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The eco-hydraulics base as flood mitigation to overcome erosion and sedimentation problems : a case study in the Lae Kombih River, Indonesia

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Erosion and sedimentation have a very big influence on flooding. Floods are strongly influenced by land use and population activities that change the river’s physical condition, including erosion and sedimentation. The river upstream was very steep, and the downstream was narrowing and meandering with high rainfall recorded. This study analyses erosion, sedimentation, and its handling using the eco-hydraulic base. The method involves input rainfall data, river hydraulics, land use, watershed area, and land cover. The analysis of hydrology, hydraulics, land use, flood discharge, and eco-hydraulic, inundation height, vegetation diameter, velocity reduced, and riverbank width measured in five bridges cross-sections along the river. The eco-hydraulic compares the width of existing riverbanks and design, high inundation, and the vegetation diameter to minimise flood discharge. Erosion in the right cliff is 22.73% and the left cliff is 37.04%, land erosion was 225.83 Mg∙ha-1∙year -1. The river’s bottom is formed by rocks of 0.18-1.30 mm. The plantation land used around the Lae Kombih River grows mainly an oil palm with a diameter of 0.5-0.7 m. The riverbank design on 100 m for vegetation diameter of 0.1-1.0 m can retain flood discharge for five years return period up to 72.3%, resulting in discharge of 112.04209.43 m3∙s-1. The largest erosion and sedimentation on the river border is Dusun Silak, so it is recommended to plant Vetiveria zizanioides, Ipomoea carnea and Bambusoideae. An inundation height of 0.9 m can be recommended to design an embankment to be used as flood mitigation.
Wydawca
Rocznik
Tom
Strony
229--239
Opis fizyczny
Bibliogr. 35 poz., fot., rys., tab., wykr.
Twórcy
autor
  • Universitas Syiah Kuala, Doctoral Program, School of Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Department of Civil Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Doctoral Program, School of Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Department of Civil Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Doctoral Program, School of Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Department of Civil Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Doctoral Program, School of Engineering, Banda Aceh, 23111, Indonesia
  • Universitas Syiah Kuala, Department of Civil Engineering, Banda Aceh, 23111, Indonesia
Bibliografia
  • ASDAK C. 2007. Hidrologi dan pengelolaan daerah aliran sungai [Hydrology and watershed management]. Yogyakarta. Gadjah Mada University Press. ISBN 979-420-561-3 pp. 620.
  • AZMERI A., NURBAITI N., MAWDDAH N., YUNITA H., JEMI F.Z., SUNDARY D. 2022. Surface erosion hazard and sediment yield for Keuliling reservoir in Indonesia. Journal of Water and Land Development. No. 52 p. 108–118. DOI 10.24425/jwld.2022.140380.
  • ENDYI, KARTINI, GUNARTO D. 2017. Analisis angkutan sedimen di Sungai Jawi Kecamatan Sungai Kakap Kabupaten Kubu Raya [Analysis of sediment transport in the Jawi River, Sungai Kakap District, Kubu Raya Regency] [online]. JeLAST: Jurnal PWK, Laut, Sipil, Tambang. Vol. 4(4) p. 1–10. [Access 10.07.2021]. Available at: https://jurnal.untan.ac.id/index.php/JMHMS/article/view/22665
  • FORMAN R., GODRON M. 1991. Landscape ecology. New York. John Wiley and Sons Ltd. ISBN 978-0471870371 pp. 640.
  • FERREIRA M.T., AGUIAR C.F. 2006. Riparian and aquatic vegetation in Mediterranean-type streams (Western Iberia). Limnetica. Vol. 25(1) p. 411–424. DOI 10.23818/limn.25.29.
  • GRAF W.H. 1984. Hydraulics of sediment transport. Littleton, Colorado. Water Resources Publ. ISBN 091833456X pp. 513.
  • HAGHIABI A.H., ZAREDEHDASHT E. 2012. Evaluation of HEC-RAS ability in erosion and sediment transport forecasting. World Applied Sciences Journal. Vol. 17(11) p. 1490–1497.
