Jurnal Segara

Abrasion which is occurred in the Sayung coast is triggered by a big role of climate change as well as the sea level rise and land subsidence. Resulting degradation ultimately affects changes in existing environmental conditions. This study has aim to determine the existing water based on biological and chemical content which is affected by increasing suspended solid content in the Sayung waters. Purposive sampling technique was applied, and data is analyzed both statistically and spatially. Suspended solid value has ranged 23,1-199,6 mg/L. Distribution of suspended solid was only simulated during low tide towards high tide phase with current speed has ranged 0-0.41 m/s. We found that dissolved oxygen value is quite high in several observation stations which indicates the fertile area with low pollution and blooming tendency. In the station which is dominated by a high suspended solid and turbidity found that the chlorophyll-a decreases. The increased rate of suspended solid is directly enhancing the turbidity and indirectly declines the photosynthesis activity and inhibits the oxygen cycle. Resulting in the primary productivity reduction in the Sayung waters

Hydrodynamics, Sayung waters, Suspended solid content, Water quality

Anonymous, 2004. Sea water quality standards for marine biota (Baku Mutu Air Laut untuk Biota Laut). Appendix III. Decree of State Minister of Environment Year 2014. (in bahasa).

Arief, M., and Lestari L.W., 2006. Pond Water Suitability Analysis in Demak District Viewed from the Value of Chlorophyll-a, Water Surface Temperature and Suspended Solids Using Landsat Satellite Imagery Data ETM 7+ (Analisis Kesesuaian Perairan Tambak di Kabupaten Demak Ditinjau dari Nilai Klorofil-a, Suhu Permukaan Perairan, dan Muatan Padatan Tersuspensi Menggunakan Data Citra Satelit Landsat ETM 7+). Jurnal Penginderaan Jauh. 3(1): 108-118. (in bahasa).

Chow, C. E. T., Sachdeva, R., Cram, J.A., Steele, J.A., Needham, D.M., Patel, A., Parada, A.E., and Fuhrman, J.A., 2013. Temporal variability and coherence of euphotic zone bacterial communities over a decade in the Southern California Bight. The ISME journal. 7(12): 2259-2273. doi: 10.1038/ismej.2013.122.

D’Croz, L., and O’Dea, A., 2007. Variability in upwelling along the Pacific shelf of Panama and implications for the distribution of nutrients and chlorophyll. Estuarine, Coastal and Shelf Science. 73: 325–340. doi:10.1016/j.ecss.2007.01.013.

Hendrarto, I. B., and Nitisuparjo, M., 2011. Biodiversity of benthic diatom and primary productivity of benthic micro-flora in mangrove forests on central Java. Journal of Coastal Development. 14(2): 131-140.

Jin, K. R., and Ji, Z. G., 2004. Case study: Modeling of sediment transport and wind-wave impact in Lake Okeechobee. Journal of hydraulic engineering. 130(11): 1055-1067. doi: 10.1061/(ASCE)0733-9429(2004)130:11(1055).

Mehdiabadi. F.E., Mehdizabeh, M.M., and Rahbani, M., 2015. Simulating Wind Driven Waves in the Strait of Hormuz using MIKE 21. Ilmu Kelautan. 20(1): 6-13. doi: 10.14710/ik.ijms.20.1.1-8.

Ondara, K., and Wisha, U.J., 2016. Numerical Simulation of Spectral Waves and ROB Using Flexible Mesh and Data Elevation Model in Wates of Sayung District, Demak (Simulasi Numerik Gelombang (Spectral Waves) dan Bencana Rob Menggunakan Flexible Mesh dan Data Elevation Model Di Perairan Kecamatan Sayung, Demak). Jurnal Kelautan. 9(2): 164-174. doi: 10.21107/jk.v 9i2.1694. (in bahasa).

Pranoto, H. R., Atmodjo, W., and Sugianto, D. N., 2016. Sedimentation Study on Groin Building in Timbulsloko Waters, Demak Regency (Studi Sedimentasi pada Bangunan Groin di Perairan Timbulsloko, Kabupaten Demak). Jurnal Oseanografi. 5(1): 86-95. (in bahasa).

Purwaningsih, F. D., Saraswati, T. R., and Soeprobowati, T. R., 2015. Heavy Metals Concentrations of Pb, Cd, and Cr on Water and Sediment in Coastal Waters of Sriwulan, District of Sayung, Kabupaten Demak (Konsentrasi Logam Berat Pb, Cd, dan Cr pada Air dan Sedimen di Perairan Pesisir Sriwulan, Kecamatan Sayung, Kabupaten Demak). National Seminar of Biology II in 2015 in the field of Biodiversity Utilization and Environmental Quality Improvement. Semarang-Indonesia. (in bahasa).

