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Environmental Earth Sciences

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01-06-2012 | Original Article

Estimation of soil erosion using RUSLE in a GIS framework: a case study in the Buyukcekmece Lake watershed, northwest Turkey

Authors: Ali Demirci, Ahmet Karaburun

Published in: Environmental Earth Sciences | Issue 3/2012

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Abstract

This study was aimed at predicting soil erosion risk in the Buyukcekmece Lake watershed located in the western part of Istanbul, Turkey, by using Revised Universal Soil Loss Equation (RUSLE) model in a GIS framework. The factors used in RUSLE were computed by using different data obtained or produced from meteorological station, soil surveys, topographic maps, and satellite images. The RUSLE factors were represented by raster layers in a GIS environment and then multiplied together to estimate the soil erosion rate in the study area using spatial analyst tool of ArcGIS 9.3. In the study, soil loss rate below 1 t/ha/year was defined as low erosion, while those >10 t/ha/year were defined as severe erosion. The values between low and severe erosion were further classified as slight, moderate, and high erosion areas. The study provided a reliable prediction of soil erosion rates and delineation of erosion-prone areas within the watershed. As the study revealed, soil erosion risk is low in more than half of the study area (54%) with soil loss <1 t/ha/year. Around one-fifth of the study area (19%) has slight erosion risk with values between 1 and 3 t/ha/year. Only 11% of the study area was found to be under high erosion risk with soil loss between 5 and 10 t/ha/year. The severe erosion risk is seen only in 5% of the study area with soil loss more than 10 t/ha/year. As the study revealed, nearly half of the Buyukcekmece Lake watershed requires implementation of effective soil conservation measures to reduce soil erosion risk.

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Arnoldus HMJ (1980) An approximation of the rainfall factor in the Universal Soil Loss Equation. In: De Boodt M, Gabriels D (eds) Assessment of erosion Chichester. Wiley, New York

Beskow S, Mello CR, Norton LD, Curi N, Viola MR, Avanzi JC (2009) Soil erosion prediction in the Grande River Basin, Brazil using distributed modeling. Catena 79:49–59CrossRef

Bewket W, Teferi E (2009) Assessment of soil erosion hazard and prioritization for treatment at the watershed level: case study in the Chemoga watershed, Blue Nile Basin, Ethiopia. Land Degrad Dev. doi:10.1002/ldr.944

Bhattarai R, Dutta D (2007) Estimation of soil erosion and sediment yield using GIS at catchment scale. Water Resour Manag 21:1635–1647CrossRef

Camcı ÇS, Karaca A, Haktanır K, Yıldız H (2007) Global attention to turkey due to desertification. Environ Monit Assess 128:489–493CrossRef

Cohen MJ, Shepherd KD, Walsh MG (2005) Empirical reformulation of the universal soil loss equation for erosion risk assessment in a tropical watershed. Geoderma 124:235–252CrossRef

De Jong SM (1994) Application of reflective remote sensing for land degradation studies in a Mediterranean environment. Oxford University Press, New York

De Jong SM, Riezebos HT (1997) SEMMED: a distributed approach to soil erosion modeling. In: Spiteri A (ed) Remote sensing ’96: integrated applications for risk assessment and disaster prevention for the Mediterranean. Balkema, Rotterdam, pp 199–204

De Jong SM, Paracchini ML, Bertolo F, Folving S, Megier J, De Roo APJ (1999) Regional assessment of soil erosion using the distributed model SEMMED and remotely sensed data. Catena 37(3–4):291–308CrossRef

Demirci A (2001) Types and distribution of landslides in the eastern parts of Buyukcekmece Lake, using GIS. Graduate thesis, Fatih University, Institute of Social Science, Istanbul

Desmet PJ, Govers G (1996) A GIS-procedure for the automated calculation of the USLE LS-factor on topographically complex landscape units. J Soil Water Conserv 51:427–433

Erdoğan EH, Erpul G, Bayramin İ (2007) Use of USLE/GIS methodology for predicting soil loss in a semiarid agricultural watershed. Environ Monit Assess 131:153–161CrossRef

Fernandez C, Wu JQ, McCool DK, Stockle CO (2003) Estimating water erosion and sediment yield with GIS, RUSLE, and SEDD. J Soil Water Conserv 58:128–136

Fu BJ, Zhao WW, Chen LD, Zhang QJ, Lu YH, Gulinck H, Poesen J (2005) Assessment of soil erosion at large watershed scale using RUSLE and GIS: a case study in the loess plateau of China. Land Degrad Dev 16:73–85CrossRef

Gonzalez-Hidalgo JC, Pena-Monne JL, Luis M (2007) A review of daily soil erosion in Western Mediterranean areas. Catena 71:193–199CrossRef

İrvem A, Topaloğlu F, Uygur V (2007) Estimating spatial distribution of soil loss over Seyhan River Basin in Turkey. J Hydrol 336:30–37CrossRef

Jain SK, Kumar S, Varghese J (2001) Estimation of soil erosion for a Himalayan watershed using GIS technique. Water Resour Manag 15:41–54CrossRef

Karaburun A (2009) Estimating potential erosion risks in Corlu using the GIS-based RUSLE method. Fresenius Environ Bull 18(9a):1692–1700

Karaburun A, Demirci A (2009) The changing risks of agricultural activities on water resources in rapidly urbanized areas: agricultural land cover change in Istanbul between 1987 and 2007. Fresenius Environ Bull 18(11a):2181–2191

