Soil erosion risk assessment of hilly terrain through integrated approach of RUSLE and geospatial technology: a case study of Tirap District, Arunachal Pradesh

Abdo H, Salloum J (2017) Spatial assessment of soil erosion in Alqerdaha basin, Syria. Model Earth Syst Environ 3:26

Angima SD, Stott DE, O’Neill MK, Ong CK, Weesies GA (2003) Soil erosion prediction using RUSLE for central Kenyan highland conditions. Agric Ecosyst Environ 97(1–3):295–308

Anon (2009) State of environment report. Ministry of Environment and Forest, Govt. of India

Balasubramani K, Veena M, Kumaraswamy K, Saravanabavan V (2015) Estimation of soil erosion in a semi-arid watershed of Tamil Nadu (India) using revised universal soil loss equation (rusle) model through GIS. Model Earth Syst Environ 1:10

Bera A (2017) Assessment of soil loss by universal soil loss equation (USLE) model using GIS techniques: a case study of Gumti river basin, Tripura, India. Model Earth Syst Environ 3:29

Choudhury MK, Nayak T (2003) Estimation of soil erosion in Sagar Lake catchment of Central India. In: Proceedings of the international conference on water and environment, Dec15–18, 2003 Bhopal, India, pp 387–392

Chowdary VM, Yatindranath KS, Adiga S (2004) Modeling of non-point source pollution in a watershed using remote sensing and GIS. J Indian Soc Remote Sens 32(1):59–73

Demirci A, Karaburun A (2012) Estimation of soil erosion using RUSLE in a GIS framework: a case study in the Buyukcekmece Lake watershed, northwest Turkey. Environ Earth Sci 66(3):903–913

Dutta D, Das S, Kundu A, Taj A (2015) Soil erosion risk assessment in Sanjal watershed, Jharkhand (India) using geo-informatics, RUSLE model and TRMM data. Model Earth Syst Environ 1(4):37

Elaloui A, Marrakchi C, Fekri A, Maimouni S, Aradi M (2017) USLE-based assessment of soil erosion by water in the watershed upstream Tessaoute (central high atlas, Morocco). Model Earth Syst Environ 3(3):873–885

El-Swaify SA (1997) Factors affecting soil erosion hazards and conservation needs for tropical steep lands. Soil Technol 11(1):3–16

Gelagy HS, Minale AS (2016) Soil loss estimation using GIS and remote sensing techniques: a case of Koga watershed, northwestern Ethiopia. Int Soil Water Conserv Res 4(2):126–136

Kumar S, Kadono A, Lal R, Dick W (2012) Long term no till impacts on organic carbon and properties of two contrasting soils and corn yields in Ohio. Soil Sci Soc Am J 76:1798–1809

Kayet N, Pathak K, Chakrabarty A, Sahoo S (2018) Evaluation of soil loss estimation using RUSLE model and SCN-CN method in hillslope mining areas. Int Soil Water Conserv Res 6(1):31–42

Kouli M, Soupios P, Vallianatos F (2009) Soil erosion prediction using the Revised Universal Soil Loss Equation (RUSLE) in a GIS framework, Chania, Northwestern Crete, Greece. Environ Geol 57(3):483–497

Mitra B, Scott HD, Dixon JC, McKimmey JM (1998) Applications of fuzzy logic to the prediction of soil erosion in a large watershed. Geoderma 86(3–4):183–209

Moore ID, Burch GJ (1986) Physical basis of the length slope factor in the Universal Soil Loss Equation. Soil Sci Soc Am 50:1294–1298

Morgan PRC (1995) Soil erosion and conservation. Longman, Essex

Narayan DV, Babu R (1983) Estimation of soil erosion in India. J Irrig Drain Eng 109(4):419–431

Pandey A, Chowdary VM, Mal BC (2007) Identification of critical erosion prone areas in the small agricultural watershed using USLE, GIS and remote sensing. Water Resour Manag 21:729–746

Parveen R, Kumar U (2012) Integrated approach of universal soil loss equation (USLE) and geographical information system (GIS) for soil loss risk assessment in upper south Koel Basin, Jharkhand. J Geogr Inf Syst 4:588–596

