Jurnal Sumberdaya Bumi Berkelanjutan (SEMITAN)

Studi tentang morfotektonik telah dilakukan di daerah Pasar Usang kota Padang Panjang dengan melakukan observasi lapangan dan analisis DEMNas. Daerah penelitian terletak di cekungan depan busur (fore-arc basin), dan disusun oleh lima satuan litologi, dari tua ke muda berturut-turut Formasi Gamping (Perem), Formasi Maihan (Perem), Formasi Granitik (Miosen), Formasi Gunung Singgalang dan Tandikat (Kuarter), dan Formasi Gunung Marapi (Kuarter). Hasil analisis morfometri memperlihatkan tiga satuan bentuk lahan yaitu Perbukitan Landai Denudasional (PLD), Perbukitan Tinggi Curam Denudasional (PTCD) dan Pegunungan Curam Denudasional (PCD). Daerah studi secara umum memiliki kelerengan yang dominan curam dengan nilai kerapatan sungai (Dd) 4,34 yang menandakan tingkat sedang, nilai faktor asimetri (Af) sebesar 69,92, nilai sinusitas muka gunung (Smf) 1,23, dan nilai rata-rata perbandingan dasar dan tinggi lembah (VF) 0,23. Berdasarkan data yang dihasilkan dari analisis morfotektonik dapat disimpulkan bahwa indeks aktifitas tektonik daerah Pasar Usang berada pada tatanan tektonik aktif. 

A study on morphotectonic has been conducted in the Pasar Usang region of Padang Panjang City using field observation and DEMNas analysis. The region is situated at the fore-arc basin and constituted by five lithologic units from older to younger consecutively Gamping Formation (Perm), Maihan Formation (Perm), Granite Formation (Miocene), Mt. Singgalang Formation, and Tandikat (Quaternary), and Mt. Merapi (Quaternary). Results of morphometric analysis reveal that there are three landform units, that is low-sloping denudational hills (PDP), steeply-sloping denudational hills (PTCD), and steeply-sloping denudational mountains (PCD). The study area generally has steep slopes with the river density value (Dd) of about 4.34, implying a medium level, an asymmetric factor (af) 69.92, sinuosity value at the mountain front (Smf) 1.23, and an average of the width-height valley (VF) 0.23. On the basis of data resulting from morphotectonic analysis, it can be concluded that the Pasar Usang region is situated in an active tectonic setting.

 

Kemiringan Lereng;Tektonik;Smf;VF;Dd;Af

Bull, W.B. dan Mcfadden, L.M., 1977. Tectonic Geomorphology North and South Of The Garlock Fault, California. In Feomorphology in Arid Regions, Proceeding 8th Annual Geomorphology Symposium, State University New York at Binghamton, 1977 (pp 155 – 137) Hugget, R.J., 2010. Fundamentals Of Geomorphology. 4th Ed. New York: Routledge.

El Hamdouni R, Irigaray C, Fernández T, Chacón J, Keller E A (2008) Assessment of relative active tectonics, southwest border of the Sierra Nevada (southern Spain). Geomorphology 96(1–2):150– 173

Doornkamp, J.C, 1986. Geomorphological Approachesto the Study Of Neotectonics. Jurnal of Thegeological Society, Vol.143, London, Pp 335–342.

Horton, R.E. 1945. Erosional Development of Streams and Their Drainage Basins; Hydrophysical Approach to Quantitative Morphology, Geol. Soc. Am., Bull., Vol. 56, P. 275-370

Ismail. 2022. Geological Mapping of Pasar Usang And Surrounding Areas. Mapping Seminars. Sriwijaya University. Indralaya.

Kastowo, Leo, G.W., Gafoer, S., Amin, T.C. 1996. Geological Map Sheet Padang, Sumatra. Geological Research and Development Center.

Keller, E.A. dan Pinter, N., 2002. Active Tectonics. Earthquakes, Uplift, and Landscape. Prentice Hall, New Jersey. 362 H.

Keller, E. A., Pinter, N. 1996. Active Tectonics (Vol. 19). Upper Saddle River, Nj:Prentice Hall.

Sukiyah, E., Sulaksana, N., Hendarmawan., dan Rosana, M.F. 2012. “The Role of Watershed Morphotectonics in the Development of Micro Hydro Energy Potential in Southern Cianjur-Garut” Bionatura-Journal of Biological and Physical Sciences Vol. 14, No. 1, March 2012: 1 - 11 ISSN 1411 – 0903 Unpad. Bandung

Soewarno, 1991. Hydrology: Measurement and Processing of River Flow Data (Hydrometry). Nova, Bandung. 362 Pp.

Widodo, H., 2012. Coal Potential of Seluma and Surrounding Areas, Seluma Regency, Bengkulu Province. Mtg Scientific Journal, V.5(2).

Widyat manti, W. Dkk. 2016. Indentification of Topographyc Element Composition Based on Lamdform Boundaries from Radar Interfrometri Segmentation (Preliminary study on Digital Landform Mapping). Iop Conforence series: Earthand Environmental