Beven KJ (2012) Rainfall-runoff modelling: the primer. Wiley Chichester, 457 p
Blair P, Buytaert W (2016) Socio-hydrological modelling: a review asking “why, what and how?”. Hydrology and Earth System Sciences 20:443-478
Broderick K (2007) Getting a handle on social ecological systems in catchments: the nature and importance of environmental perception. Australian Geographic 38: 297-308
Carey M, Baraer M, Mark BG, French A, Bury J, Young KR, McKenzie JM (2014) Toward hydro-social modeling: Merging human variables and the social sciences with climateglacier runoff models (Santa River, Peru).
Journal of Hydrology 518:60-70
Costanza R, Graumlich L, Steffen W, Crumley C, Dearing J, Hibbard K, Leemans R, Redman C, Schimel D (2007) Sustainability or Collapse: What can we learn from integrating the history of humans and the rest of nature?. Ambio 36:522-527
Elshafei Y, Sivapalan M, Tonts M, Hipsey MR (2014) A prototype framework for models of socio-hydrology: Identification of key feedback loops and parameterisation approach. Hydrology and Earth System Sciences 18:2141-2166
Farnahad Consulting Engineers Company (2009) Development plan (comprehensive) of Mashhad metropolis. Technical Report (In Persian)
Foroughzadeh S,
Shariati S,
Danaee M (2013) The Iranian pilgrims' length of stay in Mashhad a sociological analysis. Iranian Social Studies Journal 6(3-4):157-179 (In Persian)
Frye RN, (1975)
The Sāmānids. In Frye RN (ed). The Cambridge History of Iran, Volume 4: From the Arab Invasion to the Saljuqs. Cambridge: Cambridge University Press. pp. 136-161
Gholizadeh-Sarabi SH, Ghahraman B, Shafiei M (2019) New science of socio-hydrology: In search of understanding co-evolution of human and water. Iran-Water Resources Research 14(5):351-359 (In Persian)
Gholizadeh-Sarabi SH, Shafiei M, Majidi M (2018) Shifts in water resources management approaches from engineering hydrology to socio-hydrology. In: The first meeting of water and environmental experts, 1 March, Tehran, Iran. Available at: http://waterhouse.ir/sites/default/files/142.pdf (In Persian)
Hatami A (2016) Derivation and analysis of water demand management strategies from the perspective of consumer and Authorities. Ph.D. Thesis, Department of Water Engineering, Ferdowsi University of Mashhad (In Persian)
Hataminejad H (2003) A passing look at Mashahd city's economy. Scientific- Research Quarterly of Geographical Data (SEPEHR) 12(47):29-33(In Persian)
Jones NA, Ross H, Lynam T, Perez P, Leitch A (2011) Mental models: An interdisciplinary synthesis of theory and methods.
Ecology and Society 16:46-58
Kandasamy J, Sounthararajah D, Sivabalan P, Chanan A, Vigneswaran S, Sivapalan M (2014) Socio-hydrologic drivers of the pendulum swing between agricultural development and environmental health: a case study from Murrumbidgee River basin, Australia. Hydrology and Earth System Sciences 18:1027-1041
Kendall MG (1975) Rank correlation methods. Charles Griffin, London
Kinzig AP, Ehrlich PR, Alston LJ, Arrow K, Barrett S, Buchman TG, Daily GC, Levin B, Levin S, Oppenheimer M (2013) Social norms and global environmental challenges: The complex interaction of behaviors, values, and policy. Bio-Science 63:164-175
Lambton AKS (1983) landlord and peasant in Persia, scientific and cultural publications, Tehran, 854p (In Persian)
Lane SN (2014) Acting, predicting and intervening in a sociohydrological world. Hydrology and Earth System Sciences 18:927-952
Liu D, Tian F, Lin M, Sivapalan M (2015a) A conceptual sociohydrological model of the co-evolution of humans and water: Case study of the Tarim River basin, western China. Hydrology and Earth System Sciences 19:1035-1054
Liu Y, Tian F, Hu H, Sivapalan M (2014) Socio-hydrologic perspectives of the co-evolution of humans and water in the Tarim River basin, Western China: The Taiji-Tire model. Hydrology and Earth System Sciences 18:1289-1303
Lynam T Brown K (2012) Mental Models in human-environment interactions: Theory, policy implications, and methodological explorations.
