Sedimentation presents a significant challenge in port management. It poses a risk to arriving and departing ships, potentially causing them to sink. The shallowing of the previous port required the construction of the new Panarukan port pier. This project focuses on using sediment transport modeling to analyze sediment transport patterns, and measure the extent of sedimentation or erosion at Panarukan Harbor. The sediment transport modeling utilizes the MIKE 21 program, which includes various modules such as the hydrodynamic module, the spectral wave module, the sand transport module, and the mud transport module. The data used in this modeling includes depth information, coastline data, wave height and period measurements, river water discharge data, total suspended solids (TSS) measurements, and the average sediment grain size. The modeling was carried out over a five-month period during the rainy season, starting in October 2019 and ending in February 2020. Based on the modeling results, sedimentation occurred at the Sampean River Estuary, causing a significant increase in the bed level of 0.4 meters during the rainy season. The sediment transport pattern of the Sampean River Estuary is characterized by a flow rate of -4200 to 3600 m2/s towards the coast and a flow rate of -2800 to 2800 m2/s perpendicular to the coast. The movement of sediment in the water differs between high and low tides. The concentrations of Total Suspended Solids (TSS) vary from 0.01 to 0.13 kg/m3 or 10 to 130 mg/l.

AGUSTA, V. C. and PUTRI, M. R. (2023). Grain size trend analysis for sediment characteristic of Cirebon waters. IOP Conference Series: Earth and Environmental Science, 1163(1), 012016. https://doi.org/10.1088/1755-1315/1163/1/012016

AZAD, A. S., MITA, K. S., ZAMAN, M. W., AKTER, M., ASIK, T. Z., HAQUE, A., … & RAHMAN, M. M. (2018). Impact of tidal phase on inundation and thrust force due to storm surge. Journal of Marine Science and Engineering, 6(4), 110. https://doi.org/10.3390/jmse6040110

BACHTIAR, H., NOVICO, F., RIANDINI, F., (2011). Model Sederhana 2-Dimensi Arah Pergerakan Sedimen Di Sungai Porong. J. Geol. Kelaut. 9, 10. https://doi.org/10.32693/jgk.9.3.2011.209

CHEN, W., LIU, W., KIMURA, N., & HSU, M. (2009). Particle release transport in Danshuei river estuarine system and adjacent coastal ocean: a modeling assessment. Environmental Monitoring and Assessment, 168(1-4), 407-428. https://doi.org/10.1007/s10661-009-1123-2

CHITKARA, T., THAKUR, O. P., & N. G. D. S. (. A. S. N. (2022). Textural characteristics and depositional environment of a late quaternary alluvial plain of Haryana. Open Journal of Geology, 12(11), 870-882. https://doi.org/10.4236/ojg.2022.1211041

CLARK, J. B. AND MANNINO, A. (2022). The impacts of freshwater input and surface wind velocity on the strength and extent of a large high latitude river plume. Frontiers in Marine Science, 8. https://doi.org/10.3389/fmars.2021.793217

FOLK, R. L. (1980). Petrology of sedimentary rocks. Hemphill publishing company.

FOLK, R. L., & WARD, W. C. (1957). A Study in the Significance of Grain-Size Parameters. Journal of Sedimentary Petrology, 27, 3–26. https://doi.org/10.1306/74D70646-2B21-11D7-8648000102C1865D

FUAD, M. A. Z., FAJARI, A. K., & HIDAYATI, N. (2021). Pemodelan dan Analisis Perubahan Garis Pantai di Kabupaten Situbondo, Jawa Timur. JFMR (Journal of Fisheries and Marine Research), 5(2), 335-349.

GRAF, W. H., & ALTINAKAR, M. S. (2005). Transport of Sediments. In M. G. Anderson & J. J. McDonnell (Eds.), Encyclopedia of Hydrological Sciences (Vol. 1–II, p. hsa147). John Wiley & Sons, Ltd. https://doi.org/10.1002/0470848944.hsa147

HANDAYANI, M., DEWI, C. S. U., & HARTONO, D. P. (2023). Suitability analysis of fish apartment placement to conserve fish resources on the North Sea of East Java. Jurnal Biologi Tropis, 23(1), 432-442.

ISMAIL, M. F. A., & TAOFIQUROHMAN, A. (2012). Simulasi Numeris Arus Pasang Surut Di Perairan Cirebon. Jurnal Akuatika, III(1), 10.

