ANALYSIS OF ORGANIC AND ANORGANIC DEBRIS IN AIR MANIS BEACH, NIRWANA BEACH AND CAROLINA BEACH OF PADANG CITY WEST SUMATERA PROVINCE
Abstract
This research was conducted in June 2019 to determine the kind of marine debris, source, production and the correlation with the number of tourists in Air Manis, Nirwana, and Carolina Beach of Padang City, West Sumatera. Three sampling stations were surveyed. The results showed that marine debris found in those beaches were categorized organic, such as: fruits, leaves, wood, bamboo, sea plants and else an organic especially: plastic, glass, rubber, metal, etc. Air Manis Beach had the highest production of marine debris (1340 pcs), followed by Nirwana Beach (538 pcs) and Carolina Beach (500pcs). The source of marine debris were assessed to come from visitors and from outside those beac hes carried by sea current. The total of marine debris production was 29.165 kg. Plastic was the most common type of debris found. The production of garbage in the number of visitors shows very strong relationships (Y = -94,505 + 2,018x ; r = 0,97 ). There is strong correlation between the number of visitors and marine debris production in those beaches.
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References
Citrasari, N., N.I. Oktavitri, A. Nuril, Aniwindira. (2012). Analisis laju timbunan dan komposisi sampah di permukiman pesisir Kenjeran Surabaya. Journal of Biological Research. Volume 18, pages 83-85.
CSIRO. (2014). Marine debris: Sources, Distribution and Fate of Plastic and Other Refuse – and Its Impact on Ocean and Coastal Wildlife. www.csiro.au.
Hetherington J., J. Leous., J. Anziano., D. Brockett., A. Cherson., E. Dean., J. Dillon., T. Johnson., M. Littman., N. Lukehart., J, Ombac., K. Reilly. (2005). The Marine debris Research, Prevention and Reduction Act: A Policy Analysis. Columbia University New York, New York.
NOAA. (2015). Turning The Tide On Trash. A Learning Guide On Marine debris. NOAA PIFSC CRED.
NOAA. (2016). Marine debris Impacts on Coastal and Benthic Habitats. NOAA Marine debris Habitat Report.
Notoatmodjo S. (2011). Kesehatan Masyarakat Ilmu dan Seni. PT Rineka Cipta, Jakarta.
Renwarin A., O.A.H. Rogi., R.L.E. Sela. (2002). Studi Identifikasi Sistem Pengelolaan Sampah Permukiman Di Wilayah Pesisir Kota Manado. Jurnal. Program Studi Perencanaan Wilayah dan Kota, Universitas Sam Ratulangi. Manado.
Rochman, M., C., A. L. Tahir, Susan., Williams., V. Dolores., Baxa., L. Rosalyn., T. Jeffrey., M., T. Foo-Ching., S.Werorilangi and J. Swee., Teh. (2015). Anthropogenic Debris in Seafood: Plastic Debris and Fibers From Textiles in Fish and Bivalves Sold For Human Consumption. Journal. Nature.
Santoso, S. (2014). Statistik Multivariat, Edisi Revisi, Konsep dan Aplikasi dengan SPSS. Penerbit PT. Elex Media Komputindo. Jakarta.
Sugiyono. (2007). Metode Penelitian Kuantitatif Kualitatif dan R&D. