulnerability of the Sistan Plain to Water Scarcity - Experiencing Policy Options Based on the Resilience Approach. Iran- Water Resources Research. 12 (1): 40-55
  • Shao, W., Yang, D., Hu, H. and Sanbongi, K., 2009. Water resources allocation considering the water use flexible limit to water shortage—a case study in the Yellow River Basin of China. Water Resources Management, 23(5): 869-880. https://doi.org/10.1007/s11269-008-9304-2
  • Simonovic, S.P. and Ahmad, S. 2002. System dynamics modeling of reservoir operation for management. Journal of Computing in Civil Engineering, 14(3): 190-198.
  • Simonovic, S.P., Fahmy, H. 1999. A new modeling approach for water resources policy analysis. Journal of Water Resources Research, 35(1): 295-304.
  • Simonovic, S.P., Fahmy, H., Elshorbagy, A. 1997. The use of object oriented modeling for water resources planning in Egypt. Journal of Water Resources Management, 11: 243-261. Sterman, J.D. 2000. Business Dynamics. McGraw-Hill, Book Co., Boston.
  • Sun, Y., Liu, N., Shang, J. and Zhang, J. 2017. Sustainable utilization of water resources in China: A system dynamics model. Journal of Cleaner Production, 142(2): 613-625.
  • Tennant, D.L. 1976. Instream flow regimens for fish, wildlife, recreation and related environmental resources. Fisheries, 1(4): 6-10.
  • Venata systems, Inc. 2000. Vensim Ple for Windows Version 5.9.
  • Weller, F., Cecchini, L.A., Shannon, L., Sherley, R.B., Crawford, R.J.M., Altwegg, R., Scott, L., Stewart, T. and Jarre, A. 2014. A system dynamics approach to modeling multiple drivers of the African penguin population on Robben Island, South Africa. Ecological Modelling, 277: 38-56
  • Wins, I., Breierly, G. and Trowsdale, S. 2009. The use of system dynamics simulation in water resources management. Springer Science. 23: 1301-1323.
  • Wu, G., Li, L., Ahmad, S., Chen, Xi. and Pan, X. 2013. A Dynamic Model for Vulnerability Assessment of Regional Water Resources in Arid Areas: A Case Study of Bayingolin, China. Water Resources Management, 27(8): 3085-3101
  • Xi, X. and Poh, L.M. 2013. Using system dynamics for sustainable water resources management in Singapore. Procedia Computer Science, 16: 157-166.
  • Xie, Y.L., Xia, D.H., Huang, G.H. and Ji, L., 2018. Inexact stochastic optimization model for industrial water resources allocation under considering pollution charges and revenue-risk control. Journal of Cleaner Production, 203: 109-124. Doi:10.1016/j.jclepro.2018.08.245.
  • Yang, J., Lei K., Khu, S. and Meng W. 2015. Assessment of Water Resources Carrying Capacity for Sustainable Development Based on a System Dynamics Model: A Case Study of Tieling City, China. Water Resources Management, 29: 885-899.
  • Zarghami, M. and Akbariyeh, S. 2012. System dynamics modeling for complex urban water systems: Application to the city of Tabriz, Iran. Resources, Conservation and Recycling, 60: 99-106
  • Zarghami, M., Fotookian, M.R., Safari, N. and Aslanzadeh, A. 2016. Reservoir operation using system dynamics under climate change impacts: a case study of Yamchi reservoir, Iran. Arabian Journal of Geosciences, 9: 678. Doi:10.1007/s12517-016-2676-3.
  • Çakmak, B., Gökalp, Z., & Demir, N. (2014). Sınıraşan nehir havzalarda tarımda su kullanımının değerlendirilmesi. Tekirdağ Ziraat Fakültesi Dergisi, 11(2), 119-129.
  • Çakmak, B., Kendirli, B., & Uçar, Y. (2007). Evaluation of Agricultural Water Use: A Case Study for Kizilirmak. Tekirdağ Ziraat Fakültesi Dergisi, 4(2), 175-185
There are 55 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Mohammad Taghi Sattari 0000-0002-5139-2118

Rasoul Mirabbasi

Hossein Dolati

Fatemeh Shaker Sureh 0000-0002-0431-378X

Sajjad Ahmad This is me 0000-0002-9903-9321

Publication Date September 29, 2020
Submission Date March 12, 2020
Acceptance Date July 21, 2020
Published in Issue Year 2020

Cite

APA Sattari, M. T., Mirabbasi, R., Dolati, H., Shaker Sureh, F., et al. (2020). Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran). Tekirdağ Ziraat Fakültesi Dergisi, 17(3), 406-421. https://doi.org/10.33462/jotaf.703167
AMA Sattari MT, Mirabbasi R, Dolati H, Shaker Sureh F, Ahmad S. Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran). JOTAF. September 2020;17(3):406-421. doi:10.33462/jotaf.703167
Chicago Sattari, Mohammad Taghi, Rasoul Mirabbasi, Hossein Dolati, Fatemeh Shaker Sureh, and Sajjad Ahmad. “Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran)”. Tekirdağ Ziraat Fakültesi Dergisi 17, no. 3 (September 2020): 406-21. https://doi.org/10.33462/jotaf.703167.
EndNote Sattari MT, Mirabbasi R, Dolati H, Shaker Sureh F, Ahmad S (September 1, 2020) Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran). Tekirdağ Ziraat Fakültesi Dergisi 17 3 406–421.
IEEE M. T. Sattari, R. Mirabbasi, H. Dolati, F. Shaker Sureh, and S. Ahmad, “Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran)”, JOTAF, vol. 17, no. 3, pp. 406–421, 2020, doi: 10.33462/jotaf.703167.
ISNAD Sattari, Mohammad Taghi et al. “Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran)”. Tekirdağ Ziraat Fakültesi Dergisi 17/3 (September 2020), 406-421. https://doi.org/10.33462/jotaf.703167.
JAMA Sattari MT, Mirabbasi R, Dolati H, Shaker Sureh F, Ahmad S. Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran). JOTAF. 2020;17:406–421.
MLA Sattari, Mohammad Taghi et al. “Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran)”. Tekirdağ Ziraat Fakültesi Dergisi, vol. 17, no. 3, 2020, pp. 406-21, doi:10.33462/jotaf.703167.
Vancouver Sattari MT, Mirabbasi R, Dolati H, Shaker Sureh F, Ahmad S. Investigating the Effect of Managing Scenarios of Flow Reduction and Increasing Irrigation Water Demand on Water Resources Allocation Using System Dynamics (Case Study: Zonouz Dam, Iran). JOTAF. 2020;17(3):406-21.