Lukulo is a river that flows through pre-tertiary rocks to the recent. The long Lukulo fluvial processes which included erosion, transportation, and deposition were depicted in extensive alluvial deposits downstream of the river. This vast alluvial plain may be a deposit result of the Lukulo flood in the past. The paleo-flood study is a study of flood events in the past with the technique used, namely knowing slack water deposits (Steding & Baker, 1987). Delineation of slackwater deposits is necessary to determine the location of paleoflood deposition. Geomorphology of Lukulo watershed is needed as a preliminary study to determine the characteristics of the Lukulo watershed. Based on the analysis of the Lukulo watershed, DEM, with the systematic method of literature review, the result of this watershed geomorphology was obtained, namely; the morphology of the Lukulo watershed included an elongated oblong shape of the watershed, with an average Rc value of all three segments (upstream, middle, and downstream) of 0,52. The average drainage density (Dd) of river flows in the Lukulo watershed is 8,05 km/km² (middle class). The Lukulo gradient upstream is 45⁰, entering the middle is reduced to 30⁰, and downstream the gradient is reduced to 10⁰. The morphology and morphometry of the Lukulo watershed are interpreted to mean that Lukulo belongs to the medium-spanned watershed in terms of flood runoff and erosion. The lithology is a mixture of impermeable and permeable rocks. Delineation of diluvial and alluvial deposits is found in the upstream, middle, and downstream, of the Lukulo river. It depicts delineated paleoflood deposits in all segments of the river.

Anonim. (2022). DEMNAS (indonesia.go.id) accessed on 1/6/2022.

Anonim. (2022). Download Kumpulan Shapefile (SHP) Terlengkap dan Terbaru Seluruh Indonesia - INDONESIA GEOSPASIAL (indonesia-geospasial.com) accessed on 1/2/2022.

Asdak, C. (1995). Hydrology and Watershed Management. Gadjah Mada University Press., ISBN: 979-420- 737-3.

Asikin, S, Harsolumakso, A.H., Busono, H., Gafoer, S. (1992). Geological Map Sheet Banyumas. P3G Bandung.

BBWS Serayu-Opak. (2003). Identifikasi Potensi Serayu-Opak. Dirjen SDA, Kementrian PU.

Benito, G., Thorndycraft, V. R. (2004). Systematic, Paleoflood, and Historical Data for the Improvement of Flood Risk Estimation: Methodological Guidelines. CSIC, Serrano, Madrid, Spain. First Edition 2004. ISBN -84-921958-3-5.

Dury, G. H. (1969). Relation of morphometry to runoff frequency. Introduction to fluvial processes. London. Methuen.

Effendy. A. T. (1985). Indonesian Hydrogeological Map Sheet VI Pekalongan, Java, scale 1:250.000. Directorate of Environmental Geology, Bandung.

Hindarto, T. (2015). Sungai Luk Ulo: Persfektif Historis, Geologis, Ekonomi serta Sosial Budaya. Accessed on 1/6/2022 at http://historyandlegacy-kebumen.blogspot.com/2015/06/sungai-luk-uloperspektif historis_17.html.

Imran, A. M., Azikin, B., Ratna, H. L., and Susilawati. (2011). Survey Lapangan Endapan Sedimen Kuarter di Sungai Mongottong di Kabupaten Sinjai (Studi Pendahuluan). Prosiding Seminar Hasil Penelitian Fakultas Teknik Universitas Hasanudin. https://www.researchgate.net/publication/291343955.

Jamil, A., Sukiyah, E., Sulastri, M., Rendra, P. P. R. (2021). Analisis Rasio Cabang Sungai dan Kerapatan Drainase di Kawasan Ciemas, Cihaur, Girimukti, dan Sangrawayang, Kabupaten Sukabumi, Jawa Barat. Researchgate Publication. www.researchgate.net/publication/356283133.

Linsley, R. K. Jr., Hermawan, Y., Paulhes, J. L. H., Kohler, M. A. (1986). Hydrology for Engineers., Erlangga, Jakarta.

Mallet. S. (2004). Understanding Home: A Critical Review of the Literature. The Social Review Journal. Accessed on 1/6/2022 at https://doi.org/10.1111%2Fj.1467-954X.2004.00442.x.

Mareta, N. (2016). Pola Aliran Sungai dan Kondisi Airtanah di Daerah Wado dan Sekitarnya: Untuk Perencanaan Kawasan Relokasi Baru. Prosiding Pemaparan Hasil Penelitian Geoteknologi – LIPI 2015: Meningkatkan Kualitas dan Diseminasi Hasil Penelitian Melalui Pemberdayaan Kerjasama Ilmiah. ISBN: 978-979-8636-30-1.

