Karakteristik Hidrofisis Transport Sedimen Muara Sungai dan Danau

Maxi Tendean

Karakteristik Hidrofisis Transport Sedimen Muara Sungai dan Danau

Authors

Maxi Tendean

Universitas Negeri Manado

Keywords:

Hidrofisis, Transport sedimen, Muara, Sungai, Danau

Synopsis

Hidrofisis adalah kajian tentang kecepatan aliran, massa aliran, termasuk wash load, suspended load, bed load, yang merupakan karakter geofisis aliran sungai dan menjadi potensi kerusakan muara. Dinamika transport material sedimen di musim penghujan dan musim kemarau dalam keadaan full moon dan half moon pada saat pasang atau surut di muara sungai berbeda keadaannya. Muara sungai sebagai ruang terbuka merupakan daerah pengendapan material transfor dan menjadi lokasi penambangan material sedimen tidak terlepas dari pengelolaan dan pemanfaatan, serta permasalahan seperti sedimentasi, masalah geomorfologi muara dan bahkan masalah aspek lingkungan muara.

Editor : Erick Lobja

Huruf dan Ukuran :
Constantia (11), xi + 187 , Uk: UNESCO (15,5 x 23 cm)

ISBN:
978-623-93268-5-2 (Cetak)
978-623-93268-6-9 (PDF)

Cetakan Pertama:
November, 2023

Katalog dalam Terbitan (KDT)
Karakteristik hidrofisis transport sedimen muara sungai dan danau/Prof. Dr. Maxi Tendean, M.Si; editor, Dr. Erick Lobja, S.Pd., M.Si/Jurusan Pendidikan Geografi Fakultas Ilmu Sosial Universitas Negeri Manado, 2023

Hak Cipta 2023, Pada Penulis

Harga Buku: Rp.100.000,-

References

Arsyad, S. (2009). Konservasi Tanah & Air. Bogor: IPB Press.

Asdak, C. (2007). Hidrologi dan Pengelolaan Daerah Aliran Sungai. Universitas Gadjah Mada Press.

Bartnik, W., Madeyski, M., & Michalik, A. (1992). Suspended Load and Bed Load Transport in Mountain Sreams Determinated Using Different Method.

Billi, P., & Paris, E. (1992). Bed Sediment Characterization in River Engineering Problems. Erosion and Sediment Transport Monitoring Programmes in River Basins, 210, 11–20.

Bird, E. C. F., & Ranwell, D. S. (1964). Spartina Salt Marshes in Southern England: IV. The Physiography of Poole Harbour, Dorset. The Journal of Ecology, 355–366.

Bogen, J. (1992). Monitoring Grain Size of Suspended Sediments in Rivers. Erosion and Sediment Transport Monitoring Programmes in River Basins, 183–190.

Brothers, L. L., Belknap, D. F., Kelley, J. T., & Janzen, C. D. (2008). Sediment Transport and Dispersion in A Cool-Temperate Estuary and Embayment, Saco River Estuary, Maine, USA. Marine Geology, 251(3–4), 183–194.

Buscombe, D., & Masselink, G. (2009). Grain‐Size Information from The Statistical Properties of Digital Images of Sediment. Sedimentology, 56(2), 421–438.

Cheney, E. W., & Kincaid, D. R. (2012). Numerical mathematics and computing. Cengage Learning.

Chow, V. Te. (1965). Bibliography: Handbook of Applied Hydrology. Taylor & Francis.

De Boer, D. H., & Lemieux, C. (1992). Suspended Sediment Dynamics of A Riverine Lake of the St. Lawrence River, Canada. Erosion and Sediment Transport Monitoring Programs in River Basins; Proceedings of the Oslo Symposium, 210, 473–482.

Dibyosaputro, S. (1979). Studi sedimen Yield Air Sungai Daerah Pengaliran Kali Lukulo Hulu diatas AWLR Karangsambung Kebumen. Skripsi S-1 Yogyakarta.

Dickinson, A., & Bolton, P. (1992). A Programme of Monitoring Sediment Transport in North Central Luzon The Philippines. Erosion and Sediment Transport Monitoring Programmes in River Basins, 210, 483–492.

Folliott, P. F. (1990). Manual on Watershed Instrumentation and Measurements.

Foster, I. D. L., Millington, R., & Grew, R. G. (1992). The Impact of Size Controls on Stream Turbidity Measurements. Some Implication for Suspended Sediment Yield Estimation, 51–62.

Garg, S. K. (1979). Water Resources and Hydrology [For Civil Engg. Degree, M. Tech., AMIE (Section B), Other General Courses in Hydrology Or Agriculture Engg: And for Professionals]. Khanna Pub.

Gurnell, A. M., Clark, M. J., Hill, C. T., Greenhalgh, J., Bogen, J., Walling, D. E., & Day, T. (1992). Reliability And Representativeness of a Suspended Sediment Concentration Monitoring Programme for A Remote Alpine Proglacial River. Erosion and Sediment Transport Monitoring in River Basins, Proceedings of the Oslo Symposium, 24–28.