Riyadi, A., Widodo, L., and Wibowo, K., 2005. Study of Quality of Sea Waters of Semarang City and its Eligibility for Sea Cultivation (Kajian Kualitas Perairan Laut Kota Semarang dan Kelayakannya untuk Budidaya Laut). Jurnal Teknik Lingkungan P3TL BPPT. 6(3): 497-501. (in bahasa).

Salmin. 2005. Dissolved Oxygen (DO) and Biological Oxygen Needs (BOD) as one of the Indicators for Determining Water Quality. Bidang Dinamika Laut. P2O LIPI. Jakarta.

Sidqi, M., Tandjung, S. D., and Nitimulyo, K. H., 2003. Analysis of Aquatic Environment Quality Based on Mayobentos Community and Sediment Quality in Coastal and Aquaculture Areas, Coastal of Sriwulan Regency, Demak (Analisis Kualitas Lingkungan Perairan Berdasarkan Komunitas Meiobentos dan Kualitas Sedimen di Pantai dan Area Pertambakan, Pesisir Sriwulan Kabupaten, Demak). Manusia dan Lingkungan. 10(3):111-119. (in bahasa).

Sihombing, I. N., Hutabarat, S., and Sulardiono, B., 2015. Water Fertility Study Based on Nutrients (N, P) and Phytoplankton at Sungai Tulung Demak (Kajian Kesuburan Perairan Berdasarkan Unsur Hara (N, P) dan Fitoplankton di Sungai Tulung Demak). Maquares. 4(4): 119-127. (in bahasa).

Suprapti, N.H. 2008. Chromium Content in Waters, Sediments and Blood Clams (Anadara granosa) in the Coastal Area Around Muara Sungai Sayung Village Morosari District Demak, Central Java (Kandungan Chromium pada Perairan, Sedimen dan Kerang Darah (Anadara granosa) di Wilayah Pantai Sekitar Muara Sungai Sayung Desa Morosari Kabupaten Demak, Jawa Tengah). BIOMA. 10(2): 36-40. (in bahasa).

Werren, I.R., and Bach, H., 1992. MIKE 21: A Modelling System for Estuaries, Coastal Waters and Seas. Environ. Software. 7(4):229-240. doi: 10.1016/0266-9838(92)90006-P.

Widada, S., Rochaddi, B., and Endrawati, H., 2012. The Influence of Flow on ROB puddle in Sayung Sub-district of Demak District (Pengaruh Arus Terhadap Genangan ROB di Kecamatan Sayung Kabupaten Demak). Buletin Oseanografi Marina. 1(1): 31-39. (in bahasa).

Wisha, U. J., S. Husrin, & J. Prihantono. 2015. Hydrodynamics Banten Bay during Transitional Seasons (August-September) (Hidrodinamika Perairan Teluk Banten Pada Musim Peralihan (Agustus–September)). Ilmu Kelautan. 20(2): 101-112. doi: 10.14710/ik.ijms.20.2.101-112. (in bahasa).

Wisha, U. J., and Heriati A., 2016. Analysis of Tidal Range and Its Effect on Distribution of Total Suspended Solid (TSS) in The Pare Bay Waters (Analisis Julat Pasang Surut (Tidal Range) dan pengaruhnya terhadap Sebaran Total Sedimen Tersuspensi (TSS) di Perairan Teluk Pare). Jurnal Kelautan. 9(1): 23-31. doi: 10.21107/jk.v9i1.1066. (in bahasa).

Wisha U. J., Husrin, S., and Prasetyo, G. S., 2016a. Hydrodynamics of Bontang Seawaters: Its Effects on the Distribution of Water Quality Parameters. Ilmu Kelautan. 21(3): 123-134. doi: 10.14710/ik.ijms.21.3.123-134.

Wisha, U. J., Yusuf, M., and Maslukah, L., 2016b. Abundance of Phytoplankton and TSS Value as an Indicator for Porong River Estuary Conditions (Kelimpahan Fitoplankton Dan Konsentrasi Tss Sebagai Indikator Penentu Kondisi Perairan Muara Sungai Porong). Jurnal Kelautan. 9(2): 122-129. doi: 10.21107/jk.v9i2.1298. (in bahasa).

Wulandary, S. Y., Yusuf, M., and Muslim, 2014. Study of Concentration and Distribution of Water Quality Parameters in Coastal Waters of Genuk, Semarang (Kajian Konsentrasi dan Sebaran Parameter Kualitas Air di Perairan Pantai Genuk, Semarang). Buletin Oseanografi Marina. 3(1): 9-19. (in bahasa).

Zhou, M. J., Shen, Z. L., and Yu, R. C., 2008. Responses of a coastal phytoplankton community to increased nutrient input from the Changjiang (Yangtze) River. Continental Shelf Research. 28(12): 1483-1489. doi: 10.1016/j.csr.2007.02.009.