The Role of Land Use Changes on Run-off and Flood Properties in the Doab Catchment

Document Type : Research Article

Authors

1 PhD Student in Geomorphology, Mohaghegh Ardabili University, Ardabil

2 Associate Professor, Department of Natural Geography, Mohaghegh Ardabili University, Ardabil

3 Professor, Department of Natural Geography, Mohaghegh Ardabili University, Ardabil

Abstract

Deforestation and pastures, invasion of privacy and riverbanks, flooding of the Doab catchment during recent years, especially the downstream flood of 2019, raise the possibility of impacts of land use changes on flood characteristics.The purpose of this study was to evaluate the impact of land use changes on flooding in Doab catchment using HEC-HMS model. For this purpose, first land use map of Doab catchment was prepared for the years 1995 and 2019. SCS method was used to calculate initial rainfall and basin run-off height and Muskingum method was used for flood routing. In order to investigate the effect of land use changes on flood characteristics, precipitation data and discharge for the year 2019 were implemented in the model created with land use conditions of 1995. Evaluation of land use maps showed reduction of forest area and Pastures area to the 56.71 and 28.25 square kilometers equivalent to 7.39 and 3.68 percentage of total basin area, dryland, irrigated and residential areas respectively 58.30, 19.88, and 6.78 square kilometers increased equivalent to 7.60, 2.59, and 0.89 percent. The results of this comparison showed that the average run-off peak increased by an average of 15.46 percent and the volume of run-off by an average of 19.74 percent. This indicates a decrease in the initial amount of rainfall losses and an increase in run-off. Therefore, it can be said that land use changes in the Doab catchment have increased the peak and volume of run-off and ultimately increased flooding in this basin.

Keywords


[1].Soleimani Sardo, F., Priority of flood affected areas using remote sensing and GIS techniques and the HEC-HMS model at Halilrood, Isfahan University of Technology, Faculty of Natural Resources. 2009; p. 130.[Persian]
[2].Lorestan Province Water Company, Forty Years Statistics of Doab Basin Hydrometric Stations; 2019.[Persian]
[3]. Tellman B, Saiers JE, Cruz OAR, Quantifying the impacts of land use change on flooding in datapoor watersheds in El Salvador with community based model calibration, Reg Environ Change. 2015; 134: 155-162.
[4]. Razavi Zadeh, S, Salajegh, A ؛ Khaliqi Sigaroudi, Sh. ؛ Jafari, M. 2013, Investigation of the Impact of Land Use Changes on Floods Using HEC-HMS Model, Case Study of Taleghan Watershed, Range and Watershed Journal.2013; 66(3) : 386-373.[Persian]
[5].Yasunori I., Kenichi N., Hiroya Y. and Otsukic S., Variation and changes in land use intensities behind nickel mining: Coupling operational and satellite data. Resources, Conservation and Recycling. 2018; 24: 361-366.
[6].Chen, Y., Xu, Y. & Yi, Y., Impacts of land use scenarios on storm run off generation in Xitiaoxi basin China, Journal of Hydrology.2009; 289(4):1-8.
[7].Hammond MJ, Chen AS, Djordjevic S., Urban flood impact assessment: a state of the art review, Urban Water J.2015; 12:14–29.
[8].Li, K.Y., Coe, M.T., Ramankutty, N.R. & De Jong, R., Modeling the hydrological impact of land use change in West Africa. Journal of Hydrol.2007; 337: 257-268.
[9].Knebl, M.R., Yang, Z.L., Hutchison, K. & Maidment, D.R., Regional Scale Flood Modeling using NEXRAD, Rainfall, GIS, and HEC-HMSRAS: A Case Study for the Scan Antonio River Basin Summer 2002 Storm Event, Journal of Environment Management.2005; 75: 325-336.
[10].Olang, L.; Fürst, J., Effects of land cover change on flood peak discharges and runoff volumes: Model estimates for the Nyando River Basin, Kenya. Hydrology.2011; 25: 80–89.
 