Halliday, D., & Resnick, R. (1981). Fundamentals of Physics. John Wiley & Sons.

Herschy, R. W. (1978). Hydrometry: Principles and Practices. New York: John Wiley & Sons.

Horowitz, A. J., Elrick, K. A., Von Guerard, P. B., Young, N. O., Buell, G. R., & Miller, T. L. (1992). The use of automatically collected point samples to estimate suspended sediment and associated trace element concentrations for determining annual mass transport. Erosion and Sediment Transport Monitoring Programmes in River Basins. Proceedings of the Oslo Symposium, 209–218.

Jansson, M. B. (1992). Turbidimeter Measurements in A Tropical River. Costa Rica: Proceedings of the Oslo Symposium on Erosion and Sediment Transport Monitoring Programmes in River Basins, Oslo, Norway, 71–78.

Kerssens, P. M. J., van Rijn, L. C., & Prins, A. (1979). Model for Suspended Sediment Transport. Journal of the Hydraulics Division, 105(5), 461–476.

Kodoatie, R. J., & Sjarief, R. (2005). Pengelolaan Sumber Daya Air Terpadu. Andi.

Kumajas, M. (2005). Profil Momentum Aliran Sungai Ranoyapo sebagai Parameter Penentuan Gaya oleh Sedimen untuk Pengendalian Banjir. Pasca Sarjana Universitas Sam Ratulangi Manado.

Kundzewicz, Z. W., Plate, E. J., Rodda, H. J. E., Rodda, J. C., Schellnhuber, H. J., & Strupczewski, W. G. (2012). Changes on Flood Risk–Setting the Stage. In Changes in flood risk in Europe. IAHS Press & CRC Press.

Lensley, R. K., & Frazenni, J. B. (1975). Hydrology for Engineering. New York: McGraw Hill Inc.

Linsley, R. K., Franzini, J. B., Freyberg, D. L., & Tchobanoglous, G. (1993). Water Resources Engineering. McGraw-Hill. https://books.google.co.id/books?id=4dqlPwAACAAJ

Mangunsukardjo, K. (2002). Kajian Geomorfologi Untuk Perencanaan Penggunaan Lahan di Daerah Aliran Sungai Oyo, Gunungkidul, Daerah Istimewa Yogyakarta. Majalah Geografi Indonesia. https://journal.ugm.ac.id/mgi/article/view/13231

Maxi, T., Bisri, M., Rayes, M. L., & Tamod, Z. E. (2012). Geomorphology Processes of Ranoyapo Amurang River Estuary Based on Hydrophysical Variables in Dry Season. International Journal of Civil & Environmental Engineering, 12(02).

Mori, K. (2006). Hidrologi untuk Pengairan. Pradnya Paramita.

Mouri, G., Shiiba, M., Hori, T., & Oki, T. (2011). Modeling Reservoir Sedimentation Associated with An Extreme Flood and Sediment Flux in A Mountainous Granitoid Catchment, Japan. Geomorphology, 125(2), 263–270.

Mulyanto, H. R. (2010). Prinsip Rekayasa Pengendalian Muara dan Pantai. Yogyakarta: Graha Ilmu.

Nugroho, I., & Dahuri, R. (2004). Pembangunan Wilayah: Perspektif Ekonomi. Sosial, Dan Lingkungan, LP3ES, Jakarta.

Olive, L. J., & Rieger, W. A. (1992). Stream suspended sediment transport monitoring-why, how and what is being measured. Erosion and Sediment Transport Monitoring Programmes in River Basins, 210, 245–254.

Ongley, E. D. (1992). Environmental Quality: Changing Times for Sediment Programs. Erosion and Sediment Transport Monitoring Programmes in River Basins, 379–389.

Resnick, R. E., & Holliday, D. (1978). Physics. John Wiley & Sons.

Salamun, S. (2008). Instrusi Air Laut Sungai Gangsa. Keairan, 14(1), 21–34.

Schwab, G. O., Frevert, R. K., Edminster, T. W., & Barnes, K. K. (1982). Soil and Water Conservation Engineering. Soil Science, 134(2), 146.

Seyhan, E., & Subagyo, S. (1990). Dasar-Dasar Hidrologi. Gadjah Mada University Press.

Shi, J. Z. (2010). Tidal Resuspension and Transport Processes of Fine Sediment Within The River Plume in The Partially-Mixed Changjiang River Estuary, China: A Personal Perspective. Geomorphology, 121(3–4), 133–151.

Singh, M., Singh, I. B., & Müller, G. (2007). Sediment Characteristics and Transportation Dynamics of the Ganga River. Geomorphology, 86(1–2), 144–175.

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

Subramanya, K. (2008). Engineering Hydrology. McGraw-Hill.