Ecology and Society 17:24-26
Malekshahmirzadi S (2012) Prehistoric Iran: Iran from the earliest times to the dawn of urbanism. Sobhan e Nour Press, 584p (In Persian)
Mann HB (1945) Nonparametric tests against trend. Econometrica 13:245-259
Mianabadi A, Jarkeh MR, Mianabadi H, Kolahi M (2018) Socio-hydrology. The Socio Cultural Strategy Journal 27:47-78 (In Persian)
Mianabadi A, Mianabadi H, Alizadeh A (2017) A novel attitude on classical hydrology. Iranian Journal of Irrigation and Drainage 11(4):539-551 (In Persian)
Mohammadi Z, Babaei Y (2011) Pollution control necessity of wastewater entering the Kashfroud River of Mashhad and providing appropriate strategies. In: Iranian Water Conference, Clean Water, 2-3 March, Tehran, Iran (In Persian)
Navaei A (1973) Shah Abbas (collection of historical documents and correspondence including detailed notes), Iranian Culture Foundation (In Persian)
Nezamkhah M, Onagh M, Komaki CH (2015) Study of land use changes in Mashhad plain during 1985-2013. In: The second National Congress of Biology and Natural Sciences of Iran, 3 December, Tehran, Iran (In Persian)
Pande S, Savenije HHG (2016) A sociohydrological model for smallholder farmers in Maharashtra, India.
Water Resources Research 52:1923-1947
Pareeth S, Karimi P, Shafiei M, De Fraiture C (2019) Mapping agricultural landuse patterns from time series of Landsat 8 using random forest based hierarchial approach. Remote Sensing 11(5):601
Ponting C (1992) A green history of the world: The environment and the collapse of great civilizations.St. Martin’s Press, New York
Regional Water Company of Khorasan Razavi (2017) Water view of Khorasan Razavi province. Technical Report (In Persian)
Saghaei M, Javanbakht Z (2012) Statistical analysis of tourists and pilgrims entering the Mashhad metropolis using time series models. Quarterly Journal of Geographical Sciences 28: 71-94 (In Persian)
Service and Environment Deputy of the Municipality of Mashhad (2018) Mashhad metropolis development environment documentation. Technical Report (In Persian)
Shafiei M, Gharari SH (2017) A review on hydrological modelling concepts: Part 1- Introduction of modelling process. Water and Sustainable Development 4(2):95-102 (In Persian)
Sivapalan M, Bloschl G (2015) Time scale interactions and the coevolution of humans and water.
Water Resources Research 51:6988-7022
Sivapalan M, Savenije HH G, Blöschl G (2012) Sociohydrology: A new science of people and water. Hydrology and Earth System Sciences 26:1270-1276
Tolun LG, Ergenekon S, Hocaoglu SM, Donertas AS, Cokacar T, Husrevoglu S, Beken CP, Baban A (2012) Socioeconomic response to water quality: A first experience in science and policy integration for the Izmit Bay coastal system.
Ecology and Society 17:40-53
Tomar AS (2014) Study of precipitation indices for drought intensity at New Delhi, India. AIJRSTEM 8(1):46-49
Toosab Consulting Engineers Company (2009) Integrated water resources management of kashafroud basin. Technical Report (In Persian)
Vitousek PM, Mooney HA, Lubchenco J, Melillo JM (1997) Human domination of Earth's ecosystems. Science 277(5325):494-499
Vörösmarty CJ, McIntyre PB, Gessner MO, Dudgeon D,
Prusevich A, Green P, Glidden S, Bunn SE, Sullivan CA, Davies PM (2010) Global threats to human water security and river biodiversity. Nature 467:555-56
Wei J, Wei Y, Western A (2017) Evolution of the societal value of water resources for economic development versus environmental sustainability in Australia from 1843 to 2011. Global Environmental Change 42:82-92
Westerberg IK, Di Baldassarre G, Beven KJ, Coxon G, Krueger T (2017) Perceptual models of uncertainty for socio-hydrological systems: a flood risk change example. Hydrological Sciences Journal 62(11):1705-1713
Winder N, McIntosh BS, Jeffrey P (2005) The origin, diagnostic attributes and practical application of co-evolutionary theory. Ecological Economics 54:347-361
Zilberman D, Dinar A, MacDougall N, Khanna M, Brown C, Castillo F (2011) Individual and institutional responses to the drought: the case of California agriculture. Journal of Contemporary Water Research & Education 121:17-23