Effects of historical and projected land use/cover change on runoff and sediment yield in the Netravati river basin, Western Ghats, India

Abbaspour KC, Yang J, Maximov I, Siber R, Bogner K, Mieleitner J et al (2007) Modelling hydrology and water quality in the pre-alpine/alpine Thur watershed using SWAT. J Hydrol 333(2):413–430

Abbaspour KC, Rouholahnejad E, Vaghefi S, Srinivasan R, Yang H, Kløve B (2015) A continental-scale hydrology and water quality model for Europe: calibration and uncertainty of a high-resolution large-scale SWAT model. J Hydrol 524:733–752

Aichele SS (2005) Effects of urban land-use change on streamflow and water quality in Oakland County, Michigan, 1970–2003, as inferred from urban gradient and temporal analysis. US geological survey scientific investigations report 2005-5016

Bagnold RA (1977) Bedload transport in natural rivers. Water Resour Res 13(2):303–312

Bhagyanagar R, Kawal BM, Dwarakish GS, Surathkal S (2012) Land use/land cover change and urban expansion during 1983–2008 in the coastal area of Dakshina Kannada district, South India. J Appl Remote Sens 6(1):063576-1

Cai T, Li Q, Yu M, Lu G, Cheng L, Wei X (2011) Investigation into the impacts of land-use change on sediment yield characteristics in the upper Huaihe River basin, China. Phys Chem Earth 53–54:1–9

De Girolamo AM, Lo Porto A, Pappagallo G, Tzoraki O, Gallart F (2015) The hydrological status concept: application at a temporary river (Candelaro, Italy). River Res Appl 31(7):892–903

Deng Z, Zhang X, Li D, Pan G (2015) Simulation of land use/land cover change and its effects on the hydrological characteristics of the upper reaches of the Hanjiang basin. Environ Earth Sci 73(3):1119–1132

Dooge JCI (1992) Hydrologic model and climate change. J Geophys Res 97(D3):2677–2686

EAWAG (2007) SWAT-CUP (2012): SWAT calibration and uncertainty programs—a user manual. Swiss Federal Institute of Aquatic Science and Technology, Switzerland

FAO/IIASA/ISRIC/ISSCAS/JRC (2012) Harmonized World Soil Database (version 1.2). FAO, Rome, Italy and IIASA, Laxenburg, Austria

Faramarzi M, Abbaspour KC, Schulin R, Yang H (2009) Modeling blue and green water availability in Iran. Hydrol Process 23(3):486–501

Franczyk J, Chang H (2009) The effects of climate change and urbanization on the runoff of the Rock Creek basin in the Portland metropolitan area, Oregon, USA. Hydrol Process 23(6):805–815

Fukhrudin KM, Assefs MM, Patrick B, Karen BG (2013) Modeling the impact of land use changes on runoff and sediment yield in the Le Sueur watershed, Minnesota using GeoWEPP. Catena 107:35–45

Hao FH, Cheng LQ, Liu CM, Dai D (2004) Impact of land use change on runoff and sediment yield. J Soil Water Conserv 18(3):5–8

Jayanth J, Kumar AT, Koliwad S, Krishnashastry S (2015) Identification of land cover changes in the coastal area of Dakshina Kannada district, South India during the year 2004–2008. Egypt J Remote Sens Space Sci 19:73–93

Jensen JR (2005) Introductory digital image processing: a remote sensing perspective, 3rd edn. Prentice Hall, Upper Saddle River

Jha CS, Dutt CBS, Bawa KS (2000) Deforestation and land use changes in Western Ghats, India. Curr Sci 79(2):231–238

Krause P (2002) Quantifying the impact of land use changes on the water balance of large catchments using the J2000 model. Phys Chem Earth Parts A/B/C 27(9):663–673

Kumar A, Jayappa KS, Deepika B (2010) Application of remote sensing and geographic information system in change detection of the Netravati and Gurpur river channels, Karnataka, India. Geocarto Int 25(5):397–425

Li X, Yeh AGO (2000) Modelling sustainable urban development by the integration of constrained cellular automata and GIS. Int J Geogr Inf Sci 14(2):131–152

Melih O, Nadim KC, Ali KS (2013) Modeling the impact of land use change on the hydrology of a rural watershed. J Hydrol 497:97–109

