Agricultural Science Digest - A Research Journal
SCOPUS
  • Year: 2018
  • Volume: 38
  • Issue: 1

Estimation of sediment delivery ratio at sub-watershed level using revised and modified USLE

  • Author:
  • A.P. Lakkad, G.R. Patel1, K.N. Sondarva2, P.K. Shrivastava3
  • Total Page Count: 6
  • Page Number: 11 to 16

1College of Forestry, ACHF, Navsari Agricultural University, Navsari-396 450, Gujarat, India

2College of Agricultural Engineering and Technology, Navsari Agricultural University, Dediapada-393 040, Gujarat, India

3College of Agriculture, Anand Agricultural University, Vaso-387 380, Gujrat, India

College of Agricultural Engineering and Technology, Navsari Agricultural University, Dediapada-393 040, Gujarat, India

*Corresponding author's e-mail: larunp@nau.in

Online published on 4 April, 2018.

Abstract

The success of planning for watershed developmental activities depends on the quality and quantity of information available of natural resources. The process of assessing soil erosion using conventional methods is cumbersome, time-consuming and costly therefore, in the present study, an attempt has been made to estimate sediment delivery ratio at sub-watershed level using RUSLE and SWAT Model. The raster layers of K, L, S, C, P factors and computed R factor value was used to derive gross soil erosion map of study area using raster calculator of spatial analyst tools in ArcGIS interface. The MUSLE was used to route and estimate the sediment yield at watershed outlet using SWAT model. Highest area covered by agricultural land (i. e. 41.54) of study area having 33.28 tons/ha/yr gross soil erosion needs immediate treatment of soil conservation in order to reduce water erosion. The average gross soil erosion rate for study area was estimated as 39.25 tons/ha/yr whereas, the sediment yield by SWAT was estimated to be 22.78 tons/ha./year. The estimated sediment delivery ratio indicates that 58 per cent of eroded soils go out of the watershed which reduces the soil depth and fertility of land on site and reaches Karjan reservoir thusreducingthe water storage capacity of reservoir each year.

Keywords

MUSLE, RUSLE, Sediment Delivery Ratio, Sediment Yield, SWAT