THE INFLUENCE OF CONVERSION MODEL CHOICE FOR EROSION RATE ESTIMATION AND THE SENSITIVITY OF THE RESULTS TO CHANGES IN THE MODEL PARAMETER
Nita Suhartini(1*)
(1) Center for the Application of Isotopes and Radiation Technology, National Nuclear Energy Agency, Jl. Cinere Pasar Jumat Kotak Pos 7002 JKSKL, Jakarta 12070
(*) Corresponding Author
Abstract
A study of soil erosion rates had been done on a slightly and long slope of cultivated area in Ciawi - Bogor, using 137Cs technique. The objective of the present study was to evaluate the applicability of the 137Cs technique in obtaining spatially distributed information of soil redistribution at small catchment. This paper reports the result of the choice of conversion model for erosion rate estimates and the sensitive of the changes in the model parameter. For this purpose, small site was selected, namely landuse I (LU-I). The top of a slope was chosen as a reference site. The erosion/deposit rate of individual sampling points was estimated using the conversion models, namely Proportional Model (PM), Mass Balance Model 1 (MBM1) and Mass Balance Model 2 (MBM2). A comparison of the conversion models showed that the lowest value is obtained by the PM. The MBM1 gave values closer to MBM2, but MBM2 gave a reliable values. In this study, a sensitivity analysis suggest that the conversion models are sensitive to changes in parameters that depend on the site conditions, but insensitive to changes in parameters that interact to the onset of 137Cs fallout input.
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[1] Zapata, F., 2002, Handbook for The Assessment of Soil Erosion and Sedimentology using environmental Radionuclides, Joint FAO/IAEA Division, IAEA, Vienna, 1- 15.
[2] Ritchie, J.C., McHenry, J.R., and Gill, A.C., 1972, Health Phys., 22, 197.
[3] Walling, D.E., and He, Q., 1999, J. Env. Quality, 28, 2, 5-15.
[4] Wischmeier, W.H., and Smith, D.D., 1978, Predicting Rainfall Losses; A Guide to Conservation Planning, USDA, Washington DC, 537.
DOI: https://doi.org/10.22146/ijc.21761
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