MORPHOMETRY ANALYSIS OF SILAT SUB-WATERSHED BASED ON GEOSPATIAL TECHNOLOGY IN THE SILAT HULU SUB DISTRICT

Nurul Ramdhania, Ayu Rianingsih, Holifah Nurfitri, Ajun Purwanto, Dony Andrasmoro, Eviliyanto Eviliyanto, Francista Francista, Florensia Rentia

Abstract

This study aims to obtain morphometric data from the Silat sub-watershed. The method used is a survey and interpretation of secondary data. Secondary data is taken from Remote Sensing Images, Topographic Maps, and Administration maps. The morphometric data taken were the area, shape, circumstance, river length, river order, height, and drainage density. Data analysis using the Spatial Analyst Tool, namely Hydrology, Map Algebra, and Density tools from ArcGis 10.8. Based on the research results, it is known that the Silat watershed has an area of 466 km², a circumference of 147 km, and a river length of 51 km. The shape of the Silat watershed is elongated because the Circularity Ratio value is 0.27 (<0.5), and the Elongation Ratio value is 5.14 (round). The order of the river network is up to order 6, with a branching index (Rb) of order 1 = 2.03; 2nd order = 2.09; 3rd order = 1.75; 4th order = 1.84; and 5th order = 0.96. The Weighted Average Branching Index (WRb) was 2.73 (<3). The Silat sub-watershed has a height of 32 - 255 meters above sea level. Low river density, dendritic river flow pattern. 

Keywords

Silat Sub-watershed; Morphometric Characteristics; GIS; Remote Sensing

Full Text:

PDF

References

Ahmed, F., & Srinivasa Rao, K. (2015). Prioritization of sub-watersheds based on morphometric analysis using Remote sensing and Geographic Information system techniques. International Journal of Remote Sensing and GIS, 4(2), 51–65.

Bajirao, T. S., Kumar, P. K., Kumar, A., Tarate, C., & Bajirao, S. (2019). Application of remote sensing and GIS for morphometric analysis of watershed: A Review. International Journal of Chemical Studies. IJCS, 7(2), 709–713.

Cahyadi, A. (2017). KAJIAN PERMASALAHAN DAERAH ALIRAN SUNGAI JUWET KABUPATEN GUNUNGKIDUL DAN USULAN PENANGGULANGANYA.

Conforti, M., Aucelli, P. P. C., Robustelli, G., & Scarciglia, F. (2011). Geomorphology and GIS analysis for mapping gully erosion susceptibility in the Turbolo stream catchment (Northern Calabria, Italy). Natural Hazards, 56(3), 881–898.

Dharmananta, I., Suyarto, R., & Trigunasih, N. M. (2019). Pengaruh morfometri DAS terhadap debit dan sedimentasi DAS Yeh Ho. Agroekoteknologi Tropika, 8(1), 32–42.

Hasan, M. S. U., Adhikari, K., & Bhattacharyya, S. (2017). Morphometric analysis using remote sensing and GIS. Ratio, 6(4).

Jati, M. I. H., & Santoso, P. B. (2019). Prediction of flood areas using the logistic regression method (case study of the provinces Banten, DKI Jakarta, and West Java). Journal of Physics: Conference Series, 1367(1), 12087.

Liu, R. L. (2011). The Characteristics of Water Network and Landforms of the Beisha River in Taishan Mountain. Shandong Normal University, Jinan.

Mangan, P., Haq, M. A., & Baral, P. (2019). Morphometric analysis of watershed using remote sensing and GIS—a case study of Nanganji River Basin in Tamil Nadu, India. Arabian Journal of Geosciences, 12(6), 1–14.

Mesa, L. M. (2006). Morphometric analysis of a subtropical Andean basin (Tucuman, Argentina). Environmental Geology, 50(8), 1235–1242.

Obeidat, M., Awawdeh, M., & Al‐Hantouli, F. (2021). Morphometric analysis and prioritisation of watersheds for flood risk management in Wadi Easal Basin (WEB), Jordan, using geospatial technologies. Journal of Flood Risk Management, 14(2), e12711.

Pamuji, K. E., Lestari, O. A., & Mirino, R. R. (2020). Analisis Morfometri Daerah Aliran Sungai (Das) Muari Di Kabupaten Manokwari Selatan. Jurnal Natural, 16(1), 38–48.

Pattiselanno, S. R. R. (2017). Mitigasi karakter muka air banjir dari morfometri DAS Wai Loning–Negeri Laha, berbasis Geographic Information System (GIS). Jurnal Simetrik, 7(2).

Prabu, P., & Baskaran, R. (2013). Drainage morphometry of upper Vaigai river sub-basin, Western Ghats, South India using remote sensing and GIS. Journal of the Geological Society of India, 82, 519–528.

Primanggara, D., & Suprapto, S. (2014). Study Morfologi dan Marfometri Das Way Mesuji. Jurnal Ilmiah Teknik Pertanian-TekTan, 6(1), 57–70.

Prouty, W. F. (1952). Carolina bays and their origin. Geological Society of America Bulletin, 63(2), 167–224.

Purwanto, A., Rustam, R., Andrasmoro, D., & Eviliyanto, E. (2022). Flood Risk Mapping Using GIS and Multi-Criteria Analysis at Nanga Pinoh West Kalimantan Area. Indonesian Journal of Geography, 54(3).

Rajasekhar, M., Raju, G. S., & Raju, R. S. (2020). Morphometric analysis of the Jilledubanderu river basin, Anantapur District, Andhra Pradesh, India, using geospatial technologies. Groundwater for Sustainable Development, 11, 100434.

Rekha, B. V. B., George, A. V, & Rita, M. (2011). Morphometric analysis and micro-watershed prioritization of Peruvanthanam sub-watershed, the Manimala River Basin, Kerala, South India. Environmental Research, Engineering and Management, 57(3), 6–14.

Sadad, I., & Ridlo, A. (2021). IDENTIFIKASI MORFOMETRI DAERAH ALIRAN SUNGAI DENGAN ANALISIS DIGITAL ELEVATION MODEL SRTM (DEM SRTM) MENGGUNAKAN SOFTWARE ARCGIS 10.3 (Studi Kasus: DAS Way Sekampung). Jurnal Teknik Sipil, 12(1), 1239–1246.

Soewarno, S. (1991). Hidrologi Pengukuran dan Pengolahan Data Aliran Sungai (Hidrometri). Nova, Bandung, Hal. Xx, 825.

Subekti, R., Rahayu, S., Widodo, R. H., van Noordwijk, M., Suryadi, I., & Verbist, B. (2009). Monitoring Air di Daerah Aliran Sungai. World Agroforestry Center-Southeast Asia Regional Office, Bogor-Indonesia, 104.

Sukristiyanti, S. (2018). Analisis Morfometri Das Di Daerah Rentan Gerakan Tanah. Seminar Nasional Geomatika, 2, 307–316.

Tunas, I. G., Anwar, N., & Lasminto, U. (2017). Analysis of Main Morphometry Characteristic of Watershed and It’s Effect to The Hydrograph Parameters. IPTEK The Journal for Technology and Science, 28(1), 30–36.

Wagener, T., Boyle, D. P., Lees, M. J., Wheater, H. S., Gupta, H. V, & Sorooshian, S. (2001). A framework for development and application of hydrological models. Hydrology and Earth System Sciences, 5(1), 13–26.

Zende, A. M., Nagarajan, R., & Atal, K. R. (2013). Prioritization of sub-watersheds in semi arid region, Western Maharashtra, India using Geographical Information System. American Journal of Engineering Research, 2(10), 128–135.

Refbacks

  • There are currently no refbacks.