Mareta, N., & Hidayat, E. (2016). Hubungan Kondisi Geologi Lingkungan dan Lapisan Pembawa Airtanah Daerah Kebakalan dan Sekitarnya, Kebumen - Jawa Tengah. Jurnal Natural B, Vol.3 (4), Oktober 2016. P-ISSN: 2088-4613, E-ISSN: 2301-4202.

Mareta, N., & Raharjo, P. D. (2017). Analisis Morfologi dalam Penentuan Arah Pergerakan Patahan, (Studi Kasus Daerah Kebakalan Karanggayam Kebumen). Proceeding Seminar Nasional Kebumian ke-10: Peran Penelitian Ilmu Kebumian dalam Pembangunan Infrastruktur di Indonesia 13-14 September 2017. Teknik Geologi, UGM, Yogyakarta.

Mareta, N., & Ansori, C. (2020). Kajian Geologi Bawah Permukaan Formasi Karangsambung serta Formasi Totogan dan Hubungannya dengan Akuifer Airtanah di Desa Kalisana Kabupaten Kebumen. Jurnal Bulletin of Scientific Contribution: Geology, Vol 18 (1), April 2020. P-ISSN: 1693-4873.

Mareta, N., Lubis, R. F., Yoseph, B, CSSSA., Hadian, M. S. D. (2021). Hydrogeologycal Identification of the Welaran watershed Karangsambung based on descriptive-qualitative methods. Jurnal Riset Geologi dan Pertambangan Vol 31 (1), Juni 2021.

Mareta, N., Lubis, R. F., Saputro, S. P., Farisan, A., Ansori, C., & Hadian, M. S. D. (2022). Penentuan Endapan Hasil Banjir Lukulo Berdasarkan Analisis Granulometri, Morfologi dan Geolistrik. Proposal Riset. Rumah Program Kebencanaan Geologi – BRIN.

Montgomery, D.R. and Dietrich, W.E. (1989). Source Areas, Drainage Density, and Channel initiation. Water Resources, 25, 1907-1918. https://doi.org/10.1029/WR025i008p01907.

Nicols, G. (2009). Sedimentology and Stratigraphy. Second Edition. A John Willey and Sons, Ltd, Publication. British Library. ISBN 978-1-4051-3592-4.

Nurfaika, I. (2017). Analisis Karakteristik Morfometri Daerah Aliran Sungai Melalui Pemanfaatan Penginderaan Jauh dan Sistem Informasi Geografi. (Studi Kasus di DAS Limboto Provinsi Gorontalo). Prosiding Seminar Nasional dan PIT IGI XVIII 2015.

Pennuel, W. R., Fishman, B. J., Yamaguchi, R., & Gallagher, L. P. (2007). What Makes a Professional Development Effective? Strategies that foster curriculum implementation. American Educational Reseacrh Journal, 44, 921-958. DOI: 10. 3102/0002831207308221.

Potucek, M, J., & Evans, J. E. (2019). Avulsion Dynamics in a River with Alternating Bedrock and Alluvial Reaches, Huron River, Northern Ohio (USA). Open Journal of Modern Hydrology, Vol 9 (1) 23 January 2019.

Prasetyo, B. H. (2006). Evaluasi Tanah Sawah Bukaan Baru di Daerah Lubuk Linggau, Sumatera Selatan. Jurnal Ilmu-ilmu Pertanian Indonesia, Volume 8 (1). ISSN: 1411-0067.

Puswanto, E, Raharjo, P. D., & Widiyanto, K. (2014). Identifikasi Kerusakan DAS Luk Ulo dan Upaya Pemberdayaan Masyarakat (Studi Kasus: Karangsambung, Kabupaten Kebumen). Prosiding Seminar Nasional Kebumian Ke-7, Teknik Geologi, UGM.

Raharjo, P. D., & Saifudin. (2008). Pemetaan Erosi DAS Lukulo Hulu dengan Menggunakan Data Penginderaan Jauh dan Sistem Informasi Geografis. Jurnal Ilmu Tanah dan Lingkungan, Vol 8 (2). p:103-113.

Raharjo, P. D. (2010). Penggunaan Data Penginderaan Jauh Dalam Analisis Bentuklahan Asal Proses Fluvial di Wilayah Karangsambung. Jurnal Geografi, Vol. 7 (2).

Raharjo, P. D. (2012). Arahan Penataan Ruang dan Pengembangan Wilayah berbasis Genetika Wilayah di Pegunungan Serayu Selatan; Studi Kasus CAGK Karangsambung. Laporan Teknik BIKK Karangsambung, LIPI.

Raharjo, P. D., Winduhutomo, S., Widayanto, K., & Puswanto, E. (2016). Analisa Hidrologi Permukaan Dalam Hubungannya Dengan Debit Banjir DAS Lukulo Hulu Dengan Menggunakan Data Penginderaan Jauh. Jurnal Geografi, Vol 13 (2). Unnes. Semarang.