Karaburun A, Demirci A, Suen IS (2009) Impacts of urban growth on forest cover in Istanbul (1987–2007). Environ Monit Assess. doi:10.1007/s10661-009-1000-z

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 57:483–497CrossRef

Lal R (2001) Soil degradation by erosion. Land Degrad Dev 12:519–539CrossRef

Lal R (2003) Soil erosion and the global carbon budget. Environ Int 29:437–450CrossRef

Lee S (2004) Soil erosion assessment and its verification using the universal soil loss equation and geographic information system: a case study at Boun, Korea. Environ Geol 45:457–465CrossRef

Lin CY, Lin WT, Chou WC (2002) Soil erosion prediction and sediment yield estimation: the Taiwan experience. Soil Tillage Res 68(2):143–152CrossRef

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

Moraes JFL, Donzeli PL, Lombardi Neto F, Melo AR, Negreiros IP (2000) Land planning for sustainable development in watersheds using Geographical Information System. Int Arch Photogramm Remote Sens 33(3):895–900

Onyando JO, Kisoyan P, Chemelil MC (2005) Estimation of potential soil erosion for River Perkerra catchment in Kenya. Water Resour Manag 19:133–143CrossRef

Pimentel D, Harvey C, Resosudarmo K, Sinclair K, Kurz D, McNair M, Crist S, Shpritz L, Fitton L, Saffouri R, Blair R (1995) Environmental and economic costs of soil erosion and conservation benefits. Science 267:1117–1123CrossRef

Plan Bleu (2003) Threats to soils in Mediterranean countries, Plan Bleu Papers, Document Review. http://www.planbleu.org/publications/cahiers2_sols_us.pdf

Renard KG, Foster GR, Weesies GA, Porter JP (1991) RUSLE, Revised Universal Soil Loss Equation. J Soil Water Conserv 46(1):30–33

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 No. 703. US Department of Agriculture, Washington, DC

Spaeth KE, Pierson FB, Weltz MA, Blackburn WH (2003) Evaluation of USLE and RUSLE estimated soil loss on rangeland. J Range Manag 56:234–246CrossRef

Sthiannopkao S, Takizawa S, Homewong J, Wirojanagud W (2007) Soil erosion and its impacts on water treatment in the northeastern provinces of Thailand. Environ Int 33:706–711CrossRef

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 112:228–245CrossRef

Torri D, Poesen J, Borselli L (1997) Predictability and uncertainty of the soil erodibility factor using a global dataset. Catena 31(1/2):1–22CrossRef

UNCCD (2006) United Nations Convention to Combat Desertification, Turkey’s national action program on combating desertification, Ministry of Environment and Forestry Publication, n. 250. http://www.unccd.int/actionprogrammes/northmed/national/2006/turkey-eng.pdf

Van der Knijff JM, Jones RJA, Montanarella L (2000) Soil erosion risk assessment in Europe, European Commission, European Soil Bureau. http://eusoils.jrc.ec.europa.eu/ESDB_Archive/pesera/pesera_cd/pdf/ereurnew2.pdf

Wang G, Wente S, Gertner GZ, Anderson A (2002) Improvement in mapping vegetation cover factor for the universal soil loss equation by geostatistical methods with Landsat Thematic Mapper images. Int J Remote Sens 23(18):3649–3667CrossRef

Wang G, Hapuarachchi P, Ishidaira H, Kiem AS, Takeuchi K (2009) Estimation of soil erosion and sediment yield during individual rainstorms at catchment scale. Water Resour Manag 23:1447–1465CrossRef

Wilkinson BH, McElroy BJ (2007) The impact of humans on continental erosion and sedimentation. Geol Soc Am Bull 119:140–156CrossRef

Wischmeier WH, Smith DD (1958) Rainfall energy and its relationship to soil loss. Trans Am Geophys Union 39:285–291

Wischmeier WH, Smith DD (1978) Predicting rainfall erosion losses, a guide to conservation planning. USDA Handb. 537. U.S. Gov. Print. Off., Washington, DC

Wischmeier WH, Johnson CB, Cross BV (1971) A soil erodibility nomograph for farmland and construction sites. J Soil Water Conserv 26:189–192

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 141:275–286CrossRef

Yu B, Hashim GM, Eusof Z (2001) Estimating the R-factor with limited rainfall data: a case study from Peninsular Malaysia. J Soil Water Conserv 56:101–105

Zhang Y, Degroote J, Wolter C, Sugumaran R (2009) Integration of modified universal soil loss equation (MUSLE) into a GIS framework to assess soil erosion risk. Land Degrad Dev 20:84–91CrossRef

Zhou W, Wu B (2008) Assessment of soil erosion and sediment delivery ratio using remote sensing and GIS: a case study of upstream Chaobaihe River catchment, north China. Int J Sediment Res 23:167–173CrossRef

Zhou P, Luukkanen O, Tokola T, Nieminen J (2008) Effect of vegetation cover on soil erosion in a mountainous watershed. Catena 75:319–325CrossRef

Title: Estimation of soil erosion using RUSLE in a GIS framework: a case study in the Buyukcekmece Lake watershed, northwest Turkey
Authors: Ali Demirci
Ahmet Karaburun
Publication date: 01-06-2012
Publisher: Springer-Verlag
Published in: Environmental Earth Sciences / Issue 3/2012
Print ISSN: 1866-6280
Electronic ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-011-1300-9

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