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All issues Volume 73 (2018) E3S Web Conf., 73 (2018) 03029 References
Open Access
Issue
E3S Web Conf.
Volume 73, 2018
The 3rd International Conference on Energy, Environmental and Information System (ICENIS 2018)
Article Number 03029
Number of page(s) 7
Section Environmental Management and Spatial Planning
DOI https://doi.org/10.1051/e3sconf/20187303029
Published online 21 December 2018
  1. Alwi, L. O., Sinukaban, N., Solahuddin, S., Pawitan, H. Study of Land Use Dynamic Impacts To Land Erosion and Hydrology Conditions in Wanggu Watersheds. J. Hidrolitan. 2(2), 74–86 (2011) [Google Scholar]
  2. Bossa, A. Y., Diekkrüger, B., Agbossou, E. K. Scenario-Based Impacts of Land Use and Climate Change on Land and Water Degradation from the Meso to Regional Scale. Water, 6 (10), 3152–3181. (2014) https://doi.org/10.3390/w6103152 [Google Scholar]
  3. Phuong, T. T., Trung Thong, C. V., Bich Ngoc, N., & Van Chuong, H. (2014). Modeling Soil Erosion within Small Moutainous Watershed in Central Vietnam Using GIS and SWAT. Resources and Environment, 4(3), 139–147. https://doi.org/10.5923/j.re.20140403.02 [Google Scholar]
  4. Masnang, A., Sinukaban, N., Sudarsono, Gintings, N. Study of Run-off and Erosion Rate on Various Land Use in The Upper Jenneberang Sub Watershed. Jurnal Agroteknos, 4(1), 32–37. (2014) [Google Scholar]
  5. Ministry of Public Work. Pengelolaan Sumber Daya Air Wilayah Sungai Cimanuk Cisanggarung, 92. (2010) [Google Scholar]
  6. Yudhistira, Hidayat, W. K., & Hadiyarto, A. Kajian Dampak Kerusakan Lingkungan Akibat Kegiatan Penambangan Pasir di Desa Keningar Daerah Kawasan Gunung Merapi. Ilmu Lingkungan, 9(2), 76–84. (2011) [CrossRef] [Google Scholar]
  7. Salsabilla, A., and Kusratmoko, E. Assessment of soil erosion risk in Komering watershed, South Sumatera, using SWAT model. AIP Conference Proceedings 1862, 30192, 30192. (2017) https://doi.org/10.1063/1.4991296 [CrossRef] [Google Scholar]
  8. Briak, H., Moussadek, R., Aboumaria, K., Mrabet, R. Assessing Sediment Yield in Kalaya Gauged Watershed (Northern Morocco) using GIS and SWAT model. International Soil and Water Conservation Research, 4(3), 177–185. (2016) https://doi.org/10.1016/j.iswcr.2016.08.002 [CrossRef] [Google Scholar]
  9. Rahmad, R., Nurman, A., Wirda, M. A. Integrasi Model SWAT dan SIG dalam Upaya Menekan Laju Erosi DAS Deli, Sumatera Utara. Majalah Geografi Indonesia, 31(1), 46–55. (2017) Retrieved from https://journal.ugm.ac.id/mgi/article/viewFile/24232/15947 [CrossRef] [Google Scholar]
  10. Ogwo, V., Ogbu K. N., Okoye C. J., Okechukwu M. E., Mbajiorgu C. C. Comparison of Soil Erosion Models for Application in the Humid Tropics. Hydrology for Disaster Management Special, 266—278. (2012) [Google Scholar]
  11. Sith, R., Nadaoka, K. Comparison of SWAT and GSSHA for High Time Resolution Prediction of Stream Flow and Sediment Concentration in a Small Agricultural Watershed. Hydrology, 4(2), 27. (2017) 10.3390/hydrology4020027 [CrossRef] [Google Scholar]
  12. Baker, T. J. and Miller, S. N. Using The Soil and Water Assessment Tool (SWAT) to Assess Land Use Impact on Water Resources in An East African Watershed. Journal of Hydrology, 486, 100–111. (2013) 10.1016/j.jhydrol.2013.01.041 [Google Scholar]
  13. Neitsch, S., Arnold, J., Kiniry, J., & Williams, J. Soil & Water Assessment Tool Theoretical Documentation Version 2009. Texas Water Resources Institute. (2011) 10.1016/j.scitotenv.2015.11.063 [Google Scholar]
