@ARTICLE{Azmeri_Azmeri_Surface_2022, author={Azmeri, Azmeri and Nurbaiti, Nurbaiti and Mawaddah, Nurul and Yunita, Halida and Jemi, Faris Zahran and Sundary, Devi}, number={No 52}, pages={108-118}, journal={Journal of Water and Land Development}, howpublished={online}, year={2022}, publisher={Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute}, abstract={The construction of the Keuliling Reservoir aims to accommodate and utilise water for agricultural purposes. In this research, soil erosion modelling using the USLE method showed that the level of erosion hazard for each Keuliling Reservoir sub-watershed was classified into low-moderate. Land erosion occurred in the area around the reservoir inundation is the most significant contribution to the magnitude of erosion (38.62 Mg∙ha–1∙y–1. Based on the point of sediment sampling in the Keuliling reservoir, the sediment volume was 1.43 Mg∙m–3. So, the volumetric sediment input from the Keuliling reservoir watershed is 20.918,32 m3∙y–1. The degradation of reservoir function due to sedimentation can affect reservoir services. The ability to estimate the rate of watershed surface erosion and sediment deposition in the reservoir is vital for reservoir sustainability. Besides the land erosion in the Keuliling Reservoir, there are also other potential sources of erosion that can reduce the capacity of the reservoir, i.e. the rate of sedimentation from a reservoir cliff landslide. The USLE estimation results show that the soil erosion analysis provides important and systematic information about nature, intensity and spatial distribution in the watershed and sediment volume in the Keuliling Reservoir. This finding allows the identification of the most vulnerable areas and the type of erosion dominant for long-term land management.}, type={Article}, title={Surface erosion hazard and sediment yield for Keuliling Reservoir in Indonesia}, URL={http://www.czasopisma.pan.pl/Content/122607/PDF/2022-01-JWLD-15-Azmeri.pdf}, doi={10.24425/jwld.2022.140380}, keywords={erosion hazard, Keuliling Reservoir, sediment yield, soil erosion}, }