[11].Khalighi Sigaroudi, Sh ؛ Mahdavi, M ؛ Saghafian, B, Investigating the Effect of Land Use Changes on Flooding Using the NRCS Model in the Baravandozchai Basin, Iranian Journal of Natural Resources.2005; 58(4) : 742-733.[Persian]
[12].Varamesh S., Hosseini S.M. and Rahimzadegan M., Detection of land use changes in northeastern Iran by landsat satellite data. Applied Ecology and Environmental Research.2017; 15(3) : 1443-1454.
[13].Noohgar, A, Kazemi, M, Ghasr Dashti Roshan, M, Rezaei, P., The Impact of Land Use Change on Flood Potential, Case Study of Tang Bastak Watershed of Shiraz, Journal of Environmental Erosion Research. 2012; 2: 28-41.[Persian]
[14].Ebrahimi, P., Soleimani, K., Shahedi, K., Investigation of Land Use Change on Flood Zones in Remote Sensing Environment and GIS Engineering and Watershed Management.2013; 2 : 73-67.[Persian]
[15].Rezaei Moghaddam, M.H; Andriani, S., Almaspour, F., Valizadeh Kamran, Kh., Mokhtari Asl, A., Investigation of Land Use Changes and Land Coverage on Flooding and Runoff Discharge, Case Study of Alavian Dam Basin, Hydrogeomorphology. 2014; 34: 57-41.[Persian]
[16].Farzadmehr, J ؛ Ebrahimi, P, Modar, M, The Impact of Land Use Changes on the Deluge Flooding Area Using Remote Sensing and Geographic Information, Rangeland and Watershed Management, Iranian Journal of Natural Resources. 2016; 69(3) : 646-6. 633.[Persian]
[17].Samie M., Ghazavi R., Vali A. and Pakparvar M., Evaluation of the effect of land use change on runoff using supervised classified satellite data, Global NEST Journal.2019; 21(2): 245-252.
[18].Castillo, C.R, Güneralp, I. ,and Güneralp, B., Influence of changes in developed land and precipitation on hydrology of a coastal Texas watershed, Applied Geography.2014; 47: 154–167.
[19].Camacho Olmedo, M.T., Pontius, R.G., Paegelow, M., and Mas, J., (2015). Comparison of simulation models in terms of quantity and allocation of land change, Environmental Modelling & Software.2015; 69: 214–221.
[20].Joorabian S.S., Kamran S., Gholamalifard M., Azari M., Serrano-Notivoli, R and Ignacio López-Moreno J., Impacts of future land cover and climate change on the water balance in northern Iran. Hydrological Sciences Journal. 2017;45: 2150-3435.
[21].Lollo, J.A., Guerrero, J.V.R., Abe, A., and Lorandi, R., Land Change, Soil Degradation Processes, and Landscape Management at the Clarinho River Watershed, Brazil, IAEG/AEG Annual Meeting Proceedings, San Francisco, California. 2019; 2 : 99–106.
[22].Szwagrzyk, M., Kaim, D., Price,B., Wypych,A., Grabska, E., Kozak, J.,(2018), Impact of forecasted land use changes on flood risk in the Polish Carpathians, Nat Hazards. 2018; 10 : 3365-3384.
[23].Zolfaghari, H ؛ Tahmasebipour, N ؛ Baharvandi, N, Simulation of rainfall-runoff relationships of Kashkan watershed in Lorestan province by SCS method, Geography and Sustainability.2014; 10 : 1-12.[Persian]
[24].Meteorological Organization of Lorestan Province, Thirty Years Statistics of Rainfall and Synoptic Stations.2019.[Persian]
[25].Mesdaghi, M., 2003. Range Management in Iran. Imam Reza University Publications,p.333( Persian).
[26].Ministry of Energy, Department of Water and Water Resources, Introduction to Developing a Flood Crisis Management Operational Plan.2019; p. 12.[Persian].
[27].Mazidi, A; Koushaki, S, Rainfall-Runoff Simulation and Flood Estimation in Khorramabad Basin Using HEC-HMS Model, Geography and Development.2015; 41 : 1-10.[Persian]
[28].Green, C.H., Parker, D.J. & Tunstall, S.M. (2000). Assessment of flood control and management options, Flood Hazard Center.2000; p. 124.
[29].Alizadeh, A., Principles of Applied Hydrology, Twenty-sixth Edition, Imam Reza University.2009; 509-512.[Persian]
[30].Radwan, A., Flood analysis and mitigation for area in Jordan, Journal of Water Resources and Management. 1999; 125(3): 170-177.
[31].Riebsame, W.E., Meyer, W.E. & Turner, B.L., Modeling land use and cover as part of global environment change. Climate Change.1994; 28 : 45-64.
[32]. Ristic, R.; Radic, B.; Vasiljevic, N., Land Use Change for Flood Protection prospective study for the restoration of the river Jelasnica watershed, Glasnik Umarskog Fakulteta.2011; 103: 115–130.
[33].Kaviani, M., Alijani, B., (2007), Basics of Meteorology, Khome Publications.2007; p.84.[Persian]
[34].Tellman B., Saiers JE., Quantifying the impacts of land use change on flooding in datapoor watersheds in El Salvador with community-based model calibration.2015; 54: 147-159.
[35].Potter, K.W., Hydrological impacts of changing land management practices in a moderate sized agricultural catchments, Water Resources Research.1991; 27: 845-855.
 
[36].Markar, M.S., Kwan, R.T.F., Conroy, A.L., Mingxin, L., Jing, Z. & Lina, A. (2002). Evaluation of five hydrologic models for Real-Time flood forcasting use in the Yangtze river catchment, Flood Defence science Press, New York. 2002; 7:5-10.
[37].Maalim F.K., Melesse A.M., Belmont P. and Gran K.B. (2013), Modeling the Impact of Land Use Changes on Runoff and Sediment Yield in the Le Sueur Watershed, Minnesota Using GeoWEPP Catena. 2013; 107: 35-45.
Volume 7, Issue 2
July 2020
Pages 331-344
  • Receive Date: 10 January 2020
  • Revise Date: 17 May 2020
  • Accept Date: 17 May 2020
  • First Publish Date: 21 June 2020
  • Publish Date: 21 June 2020