Abstract
Nearly 4 million hectares of land in India is affected by rill and gully erosion. It is a severe form of soil erosion rendering vast tracts of lands into wastelands giving rise to the formation of badlands. Rate of land degradation through gullying is triggered recently due to the ill-advised landuse practices all over the country. The study area represents one such badland locality along the banks of Pravara river and two of its tributaries in the Deccan trap region, Maharashtra. The area is extensively reclaimed in the last two decades for agricultural practices. The rates in the cross profile changes as well as land lowering were measured with the help of a self fabricated micro-profilometer and erosion pin method. Five first order gullies were monitored using the micro-profilometer. Results of the micro-profilometer technique reveal considerable changes in the cross-sectional areas of individual gullies in this area, which shows the dynamic soil removal mechanism operating in this region. In addition to this, two well developed gully catchments were surveyed using a theodolite and erosion pins were installed in these basins in May 2007. After one year, the exposed pinheads were measured and net gain and net loss in the volume of the sediments were calculated for both the basins. The same practice continued in May 2009. After two years of monitoring the sediment yields were calculated. Average of these two years indicates an annual sediment yield of 1.79 kg/m2 for sample basin 1 and 0.76 kg/m2 for sample basin 2. The calculated yield was compared with the threshold values of soil tolerance limits and it was found that the area has crossed the threshold limit of soil tolerance.
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Benito, G., Gutirrez, M. and Sancho, C. (1993) The influence of physico-chemical properties on erosion processes in badland areas, Ebro Basin, NE-Spain. Z. Geomorphology. N.F., v.37, pp.199–214
Bryan, R.B. and Jones, J.A.A. (1997) The significance of soil piping processes: inventory and prospect. Geomorphology, v.20, pp.209–218
Capra, A., Mazzara, L.M. and Scicolone, B. (2005) Application of the EGEM model to predict ephemeral gully erosion in Sicily, Italy. Catena, v.59, pp.33–146
Curtis, W.R. and Cole, W.D. (1972) Micro-topographic profile gauge. Agricultural Engg., v.53, p.17
Folk, R.L. and Ward, W.C. (1957) Brazos River bar: A study in the significance of the grain size parameters. Jour. Sediment. Petrol., v.27, pp.3–26.
Heng, B.C.P., Sander, G.C., Armstrong, A., Quinton, J. N. and Chandler, J.H. (2011) Modeling the dynamics of soil erosion and size-selective sediment transport over non uniform topography in flume-scale experiments. Water Resources Res., v.47, W02513, 11
Hodges, W.K. and Bryan, R. (1982) Influence of material behavior on runoff initiation in the Dinosaur Badlands, Canada. In: R. Bryan and A. Yair (Eds.), Badland Geomorphology and Piping. Geobooks, Norwich, pp.13–46
Hsieh, Yuch-ping. (1992) A mesh-bag method for field measurement of soil erosion.-Journal of Soil and Water Conservation, v. 47(6), pp.495–499
Hudson, N.W. (1981) Soil Conservation, Batsford.
Johnston, H.T., Elsawy, E.M. and Cochrane, S.R. (1980) A study of the infiltration characteristics of undisturbed soil under simulated rainfall, Earth Surface Process and Landforms, v.5 pp.159–174.
Joshi, V.U. and Tambe, D.T. (2010) Effects of Slope and Ground Cover on Infiltration, Runoff and Sediment Yield, under the Simulated Rainfall Experiment. Jour. Earth System Sci., v.119(6) pp.763–773.
Mosley, M.P. (1975) A device for the accurate survey of small scale slopes. British Geomorphological Res. Group. Tech. Bull., v.17, pp. 11–6.
Morgan, R.P.C. (1980) Soil erosion and conservation in Britain. Progress in Physical Geography, v.4, pp.24–47.
Morgan, R.P.C. (1986) Soil Erosion and Conservation. Longman Group Ltd., Essex.
Mtalo, E.G. (1979) SLEMS: A knowledge based approach to soil loss estimation and modelling. University of Budapest. Unpublished PhD Thesis, Department of Survey Engineering
Sala, M. (1988) Slope runoff and sediment production in two Mediterranean mountain environments. Catena. Supplementary, v.12, pp.13–29.
Sheikh, A.H., Palria, S. and Alam, A. (2011) Integration of GIS and universal soil loss equation (USLE) for soil loss estimation in a Himalayan watershed. Recent Res. Sci. Tech., v.3(3), pp.51–57.
Schertz, D.L. (1983) The basis for soil loss tolerance. Jour. Soil and Water Conservation, v.8, pp.10–14
Schumm, S.A. (1964) Seasonal variations of erosion rates and processes on hillslopes in western Colorado. Zeitschrift für Geomorphologie. Supplementary v.5, pp.215–238.
Sirvent, J., Desir, G., Gutierrez, M., Sancho, C. and Benito, G. (1997) Erosion rates in badland areas recorded by collectors, erosion pins and profilometer techniques (Ebro Basin, NESpain). Geomorphology, v.18(2), pp. 61–75.
Singh, S. and Agnihotri, S.P. (1987) Rill and gully erosion in the subhumid tropical riverine environment of Teonthar Tahsil, M.P, India. Geografiska Annaler, v.69A-1, pp.227–236
Stone, R.O. (1967) A Desert Glossary. Earth Sci. Rev., pp. 211–268
Van, Oost, K., Govers, G. and Desmet, P.J.J. (2000) Evaluating the effects of changes in landscape structure on soil erosion by water and tillage. Landscape Ecology, v.15(6), pp.579–591.
Van, R.A., Verstraeten, G., Van, Oost., K., Govers, G. and Poesen, J. (2001) Modelling mean annual sediment yield using a distributed approach. Earth Surface Processes and Landforms, v.26(11), pp.1221–1236.
Watson, A. and Evans, R. (1991) A comparison of estimates of soil erosion made in the field and from photographs. Soil and Tillage Res., v.19, pp.17–27.
Wischmeier, W.H., Johnson, C.B. and Cross, B.V. (1971) A soil erodibility nomograph for farmland and construction sites. Jour. Soil and Water Conservation, v.26, pp.189–193.
Zanchi, C. (1988) Soil loss and seasonal variation of erodibility in two soils with different texture in the Mugello valley in central Italy. Catena Supplementary, v.12, pp.167–173.
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Joshi, V.U. Soil loss estimation by field measurements in the badlands along Pravara river (Western India). J Geol Soc India 83, 613–624 (2014). https://doi.org/10.1007/s12594-014-0090-6
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DOI: https://doi.org/10.1007/s12594-014-0090-6