Alborzi A, Mirchi A, Moftakhari H, Mallakpour I, Alian S, Nazemi A, Hassanzadeh E, Mazdiyasn O, Ashraf S, Madani K, Norouzi H, Azarderakhsh M, Mehran A, Sadegh M, Castelletti A, and AghaKouchak A (2018) Climate- informed environmental inflows to revive a drying lake facing meteorological and anthropogenic droughts. Journal of Environmental Research Letters
13(8):084010
Alizade Govarchin Ghale Y, Altunkaynak A, and Unal A (2018) Investigation anthropogenic impacts and climate factors on drying up of Urmia Lake using water budget and drought analysis. Journal of Water Resources Management 32(1):325–337
Alizade Govarchin Ghale Y, Baykara1 M, and Unal A (2017) Analysis of decadal land cover changes and salinization in Urmia Lake basin using remote sensing techniques. Journal of Natural Hazards and Earth System Sciences:1-15
Arshadi A and Bagheri A (2014) A system dynamic approach to sustainability analysis in Karun river basin, Iran. Journal of Iran Water Resources Research 9(3):1-13 (In Persian)
Barnes G T (2007) The potential for monolayers to reduce the evapotranspiration of water from large water storages: A review. Journal of Agricultural Water Management 95:339-353
Cherry M J and Barton B T (2017) Effects of wind on predator-prey interactions.
Journal of
Food Webs 13:92-97
Chaudhari S, Felfelani F, Shin S, and Pokhrel Y (2018) Climate and anthropogenic contributions to the desiccation of the second largest saline lake in the twentieth century. Journal of Hydrology 560:342-353
Didan K (2015) MOD13A2 MODIS/Terra vegetation indices 16-day L3 global 1km SIN grid V006 [data set]. NASA EOSDIS LP DAAC. doi: 10.5067/MODIS/MOD13A2.006
Ebrahimi E and Zarghami M (2018) Comparing effects of restoration policies under climate change by using system dynamics; Case study Urmia Lake ecosystem. Journal of Iran Water Resources Research 13(4):184-189 (In Persian)
Fang Q, Li X, and Cao M (2012) Dynamics of a discrete predator-prey system. Journal of
Procedia Engineering 38:1793-1800
Garrett DR and Hoy RD (1978) A study of monthly lake to pan coefficients using a numerical lake model. Hydrology Symposium, 5-6 September, Institution of Engineers, Canberra, A.C.T:145-149
Ghassemi A, Jakeman FJ, and Nix HA (1995) Salinization of lands and water resources. Sidney (Australia): University of New South Wales Press
Hassanzadeh E, Zarghami M, and Hassanzadeh Y (2012) Determining the main factors in declining the Urmia Lake level by using system dynamics modeling. Journal of Water Resources Management 26(1):129-145
Hesami A and Amini A (2016) Changes in irrigated land and agricultural water use in the Lake Urmia basin. Journal of Lake and Reservoir Management 32(3):288-296
Iran Ministry of Energy, Water and Waste Water Macro Planning Bureau (2012) http://waterplan.moe.gov.ir /TopNav/About-Us?lang=en-US (In Persian)
Isanezhad R, Zarifian SH, Raheli H, Kouhestani H, and Beheshti Nahand SH (2015) Assessing the effects of optimal cropping pattern in Urmia Lake basin on restoration of Urmia Lake. Journal of Good Manufacturing Practice Review 18(2):498-502
Kar T K and Ghosh B (2013) Impacts of maximum sustainable yield policy to prey–predator systems.
Journal of Ecological Modelling
250:134-142
Kazemi P and Araghinejad SH (2015) Using the prey-predator equation for the water allocation problem and its comparison with conventional water allocation methods, a case study of the Atrak River Basin. Iran-Water Resources Research 26(5):3-13 (In Persian)
Keshavarz A, Heydari N, and Ashrafi S (2003) Management of agricultural water consumption, drought and supply of water for future demands. In: Proceeding of the 7th International conference on the development of Dry Land, 14–17 september, Tehran, Iran:42–48
Kohler MA (1954) Lake and pan evaporation, water loss investigations: lake Hefner studies. U.S Geological Survey Professional Paper, 269:127-148
Lotka A J (1925) Elements of physical biology. Williams and Wilkins, Balimore, MD
McMurtrie R (1978) Persistence and stability of single-species and prey-predator systems in spatially heterogeneous environments. Journal of Mathematical Biosciences 39(1-2):11-5
Moghadasi M, Morid S, Delavar M, and Arabpour F (2015) Agricultural water consumption management approach in Urmia Lake restoration. Iran-Water Resources Research 11(1):1-12 (In Persian)
Nimmo WHR (1964) Measurement of evaporation by pans and tanks. Australian Meteorological Magazine 46:17-53
Paimozd S, Morid S, and Moghaddasi M (2010) Comparison of non-linear optimization and a system dynamics approaches for agricultural water allocation (A case study: Zayande Rud Basin). Iranian Journal of Irrigation and Drainage 1(4):44-52
Peixoto M S, Barros L C, and
Bassanez R C (2008) Predator–prey fuzzy model. Journal of Ecological Modelling
214(1):39-44
Quants (2014) Analysis of the Urmia Lake water balance: Part I - the amount of evaporation. http://www.quants.ir/ (In Persian)
Rawashdeh S B A (2012) Assessment of change detection method based on normalized vegetation index in environmental studies. Internatinal journal of Applied Science and Engineering 10(2):89-97
Samadzadeh Fahim R, Zarghami M, Nourani V, and Hoseinlar MR (2018) The hydraulic simulation of the effects of new dikes to reduce the evaporation area; Case study: Urmia Lake, Iran. Iran-Water Resources Research 14(2):263-267 (In Persian)
Shadkam S, Ludwig F, Oel P V, Kirmir
Ç, and Kabat P (2016) Impacts of climate change and water resources development on the declining inflow into Iran's Urmia Lake.
Journal of Great Lakes Research 42(5):942-952
Thingstad T F (2000) Elements of a theory for the mechanisms controlling abundance, diversity, and biogeochemical role of lytic bacterial viruses in aquatic systems. Journal of Limnology and Oceanography 45(6):1320–1328
Torabi Haghighi A, Fazel N, Hekmatzadeh A and Klöve B (2018) Analysis of effective environmental flow release Strategies for Lake Urmia Restoration. Journal of Water Resources Management 32(11): 3595–3609
United States Geological Survey (2016) Earth Explorer. https://earthexplorer.usgs.gov/. Accessed 15 August 2018
Urmia Lake Restoration Program (2015) www.ulrp.sharif.ir
Volterra V (1926) Fluctuations in the abundance of a species considered mathematically. Journal of Nature 18:558-560