Top

Environmental Earth Sciences

Published in:

01-10-2011 | Original Article

Assessment of the effects of vegetation on soil erosion risk by water: a case of study of the Batta watershed in Tunisia

Authors: Mohamed Kefi, Kunihiko Yoshino, Yudi Setiawan, Khemaies Zayani, Mohamed Boufaroua

Published in: Environmental Earth Sciences | Issue 3/2011

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Soil erosion by water is a serious environmental problem which affects particularly the agriculture of developing countries. Due to specific factors, such as high rainfall intensity, steep slopes and vegetation scarcity, Tunisia is prone to soil erosion. Taking this into account, the main objective of this study was to estimate the soil erosion risk in the Batta watershed in Tunisia using qualitative and quantitative erosion model with remote sensing data and geographic information system (GIS). Moreover, a developed method that deals with evaluating the impact of vegetation on soil erosion by water is also applied. This method used multi-temporal satellite images with seasonal variability and the transformed soil adjusted vegetation index (TSAVI) which is appropriate in arid and semi-arid areas. For both erosion models, the results show that a large area of the Batta watershed is seriously affected by erosion. This potentially high risk is due especially to severe slopes, poor vegetation coverage and high soil erodibility in this watershed. Furthermore, the use of multi-temporal satellite images and vegetation index show that the effect of vegetation is a significant factor to protect the soil against erosion. The risk is especially serious in the summer season, but it decreases with the growth of vegetation cover in spring. Erosion model, combined with a GIS and remote sensing, is an adequate method to evaluate the soil erosion risk by water. The findings can be used by decision makers as a guideline to plan appropriate strategies for soil and water conservation practices.

previous article Spatial scale dependence of sediment dynamics in a gullied rolling loess region on the Loess Plateau in China

next article Phosphorus desorption kinetics in two calcareous soils amended with P fertilizer and organic matter

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Amore E, Modica C, Nearing MA, Santoro VC (2004) Scale effect in USLE and WEPP application for soil erosion computation from three Sicilian basins. J Hydrol 293:100–114CrossRef

Baret F, Guyot G, Major DJ (1989) TSAVI: a vegetation index which minimizes soil brightness effects on LAI and APAR estimation, 1989. In: Proceeding of the 12th Canadian Symposium on remote sensing and IGARSS’89, Vancouver, Canada, pp 1355–1358

Baret F, Jacquemoud S, Hanocq JF (1993) About the soil line concept in remote sensing. Adv Space Res 13(5):281–284CrossRef

Bayramin I, Dengiz O, Baskan O, Parlak M (2003) Soil erosion risk assessment with ICONA model, case of study: Beypazari Area. Turk J Agric For 27:105–116

Boardman J, Poesen J, Evans R (2003) Socio-economic factors in soil erosion and conservation. Environ Sci Policy 6:1–6CrossRef

Bou Kheir R, Girard MCl, Shaban A, Khawlie M, Faour G, Khawlie M, Darwich T (2001) Apport de la télédétection pour la modélisation de l’érosion hydrique des sols dans la région côtière du Liban. Télédétection 2:79–80

Bracken LJ, Kirkby MJ (2005) Differences in hillslope runoff and sediment transport rates within two semi-arid catchments in southeast Spain. Geomorphology 68:183–200

BUCET (2006) Réalisation des mesures bathymétriques dans la retenue du barrage collinaire BATTA. Rapport technique

Cyr L, Bonn F, Pesant A (1995) Vegetation indices derived from remote sensing for an estimation of soil protection against water erosion. Ecol Model 79:277–285CrossRef

De Asis AM, Omasa K (2007) Estimation of vegetation parameter for modeling soil erosion using linear spectral mixture analysis of Landsat ETM data. J Photogramm Remote Sens 62(4):309–324CrossRef

De Jong SM (1994) Derivation of vegetative variables from Landsat TM image for modelling soil erosion. Earth Surf Proc Land 19(2):165–178CrossRef

Direction Générale de l’aménagement et de la conservation des terres Agricoles (DG/ACTA) (2002) Second strategy of soil and water conservation (2002–2011). Ministry of Agriculture of Tunisia

Fistikoglu O, Harmancioglu NB (2002) Integration of GIS with USLE in assessment of soil erosion. Water Resour Manage 16(6):447–467CrossRef

Folly A, Bronsveld MC, Clavaux M (1996) A knowledge-based approach for C-factor mapping in Spain using Landsat TM and GIS. Int J Remote Sens 17(12):2401–2415CrossRef

Foster GR, McCool DK, Renard KG, Moldenhauer WC (1981) Conversion of the universal soil loss equation to SI metric units. J Soil Water Conserv 36(6):355–359

Huete AR (1988) A soil adjusted vegetation index. Remote Sens Environ 25:295–309CrossRef

Hydro-plante (2002) Etude d’un projet de Développement Local autour du barrage collinaire de l’oued El Batta. Délégation de Bargou. Gouvernorat de Siliana. Phase 1: Diagnostic participatif de la situation actuelle

Jabbar MT, Shi ZH, Wang TW, Cai CF (2006) Vegetation change prediction with geo-information techniques in the three Gorges Area of China. Pedosphere 16(4):457–467CrossRef

Jiao J, Zou H, Jia Y, Wang N (2009) Research progress on the effects of soil erosion on vegetation. Acta Ecol Sin 29:85–91CrossRef