LIU, Y., DING, Q., CHI, M., ZHONG, L., LABAT, D., ZHANG, M., & LI, Y. (2020). Analyses of runoff and sediment transport and their drivers in a rare earth mine drainage basin of the Yangtze river, China. Water, 12(8), 2283. https://doi.org/10.3390/w12082283

LOUPATTY, G. (2013). Karakteristik Energi Gelombang dan Arus Perairan di Provinsi Maluku. Jurnal Barekeng, 7(1), 4. https://doi.org/10.30598/barekengvol7iss1pp19-22

LY, K., METTERNICHT, G., & MARSHALL, L. (2020). Linking changes in land cover and land use of the lower Mekong basin to instream nitrate and total suspended solids variations. Sustainability, 12(7), 2992. https://doi.org/10.3390/su12072992

MUBARAK, M., RIFARDI, R., NURHUDA, A., & SULAIMAN, A. (2020). The properties of sediment transport mechanism in river mouth of Rupat strait. https://doi.org/10.20944/preprints202012.0531.v1

ONGKOSONGO, O. S. R., & SUYARSO. (1989). Pasang Surut. Lembaga Ilmu Pengetahuan Indonesia Pusat Penelitian dan Pengembangan Oseanologi, Jakarta, 257 hlm.

OKTIARINI, D., ATMODJO, W., WIDADA, S., (2015). Transport Sedimen di Lokasi Perencanaan Pembangunan Pelabuhan Marunda, Jakarta Utara. J. Oseanografi 4, 9.

PONTE, N. S. C., NORONHA, V. S. D., SILVA, F. H. O. D., AMARAL, J. B. C., & LOPES, F. B. (2020). Estimating concentrations of chlorophyll-a and suspended sediments in a continental aquatic ecosystem using remote sensing. Revista Agro@mbiente on-Line, 14. https://doi.org/10.18227/1982-8470ragro.v14i0.6300

PRATAMA, R. L., & WIDAGDO, S. (2019). Karakteristik Tinggi Gelombang untuk Perencanaan Breakwater di Pelabuhan Jangkar Situbondo, Jawa Timur. Jurnal Riset Kelautan Tropis (Journal of Tropical Marine Research) (J-Tropimar), 1(1), 54-62.

PRIYANTONO, J., FAJRIANTO, I.A., KURNIADI, Y.N., (2018). Pemodelan Hidrodinamika dan Transpor Sedimen di Perairan Pesisir Sekitar Tanjung Pontang, Kabupaten Serang - Banten. J. Kelaut. Nas. 13, 14. https://doi.org/10.15578/jkn.v1i2.6614

RAHARTO, C. C., WIJAYA, N. I., & BINTORO, R. S. (2022). Pengaruh Metode Transplantasi Karang terhadap Tingkat Kelulushidupan Karang di perairan Pasir Putih Situbondo. Jurnal Riset Kelautan Tropis (Journal of Tropical Marine Research) (J-Tropimar), 4(2), 67-81.

RISANDI, J., SAGALA, S. L., & PRANOWO, W. S. (2015). Aplikasi model numerik karakteristik gelombang untuk kajian kesesuaian lahan pengembangan budidaya laut di Situbondo, Jawa Timur. Jurnal Kelautan Nasional, 10(1), 21-31.

ROSA, A., CARDOSO, C., VIEIRA, R., FARIA, R., OLIVEIRA, A. R., NAVARRO, G., & CALDEIRA, R. (2022). Impact of flash flood events on the coastal waters around Madeira Island: the “land mass effect”. Frontiers in Marine Science, 8. https://doi.org/10.3389/fmars.2021.749638

STANEV, E. V., BRINK-SPALINK, G., & WOLFF, J. (2007). Sediment dynamics in tidally dominated environments controlled by transport and turbulence: a case study for the East Frisian Wadden Sea. Journal of Geophysical Research: Oceans, 112(C4). https://doi.org/10.1029/2005jc003045

STIVE, M. AND VRIEND, H. D. (1995). Modelling shoreface profile evolution. Marine Geology, 126(1-4), 235-248. https://doi.org/10.1016/0025-3227(95)00080-i

SUPRIYADI, E., PRANOWO, W. S., & SISWANTO. (2018). Analisis Pasang Surut di Perairan Pameungpeuk, Belitung, dan Sarmi Berdasarkan Metode Admiralty. Jurnal Meteorologi dan Geofis