Raharjo, P. D., Widiyanto., K., Puswanto., E., & Winduhutomo., S. (2018). Pengaruh Meandering Sungai Luk Ulo Terhadap Kejadian Longsor di Perkotaan Kabupaten Kebumen, Jawa Tengah. Prosiding SEMNAS SINTA FT Unila Vol I, Tahun 2018.

Raharjo, P., & Haryono, P. (2020). Sintesa Geomorfologi Antroposen Kawasan Cagar Alam Geologi Karangsambung Bagian Selatan. Jurnal Geografi Gea, Vol. 20 (2). E-ISSN 2549-7529.

Rahayu, S., Widodo, R. H., Van Noordwijk, M., Suryadi, I., & Verbist, B. (2009). Monitoring Air di Daerah Aliran Sungai. Bogor, Indonesia. World Agroforestry Centre – South East Asia Regional Office. 104 p. ISBN: 979-3198-45-3.

Ryberg, K. R., Kolars, K. A., Kiang, J.E., & Carr, M. L. (2020). Flood-Frequency Estimation for Very Low Annual Exceedance Probabilities Using Historical, Paleoflood, and Regional Information with Consideration of Nonstationarity. U.S. Geological Survey Scientific Investigation Report 2020-5065, 89 p, https://doi.org/10.3133/sir20205065.

Wilson, C.G., Papanicolaou, A.N., & Abaci, O. (2009). SOM Dynamics and erosion in an agriculture test field of the Clear Creek, Iowa, Watershed. Hydrology and Earth System Sciences Discussion.

Saifudin., Ansori, C. & Hastria, D. (2008). Pengkajian Daerah Resapan DAS Luk Ulo, Kabupaten Kebumen. Prosiding Seminar Geoteknologi Kontribusi Ilmu Kebumian dalam Pembangunan Berkelanjutan. Bandung 3 Desember 2007, ISBN: 978-979-799-255-5.

Saifudin, & Raharjo, P. D. (2009). Potensi Endapan Sedimen Dalam Hubungannya dengan Tingkat Erosi di DAS Lukulo Hulu. Prosiding Pemaparan Hasil Penelitian Puslit Geoteknologi – LIPI, 2009.

Schumm, S. A. (1977). The Fluvial System. John Willey and Sons, New York, 338 p.

Setiawan, H., Phillipson, S., Sudarmin., & Isnaeni, W. (2018). Current Trends in TPACK Research in science education: a systematic review of literature from 2011-2017. Journal of Physisc ICOMSET IOP Publishing 1317 (2019) 012213.

Setyawan, D., & Warsito. (1999). Komposisi Mineral Tanah-tanah yang telah lama disawahkan di Daerah Tugumulyo, Sumatera Selatan. Jurnal Tanah Tropika. 4(8): 131-138.

Smith, K. (1950). Standards for Grading Texture of Erosional Topography. American Journal of Science Vol. 245 hal 655-668.

Sukristiyanti, S., Maria, R., Agustin, F., & Sugianti, K. (2017). Analisis Morfometri DAS di Daerah Rentan Gerakan Tanah. Studi Kasus: DAS Mikro Cibintinu dan Cibodas – Kabupaten Bandung. Seminar Nasional Geomatika 2017: Inovasi Teknologi Penyediaan Informasi Geospasial untuk Pembangunan Berkelanjutan. Badan Informasi Geospasial (BIG).

Stedinger, J. R., & Baker, V. R. (1987). Surface Water Hydrology: Historical and Paleoflood Information. Review of Geophysics, 25, 119-124. HTTP://dx.doi.org/10.1029/RG025i002p00119.

Susilawati, Imran., A.M, & Farida. M. (2014). Karakteristik Sedimen Kuarter Hasil Banjir Bandang di Sungai Mongottong, Kab. Sinjai, Prov. Sulawesi Selatan, FTG Universitas Hasanudin.

Suripin. (2003). Sistem Drainase Perkotaan yang Berkelanjutan. Andi Offset. Yogyakarta.

Seyhan, E. (1990). Dasar-dasar Hidrologi. Gadjah Mada University Press. ISBN 979-420-176-6.

Van Bemmelen, R. W. (1949). The Geology of Indonesia. Volume IA. General Geology of Indonesia and Adjacent Archipelagoes. The Government Printing Office, The Hague.

Vittala, S.S., & Govindaiah, S. (2004). Morphometric Analysis of Sub-Watershed in the Pavagada of Tumkur District, South India using Remote Sensing and GIS Techniques. Journal of the Indian Society of Remote Sensing, Vol 32. No 4. 2004.