Kefi M, Yoshino K, Zayani K, Isoda H (2009) Estimation of soil loss by using combination of erosion model and GIS: case of study watersheds in Tunisia. J Arid Land Stud 19(1)

Laflen JM, Moldenhauer WC (2003) Pioneering soil erosion prediction : the USLE story. In: Zoebisch MA (ed) Special publication no. 1. World Association of Soil and water Conservation (WASWC), China

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

Lesschen JP, Kok K, Verburg PH, Cammeraat LH (2007) Identification of vulnerable areas for gully erosion under different scenarios of land abandonment in Southeast Spain. Catena 71:110–121CrossRef

Lillesand TM, Kiefer RW (1994) Remote sensing and image interpretation, 3rd edn. Wiley, New York

Mahjoub K, Dali T (2001) Notice explicative de la carte géologique de la Tunisie à 1/50.000° (Jebel Bargou). Office National des mines

Ministère de l’environnement et du développement durable de Tunisie (MEDD) (2007) Rapport national sur l’état de l’environnement 2007

Pimentel D, Harvey C, Resosudarmo P, 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 61(267):1117–1123CrossRef

Priority Actions Program Regional Activity Center (PAP/RAC) (1997) Split, Mediterranean Action Plan UNEP in cooperation with FAO Guidelines for mapping and measurement of rainfall-induced erosion processes in the Mediterranean coastal area, p72

Purevdorj T, Tateishi R, Ishiyama T, Honda Y (1998) Relationships between percent vegetation cover and vegetation indices. Int J Remote Sens 19(18):3519–3535CrossRef

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. U.S. Department of Agriculture, Agriculture Handbook 703

Rondeaux G, Steven M, Baret F (1996) Optimization of soil adjusted vegetation indices. Remote Sens Environ 55:95–107CrossRef

Roose E (1996) Land husbandry—components and strategy. FAO soil bulletin 70, p 380

Rouse JW, Haas RH, Schell JA, Deering DW (1973) Monitoring vegetation systems in the great plains with ERTS. In: 3rd ERTS symposium, NASA SP-351 I, pp 309–317

Sahin S, Kurum E (2002) Erosion risk analysis by GIS in environmental impact assessments: a case of study—Seyhan Kopru Dam construction. J Environ Manage 66:239–247CrossRef

Schmidt F, Persson A (2003) Comparison of DEM data capture and topographic wetness indices. Precis Agric 4:179–192CrossRef

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 12:228–245CrossRef

Van der Knijff JM, Jones RJA, Montaneralla L (2000). Soil erosion risk assessment in Italy. European Commission JRC, Space Applications Institute, European Soil Bureau, p 54

Van Rompaey AJJ, Viellefont V, Jones RJA, Montanarella L, Verstraeten G, Bazzoffi P, Dostal T, Krasa J, De Vente J, Poesen J (2003) Validation of soil erosion estimates at European scale. European Commission, Joint Research Center, EUR 20827

Vrieling A (2006) Satellite remote sensing for water erosion assessment: a review. Catena 65:2–18CrossRef

Vrieling A, De Jong SM, Sterk G, Rodrigues SC (2008) Timing of erosion and satellite data: a multi-resolution approach to soil erosion risk mapping. Int J Appl Earth Obs Geoinf 10:267–281CrossRef

Walling DE, Collins AL, Sichingabula HM (2003) Using unsupported lead-210 measurements to investigate soil erosion and sediment delivery in a small Zambian catchment. Geomorphology 52:193–213CrossRef

Williams JR, Tanaka DL (1996) Economic evaluation of topsoil loss in spring wheat production in the northern Great Plains, USA. Soil Tillage Res 37:95–112CrossRef

Wischmeier WH, Smith DD (1978) Predicting rainfall erosion losses: a guide to conservation planning. Agriculture Handbook No. 537. U.S. Department of Agriculture, Washington, DC

Yoshino K, Ishioka Y (2005) Guidelines for soil conservation towards integrated basin management for sustainable development: a new approach based on the assessment of soil loss risk using remote sensing and GIS. Paddy Water Environ 3:234–247CrossRef

Yue-qing X, Jian P, Xiao-mei S (2009) Assessment of soil erosion using USLE and GIS: a case study of the Maotiao River watershed, Guizhou Province, China. Environ Geol 56:1643–1652CrossRef

Zheng F (2006) Effect of vegetation changes on soil erosion on the Loess Plateau. Pedosphere 16(4):420–427CrossRef

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: Assessment of the effects of vegetation on soil erosion risk by water: a case of study of the Batta watershed in Tunisia
Authors: Mohamed Kefi
Kunihiko Yoshino
Yudi Setiawan
Khemaies Zayani
Mohamed Boufaroua
Publication date: 01-10-2011
Publisher: Springer-Verlag
Published in: Environmental Earth Sciences / Issue 3/2011
Print ISSN: 1866-6280
Electronic ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-010-0891-x

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 3/2011

Characterization on arsenic sorption and mobility of the sediments of Chia-Nan Plain, where Blackfoot disease occurred

The effect of welding degree on geotechnical properties of an ignimbrite flow unit: the Bitlis castle case (eastern Turkey)

Identifying spatial patterns of synchronization between NDVI and climatic determinants using joint recurrence plots

Assessment of granitic rocks degradability susceptive to acid solutions in urban area

Development of a reconstituted brown coal material using cement as a binder

Geomorphological and sedimentological comparison of fluvial terraces and karst caves in Zhangjiajie, northwest Hunan, China: an archive of sandstone landform development