Moriasi DN, Arnold JG, Van Liew MW, Bingner RL, Harmel RD, Veith TL (2007) Model evaluation guidelines for systematic quantification of accuracy in watershed simulations. Trans ASABE 50(3):885–900

Myers N, Mittermeier RA, Mittermeier CG, Da Fonseca GAB, Kent J (2000) Biodiversity hotspots for conservation priorities. Nature 403:853–858

Neitsch SL, Arnold JG, Kiniry JR, Williams JR (2011) SWAT user manual, version 2009. Texas Water Resources Institute, Technical report. A and M University, Texas, USA

Nie WM, Yuan YP, Kepner W, Nash MS, Jackson M, Erickson C (2011) Assessing impacts of landuse changes on hydrology for the upper San Pedro watershed. J Hydrol 407:105–114

Niraula R, Meixner T, Norman LM (2015) Determining the importance of model calibration for forecasting absolute/relative changes in streamflow from LULC and climate changes. J Hydrol 522:439–451

Noorazuan MH, Rainis R, Juahir H, Zain SM, Jaafar N (2003) GIS application in evaluating land use-land cover change and its impact on hydrological regime in Langat River basin, Malaysia. In: 2nd annual Asian conference of map Asia, pp 14–15

Orr HG, Carling PA (2006) Hydro-climatic and land use changes in the River Lune catchment, North West England, implications for catchment management. River Res Appl 22(2):239–255

Putty MRY, Prasad R (2000) Runoff processes in headwater catchments—an experimental study in Western Ghats, South India. J Hydrol 235(1):63–71

Roth V, Nigussie TK, Lemann T (2016) Model parameter transfer for streamflow and sediment loss prediction with SWAT in a tropical watershed. Environ Earth Sci 75(19):1321

Saxton KE, Rawls WJ (2006) Soil water characteristic estimates by texture and organic matter for hydrologic solutions. Soil Sci Soc Am J 70:1569–1578

USDA SCS (1972) National engineering handbook section 4. Hydrology

Van Griensven A, Meixner T, Grunwald S, Bishop T, Diluzio M, Srinivasan R (2006) A global sensitive analysis tool for the parameters of multi variable catchment models. J Hydrol 324:10–23

Weng Q (2002) Land use change analysis in the Zhujiang Delta of China using satellite remote sensing, GIS and stochastic modelling. J Environ Manag 64(3):273–284

Williams JR (1995) The EPIC model. In: Singh VP (ed) Computer models of watershed hydrology. Water Resources Publication, Highlands Ranch, pp 909–1000

Wilson CO, Weng Q (2011) Simulating the impacts of future land use and climate changes on surface water quality in the Des Plaines River watershed, Chicago Metropolitan Statistical Area, Illinois. Sci Total Environ 409(20):4387–4405

Woldesenbet TA, Elagib NA, Ribbe L, Heinrich J (2016) Hydrological responses to land use/cover changes in the source region of the Upper Blue Nile Basin, Ethiopia. Sci Total Environ 575:724–741

Wolfram S (1998) Cellular automata as models of complexity. In: Nonlinear physics for beginners: fractals, chaos, solitons, pattern formation, cellular automata, complex systems, vol 311, p 197

Wu X, Hu Y, He HS, Bu R, Onsted J, Xi F (2009) Performance evaluation of the SLEUTH model in the Shenyang metropolitan area of north eastern China. Environ Model Assess 14(2):221–230

Xu ZX, Pang JP, Liu CM, Li JY (2009) Assessment of runoff and sediment yield in the Miyun Reservoir catchment by using SWAT model. Hydrol Process 23:3619–3630

Yan B, Fang NF, Zhang PC, Shi ZH (2013) Impact of land use change on watershed stream flow and sediment yield: an assessment using hydrologic modeling and Partial least regression. J Hydrol 484:26–37

Yesuf HM, Assen M, Alamirew T, Melesse AM (2015) Modeling of sediment yield in Maybar gauged watershed using SWAT, northeast Ethiopia. Catena 127:191–205

Zhang HJ, Cheng JH, Chen ZW (2007) Effect of forest variety on runoff and sediment in the three Gorge Region of Yangtze River. Res Soil Water Conserv 14:1–6