  • HANGGARI SITTADEWI E. H.S. 2010. Penentuan jenis vegetasi lokal untuk perlindungan tebing Sungai Siak dengan desain eko engineering tanpa turap [Determination of local vegetation types for protection of Siak River cliffs with eco design engineering without sheeting]. Jurnal Teknik Lingkungan. Vol. 11(2) p. 189–195. DOI 10.29122/jtl.v11i2.1202.
  • HAMBALI R., APRIYANTI Y. 2016. Studi karakteristik sedimen dan laju sedimentasi Sungai Daeng – Kabupaten Bangka Barat [Study of sediment characteristics and river sedimentation rate Daeng – West Bangka Regency]. Jurnal Fropil. Vol. 4(2) p. 165–174.
  • HARAHAP I.Y., DARMOSARKORO W. 1997. Partisi pertumbuhan organ dan produksi bahan kering kelapa sawit [Partitioning of organ growth and palm oil dry matter production]. Jurnal Penelitian Kelapa Sawit. Vol. 8(2) p. 97–106.
  • HERAWATI H., AKBAR A.A., FARASTIKA D., AZMERI A. 2018. Water table evaluation post the construction of canal blocks on peatland in West Kalimantan, Indonesia. MATEC Web of Conferences 195, 03016. DOI 10.1051/matecconf/201819503016.
  • HOLMES R.R. 2010. Measurement of bedload transport in sand-bed rivers: A look at two indirect sampling methods. U.S. Geological Survey Scientific Investigations Report 2010-5091. Rolla, MO. U.S. Geological Survey p. 236–252.
  • KHEDER K., AHMED A., GHUMMAN A.R., ASHRAF M. 2014. Sediment transport investigations using three dimensionals numerical modeling in a large canal: Marala Ravi link canal (Pakistan) [online]. International Journal of Scientific & Engineering Research. Vol. 5(3). [Access 10.07.2021]. Available at: https://www.ijser.org/paper/Sediment-transport-investigations-using-three-dimensional.html
  • LAMMERANNER W., RAUCH H.P., LAAHA G. 2005. Implementation and monitoring of soil bioengineering measures at a landslide in the Middle Mountains of Nepal. Plant and Soil. Vol. 278(1) p. 309–319. DOI 10.1007/s11104-005-7012-8.
  • MARYONO A. 2007. Restorasi sungai [River restoration]. Yogyakarta. Gadjah Mada University Press. ISBN 979-420-667-9 pp. 183.
  • MARYONO A. 2017. Eko-hidraulik pengelolaan sungai ramah lingkungan [Eco-hydraulics of eco-friendly river management]. Yogyakarta. Gadjah Mada University Press. ISBN 9799794206668 pp. 145.
  • MAULANA R.A., LUBIS K.S., MARBUN P. 2014. Uji korelasi antara debit aliran sungai dan konsentrasi sedimen melayang pada muara sub DAS Padang di Kota Tebing Tinggi’ [Correlation test between river flow discharge and floating sediment concentration at estuary of Padang Sub-watershed in Tebing Tinggi City]. Jurnal Agroekoteknologi. Vol. 2(4) p. 1518–1528.
  • MOHAMMAD M.E., AL-ANSARI N., ISSA E., KNUTSSON S. 2016. Sediment in Mosul Dam reservoir using the HEC-RAS model. Lakes and Reservoirs. Research and Management. Vol. 1(3) p. 235–244. DOI 10.1111/lre.12142.
  • OMRAN Z.A., JABER W.S. 2017. Simulation of sediment transport in Al-Hilla River in Iraq using the HEC-RAS software. Journal University of Kerbala. Vol. 15(4) p. 8–18.
  • ONRIZAL 2005. Ekosistem sungai dan bantaran sungai [River and riverbank ecosystems] [online]. Universitas Sumatera Utara pp. 4. [Access 10.07.2021]. Available at: https://repository.usu.ac.id/handle/123456789/958?show=full
  • PASARIBU H., MULYADI A., TARUMUN S. 2012. Neraca air di perkebunan kelapa sawit di PPKS sub unit Kalianta, Kebun Riau [Water balance in palm oil plantations at PPKS unit Kalianta, Kebun Riau]. Jurnal Ilmu Lingkungan. Vol. 6(2) p. 99–113. DOI 10.31258/jil.6.2.p.99-113.