Sulastriningsih, H. S. (2001). Sumbangan Sedimen dari Sub DAS Panasen dan Noongan terhadap pendangkalan danau Tondano di Sulawesi Utara:: Studi sedimen Sub Das Tondano Hulu Bagian Selatan. Universitas Gadjah Mada.

Summer, W., Klaghofer, E., Abi-Zeid, I., & Villeneuve, J. P. (1992). Critical Reflections on Long Term Sediment Monitoring Programmes Demonstrated on The Austrian Danube. Erosion and Sediment Transport Monitoring Programmes in River Basins, 255–262.

Suparto. (1995). Karakteristik dan Potensi Sumber daya Lahan daerah Tondano Selatan Sulawesi Utara.

Sutikno, S. (2016). The Role of Geomorphology in Phisical Geography and its Application in Research. Forum Geografi, 5(1), 31–38.

Taniguchi, S. (1992). A New Acoustic Sensor for Sediment Discharge Measurement, Erosion and Sediment Transport Monitoring Program in River Basins. IAHR Publication, 210, 135–142.

Tendean, M. (2006). Studi Dampak Transport Sedimen Terhadap Geomorfologi Muara Sungai Ranoyapo Amurang. Pascasarjana Universitas Sam Ratulangi Manado.

Tendean, M. (2014). Mathematical Function of Physical Variable and Material Transport Deposition Map in The River Estuary. Advanced Studies in Theoretical Physics, 8(23), 1003–1013.

Tendean, M. (2016). Tidal as Controlling Variable of Sediment Transport Material in Tondano River Estuary. International Research Journal of Advanced Engineering and Science, 1(4), 202–207.

Tendean, M. (2017). Estuaries Hidrofisis Characteristic. Indonesian Journal of Environment and Sustainable Development, 8(2).

Tendean, M. (2019). Function and Rating Curve of Drainage Density Alteration along the Mouth of the Ranoyapo Amurang River. International Journal of Innovative Science Engineering and Technology (IJISET), 6(10), 166–174.

Tendean, M., Maliangkay, D., & South, G. (2019). Model of Flow Velocity Distribution and Change Along the Amano Ranoyapo Estuary during Tides. International Conference on Social Science 2019 (ICSS 2019), 737–739.

Uncles, R. J., Stephens, J. A., & Smith, R. E. (2002). The Dependence of Estuarine Turbidity on Tidal Intrusion Length, Tidal Range and Residence Time. Continental Shelf Research, 22(11–13), 1835–1856.

van Zuidam, R. A. (1975). Geomorphology and Archaeology. Evidences of Interrelation at Historical Sites in The Zaragoza Region, Spain. Zeitscrift Fur Geomorphologie, 19, 319–328.

Walling, D. E. (1977). Assessing The Accuracy of Suspended Sediment Rating Curves for A Small Basin. Water Resources Research, 13(3), 531–538.

Wang, H., Yang, Z., Wang, Y., Saito, Y., & Liu, J. P. (2008). Reconstruction of Sediment Flux from The Changjiang (Yangtze River) to The Sea Since The 1860s. Journal of Hydrology, 349(3–4), 318–332.

Widiyanto. (1986). Geomorfologi Daerah Glaga-Bogowonto. Universitas Gadjah Mada Yogyakarta.

Xiao, R., Bai, J., Zhang, H., Gao, H., Liu, X., & Wilkes, A. (2011). Changes of P, Ca, Al and Fe Contents in Fringe Marshes Along A Pedogenic Chronosequence in The Pearl River Estuary, South China. Continental Shelf Research, 31(6), 739–747.

Yadav, S. M., & Samtani, B. K. (2008). Bed Load Equation Evaluation Based on Alluvial River Data, India. KSCE Journal of Civil Engineering, 12, 427–433.

Yang, C., Jiang, C., & Kong, Q. (2010). A Graded Sediment Transport and Bed Evolution Model in Estuarine Basins and Its Application to The Yellow River Delta. Procedia Environmental Sciences, 2, 372–385.

Yuqian, L. (1992). The Design and Operation of Sediment Transport Measurement Programmes in River Basins: The Chinese Experience. Proceedings of the International Symposium on Erosion and Sediment Transport Monitoring Programs in River Basin, Oslo, Norway, 24–28.

Yuqian, L., Yiying, Q., Guishu, X., & Mingquan, X. (1994). Variability of Sediment Load and Its Impacts on the Yellow River. IAHS Publications-Series of Proceedings and Reports-Intern Assoc Hydrological Sciences, 224, 431–438.

Zaidi, A. A., Tsuji, T., & Tanaka, T. (2015). Hindered Settling Velocity & Structure Formation During Particle Settling by Direct Numerical Simulation. Procedia Engineering, 102, 1656–1666.

Zhian, X., & Gangyan, Z. (1992). Measuring Techniques of Bed Load in The Yangtze River. Erosion and Sediment Transport Monitoring Programmes in River Basins.