Spatial Modeling of Sediment Transport over the Upper Citarum Catchment

Poerbandono Poerbandono; Ahmad Basyar; Agung B. Harto

doi:10.5614/itbj.eng.sci.2006.38.1.2

Authors

Poerbandono Poerbandono 1Hydrographic Science and Engineering Working Group Faculty of Civil and Environmental Engineering, Institute of Technology, Bandung
Ahmad Basyar 1Hydrographic Science and Engineering Working Group Faculty of Civil and Environmental Engineering, Institute of Technology, Bandung
Agung B. Harto 2Remote Sensing and Geographic Information Science Working Group Faculty of Civil and Environmental Engineering, Institute of Technology, Bandung

DOI:

https://doi.org/10.5614/itbj.eng.sci.2006.38.1.2

Abstract

This paper discusses set up of a spatial model applied in Geographic Information System (GIS) environment for predicting annual erosion rate and sediment yield of a watershed. The study area is situated in the Upper Citarum Catchment of West Java. Annual sediment yield is considered as product of erosion rate and sediment delivery ratio to be modelled under similar modeling tool. Sediment delivery ratio is estimated on the basis of sediment resident time. The modeling concept is based on the calculation of water flow velocity through sub-catchment surface, which is controlled by topography, rainfall, soil characteristics and various types of land use. Relating velocity to known distance across digital elevation model, sediment resident time can be estimated. Data from relevance authorities are used. Bearing in mind limited knowledge of some governing factors due to lack of observation, the result has shown the potential of GIS for spatially modeling regional sediment transport. Validation of model result is carried out by evaluating measured and computed total sediment yield at the main outlet. Computed total sediment yields for 1994 and 2001 are found to be 1.9610⁶and 2.1010⁶tons/year. They deviate roughly 54 and 8% with respect to those measured in the field. Model response due to land use change observed in 2001 and 1994 is also recognised. Under presumably constant rainfall depth, an increase of overall average annual erosion rate of 11% resulted in an increase of overall average sediment yield of 7%.