  14. Quang, N. H., Hang, L. T.., Nga, P. T.., & Kappas, M. (2016). Modelling surface runoff and soil erosion for Yen Bai Province, Vietnam, using the Soil and Water Assessment Tool ( SWAT ), 8(1), 71–79. 10.13141/jve.vol8.no1. pp71-79 [Google Scholar]
  15. U.S. Geological Survey. Water Science Banks. (2018) https://water.usgs.gov/edu/watercyclerun-off.html (Accessed on March 9th, 2018) [Google Scholar]
  16. Ferijal, T. Prediksi Hasil Limpasan Permukaan dan Laju Erosi dari Sub DAS Krueng Jreu Menggunakan Model SWAT. Jurnal Agrista, 16(1), 29–38. (2012) [Google Scholar]
  17. Asdak, C. Hidrologi dan Pengelolaan Daerah Aliran Sungai. Yogjakarta: Gadjah Mada Univ. Press. (2010) [Google Scholar]
  18. Yustika, R. D., Tarigan, S. D., Hidayat, Y., and Sudadi, U. Simulation Of Land Management In Hulu Ciliwung Use Swat Model. Informatika Pertanian, 21(2), 71–79. (2012) [CrossRef] [Google Scholar]
  19. Rahim, S. E. Pengendalian Erosi Tanah dalam Rangka Pelestarian Lingkungan Hidup. PT Bumi Aksara. (2000) [Google Scholar]
  20. Ministry of Forestry. Peraturan Direktur Jenderal Bina Pengelolaan Daerah Aliran Sungai Dan Perhutanan Sosial. Pub. L. No. P. 3/V- SET/2013, Jakarta 52. Indonesia. (2013) [Google Scholar]
  21. Regulation of the Minister of Forestry of the Republic of Indonesia No: P. 61/Menhut-II/2014 tentang Monitoring dan Evaluasi Pengelolaan Daerah Aliran Sungai. (2014) [Google Scholar]
  22. Kartasapoetra, G., Kartasapoetra, A.., Sutedjo, M. M. Teknologi Konservasi Tanah dan Air. PT. Melton Putra Jakarta. (1991) [Google Scholar]
  23. Utomo, W. H. Konservasi Tanah di Indonesia. (1989) [Google Scholar]
  24. The Forestry Department Pedoman Penyusunan Rencana Teknik Rehabilitasi Teknik Lapangan dan Konservasi Tanah DAS. Departemen Kehutanan, Jakarta. (1998) [Google Scholar]
  25. Neitsch, S. L., Arnold, J. G., Kiniry, J. R., Williams., J. R. Soil and Water Assessment Tool User’s Manual Version 2005. Texas Water Resources Institute. (2005). [Google Scholar]
  26. Arnold, J. G., Kiniry, J. R., Srinivasan, R., Williams, J. R., Haney, E. B., Neitsch, S. L. Soil and Water Assessment Tool Input/Output Documentation Version 2012. Texas Water Resources Institute, 654. (2012) 10.1007/978–0-387-35973-1_1231 [Google Scholar]
  27. Ahl, R., Woods, S., Zuurin, H. R. Hydrologic Calibration And Validation Of SWAT In A Snow- dominated Rocky Mountain Watershed, Montana, U.S.A. Journal Of The American Water Resources Association. Vol. 44, No. 6 (2008) [Google Scholar]
  28. Moriasi, D. N., Arnold J. G., Van Liew, M. W., Bingner R. L., Harmel, R. D., Veith, T. L. Model Evaluation Guidelines for Systematic Quantification Of Accuracy in Watershed Simulations.Effects of rainfall patterns on runoff and soil erosion in field plots. American Society of Agricultural and Biological Engineers, Vol. 50(3): 885−900 ISSN 0001−2351 (2007) [Google Scholar]
  29. Verma, A. K., Jha, M. K. Evaluation of a GIS-Based Watershed Model for Streamflow and Sediment- Yield Simulation in the Upper Baitarani River Basin of Eastern India. Journal of Hydrologic Engineering, 20(6), C5015001.. (2015) 10.1061/(ASCE)HE.1943-5584.0001134 [Google Scholar]
  30. Juliando, Bernard. Analisis Hidrologi di Sub DAS Citanduy Hulu menggunakan Model SWAT. Institut Pertanian Bogor (2016) [Google Scholar]
  31. Ministry of Agriculture Decree No. 837/Kpts/Um/11/1980 tentang Kriteria dan Tata Cara Penetapan Hutan Lindun [Google Scholar]
  32. Arsyad, S. Konservasi Tanah & Air Tanah. IPB Press. (2010) [Google Scholar]

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