  • PERTIWI N. 2011. Penggunaan konsep ekohidrolik sebagai upaya pengendalian bencana wilayah pemukiman pada Sungai Lawo Kabupaten Soppeng [The use of the ecohydraulic concept as an effort for disaster management in the settlement areas in the Lawo River, Soppeng Regency]. Jurnal Forum Bangunan. Vol. 9(1) p. 26–33.
  • PETERSEN R.C., PETERSEN B.M., LACOURSIERE J. 1992. A building-block model for stream restoration. In: River conservation and management. Hoboken. John Wiley and Sons p. 293–309.
  • RAFSANJANI H. 2017. Sediment transport analysis of Sesayap River, Malinau District, North Kalimantan. Journal of the Civil Engineering Forum. Vol. 3(3), 149. DOI 10.22146/jcef.27239.
  • SANDERCOCK P.J., HOOKE J.M., MANT J.M. 2007. Vegetation in dryland river channels and its interaction with fluvial processes. Progress in Physical Geography. Vol. 31 (2) p. 107–129.
  • SIMON D.B., SENTÜRK F. 1977. Sediment transport technology. Fort Collins, CO. Water Resource Publ. ISBN 0918334144 pp. 807.
  • SUJATMOKO B. 2006. Prediksi perubahan bentuk dasar sungai di belokan studi kasus: Sungai Indragiri di Daerah Air Molek [Prediction of changes in the shape of the riverbed at the bend case study: Indragiri River in the Molek Water Area]. Jurnal Teknik Sipil. Vol. 7(1) p. 14–26.
  • VAN RIJN L.C. 1993. Principles of sediment transport in rivers, estuaries and coastal seas. Amsterdam. Aqua Publ. ISBN 9080035629 pp. 654.
  • VANDERSANDE M.W., GLENN E.P., WALWORTH L.J. 2001. Tolerance of five riparian plants from The Lower Colorado River to salinity drought and inundation. Journal of Arid Environments. Vol. 49(1) p. 147–159. DOI 10.1006/jare.2001.0839.
  • Visit Aceh Darussalam 2013. Sekilas tentang sungai Lae Kombih [A glimpse of the Lae Kombih River] [online]. [Access 10.07.2021]. Available at: http://visitacehdarussalam.blogspot.com/2012/10/sekilas-tentang-sungai-lae-kombih.html
  • WALKER K.F., THOMS M.C., SHELDON F., BOON P.J., CALOW P., PETTS G.E. 1992. Effects of weirs on the littoral environment of the River Murray South Australia. In: River conservation and management. Hoboken. John Wiley and Sons p. 270–293.
  • WIDIATININGSIH A., MUJIYO, M., SUNTORO S. 2018. Analysis of soil erosion hazardous level in Jatipurno Sub-District of Wonogiri District. The Journal of Natural Resources and Environment Management (JPSL). Vol. 8(3) p. 383–395. DOI 10.29244/jpsl.8.3.383-395.
  • WISCHMEIER W.H., SMITH D.D. 1978. Predicting rainfall erosion losses. A guide to conservation planning. Washington, DC. USDA pp. 57.
  • ZIANA , RIZALIHADI M., AZMERI , NUGRAHA M.A. 2019. The effect of diameter and distance between vegetation in the riverbank to flood discharge by eco-hydraulic in the Lawe Alas River, Southeast Aceh, Indonesia. IOP Conference Series: Materials Science and Engineering, Vol. 933. The 2 nd Aceh International Symposium on Civil Engineering (AISCE). 18–19.09.2019 Banda Aceh, Aceh Province, Indonesia. DOI 10.1088/1757-899X/933/1/012051.
  • ZULKARNAIN , JOY B., TUHPAWAN P., PRAWIRA I. 2014. Soil erosion assessment of the post-coal mining site in Kutai Kartanagera District, East Kalimantan Province. International. Journal of Science and Engineering. Vol. 7(2) p. 130–136. DOI 10.12777/ijse.7.2.130–136.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1ce33938-df47-4f35-abde-7a5ec2cb919d
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