Pimentel D, Harvey C, Resosudarmo P, Sinclair K, Kurz D, McNair M, Blair R (1995) Environmental and economic costs of soil erosion and conservation benefits. Science 267(5201):1117–1123

Pradeep GS, Krishnan MVN, Vijith H (2015) Identification of critical soil erosion prone areas and annual average soil loss in an upland agricultural watershed of Western Ghats, using analytical hierarchy process (AHP) and RUSLE techniques. Arab J Geosci 8(6):3697–3711

Prasannakumar V, Vijith H, Abinod S, Geetha N (2012) Estimation of soil erosion risk within a small mountainous sub-watershed in Kerala, India, using revised universal soil loss equation (RUSLE) and geo-information technology. Geosci Front 3(2):209–215

Renard KG, Foster GR (1983) Soil Conservation—Principles of erosion by water. In: Dregne HE, Willis WO (eds) Dryland Agriculture. American Society of Agronomy, Soil Science Society of America, Madison, WI, USA, pp 155–176

Renard KG, Foster GR, Weesies GA, McCool DK, Yoder DC (1997) Predicting soil erosion by water: a guide to conservation planning with the revised universal soil loss equation (RUSLE). Agriculture handbook, 703. USDA, Washington, DC, pp 1–251

Saha SK (2003) Water and wind induced soil erosion assessment and monitoring using remote sensing and GIS. In: Sivakumar MVK, Roy PS, Harmsen K, Saha SK (eds) Satellite remote sensing and GIS applications in agricultural meteorology. IIRS, Dehradun, pp 315–330

Schwab GO, Frevert RK, Edminster TW, Barnes KK (1981) Soil and water conservation engineering, 3rd edn. Wiley, New York

Sharma A (2010) Integrating terrain and vegetation indices for identifying potential soil erosion risk area. Geospat Inf Sci 13(3):201–209

Sharma T, Singh O (2017) Soil erosion susceptibility assessment through geo-stastical multivariate approach in Panchkula district of Haryana, India. Model Earth Syst Environ 3(2):733–753

Sheikh AH, Palria S, Alam A (2011) Integration of GIS and Universal Soil Loss Equation (USLE) for soil loss estimation in a Himalayan watershed. Rec Res Sci Techno 3(3):51–57

Shinde V, Tiwari KN, Singh M (2010) Prioritization of micro watersheds on the basis of soil erosion hazard using remote sensing and geographic information system. Int J Water Resour Environ Eng 5(2):130–136

Shit PK, Nandi AS, Bhunia GS (2015) Soil erosion risk mapping using RUSLE model on Jhargram sub-division at West Bengal in India. Model Earth Syst Environ 1:28

Terranova O, Antronico L, Coscarelli R, Iaquinta P (2009) Soil erosion risk scenarios in the Mediterranean environment using RUSLE and GIS: an application model for Calabria (southern Italy). Geomorphology 112(3–4):228–245

USDA (1981) Rainfall erosion losses from cropland east of the rocky mountain. Handbook no. 282. US Department of Agriculture, Washington, DC

VanDer Knijff J, Jones RRJ, Montanarella L, Van der Knijff JM (1999) Soil erosion risk assessment in Italy. Office for Official Publications of the European Communities, Luxembourg, p 32, EUR 19022(EN)

Wijesundara NC, Abeysingha NS, Dissanayake DMSLB (2018) GIS-based soil loss estimation using RUSLE model: a case of Kirindi Oya river basin, Sri Lanka. Model Earth Syst Environ. https://doi.org/10.1007/s40808-018-0419-z

Wischmeier WH, Smith DD (1978) Predicting rainfall erosion losses. Agriculture Handbook No. 537. US Department of Agriculture, Washington, DC, pp 285–291

Youe-Qing X, Xiao-Mei S, Xiang-Bin K, Jian P, Yun-Long C (2008) Adapting the RUSLE and GIS to model soil erosion risk in a mountains karst watershed, Guizhou Province, China. Environ Monit Assess 141(1–3):275–286