ارائه نقشه راه پایه برای مدرن سازی شبکه های آبیاری در ایران

Abarian A, Ranjpour R, Hashemi Dizj AR & Behbodhi D .(2023). Investigating of agricultural water rebound effect in environmental conditions according to the provinces of Iran. Journal of Environmental Sciences Studies 8(2):6435-6446 (In Persian)

Abbasi, N., Bahramlou, R., Keramati, M., & Yarqoli, B., (2009). Development of a strategic research program for the improvement and optimization of irrigation and drainage networks. Agricultural Engineering Research Institute. Final research report. No: 87.1347. 285 p. (In Persian)

Arif1, S. S. Pradipta, A. G., Murtiningrum, Subekti, E. Sukrasno, Prabowo, A.,
Djito, Sidharti, T. S., Soekarno, I & Fatah, Z. (2019). Toward modernization of irrigation from concept to implementations: Indonesia case. The 3rd International Symposium on Agricultural and Biosystem Engineering, IOP Conf. Series: Earth and Environmental Science 355.012024, DOI:10.1088/1755-1315/355/1/012024.

Berbel, J., Expósito, A., Gutiérrez-Martín, C. & Mateos, L. (2019). Effects of the Irrigation Modernization in Spain 2002–2015. Water Resources Management, Published online 26 Feb., 2019, https://doi.org/10.1007/s11269-019-02215-w.

Berbel, J., Gutierrez-Martin, C., Rodriguez-Diaz, J.A, Camacho, E. & Montesinos P .(2015). Literature review on rebound effect of water saving measures and analysis of a Spanish case study. Water Resources Management, 29:663–678.

Burt, C.M. (2013). The irrigation sector shift from construction to modernization: what is required for success?. Irrigation and Drainage. 62: 247–254, DOI: 10.1002/ird.1703.

Davari, K., Omranian, H. & Ghanbari, F. (2014). Mashhad water management and work solution. Final Report, Mashhad Water and Wastewater Company. (In Persian)

Delavar, M., Morid, S., Morid, R, Farokhnia, A,  Babaeiana, F., Srinivasanc, R. & Karimid, P. (2020) Basin-wide water accounting based on modified SWAT model and WA+ framework for better policy making. Journal of Hydrology, 585: 124762.

Heydari, N. (2023). Irrigation modernization and the rebound effect.  Presentation in the panel of “Investigating the rebound effect phenomenon and the measures leading to the saving water in the farm and the necessary consideration for its control”. The 1^st Congress on Agricultural Engineering, Agricultural Engineering Research Institute, Feb. 15, 2023, Karaj, Iran. (In Persian)

Heydari, N. & Nakhjavani Moghadam, M.M. Quantitate evaluation of pressurized irrigation development in Iran compared to the world. Journal of Water Management in Agriculture, 10 (2):60-80, (In Persian)

Heydari, N. & Sepehri Sadeghian, S. (2023 a). Investigating the irrigation modernization and analyzing its post rebound effect phenomenon. Iran-Water Resources Research, Vol. ?, No. ?: 20-30. (Under review) (In Persian)

Heydari, N. & Sepehri Sadeghian, S. (2023 b). An overview of the concept and issues of modernization of irrigation in the world and Iran. Scientific-Technical Report, No., Agricultural Engineering Research Institute, Karaj, Iran, 40 p. (Under publication) (In Persian)

Heydari, N., Sepehri Sadeghian, S. & Aboalhasani, J. (2022). Evaluation of expert views and opinions on the modernization of irrigation networks in Iran. Irrigation and Drainage Structures Engineering Research, 23 (88): 1-26. (In Persian).

Heydari, N., Sepehri Sadeghian, S. & Morsali, E. (2023). Development of strategies and road map of new management of irrigation and drainage networks, under condition of water scarcity in Iran. Research Report, No., Agricultural Engineering Research Institute, Karaj, Iran, 62 p. (Under Publication) (In Persian)

National Center for Strategic Studies. (2022). Report on the road map and strategic document of the development plan of the road map and strategic document for the rehabilitation and balancing of underground waters. Report. National Center for Strategic Studies of Agriculture and Water of Iran's Chamber of Commerce-Industries-Mines-Agriculture, 87 p., Tehran, Iran. (In Persian)

Oi, S. (1997). Introduction to Modernization of Irrigation Schemes. FAO Resource paper, Regional Water Development and Management Officer, Regional Office for Asia and the Pacific (RAP), FAO RAP Publication, Bangkok.

Omranian Khorasani, H., Davari, K., Bagheri, A. & Ghaysani, A. (2014). Implementation of strategic management of water resources: A proposed framework using a road map tool. Water and Sustainable Development, 1(2):101-112.(In Persian)

Renault, D. &Wahaj, R. (2011). Irrigation modernization: the hard way but the only way forward. Proceedings of the workshop held as a side event of the 21^st ICID congress, Oct. 20, 201, Tehran, Iran.

Rijsberman, R.F.& Grigg N.S .(1985). Identifying priorities in irrigation systems: problems and solutions. In: 10^th  Technical Conference on Irrigation, Drainage and Flood Control (Reno, Nevada 1985) U.S. Committee of ICID.

Rocamora, C., Vera, J. Abadía, R. (2012). Strategy for efficient energy management to solve energy problems in modernized irrigation: Analysis of the Spanish case. Irrig. Sci., DOI 10.1007/s00271-012-0394-5.

Pereira, L.S. (1988) Modernization of irrigation systems: A case of research, oriented to improve management. Irrigation and Drainage Systems, 2:63-77.

Pfeiffer, L., Lin C.Y.C . (2014). Does efficient irrigation technology lead to reduced groundwater extraction?: Empirical evidence. Journal of Environmental Economics and Management, 67:189–208.

Playan, E. & Mateos, L.(2006). Modernization and optimization of irrigation systems to increase water productivity. Agricultural Water Management. 80: 100–116.

Rodriguez-Diaz JA, Camacho-Poyato E, Lopez-Luque R & Perez-Urrestarazu, L. (2008) Benchmarking and multivariate data analysis techniques for improving the efficiency of irrigation districts: An application in Spain. Agricultural Systems, 96:250-259.

Xu, H., Yang, R. & Song, J. (2021). Agricultural water use efficiency and rebound effect: A study for China. International Journal of Environmental Research and Public Health, 18:7151-7160.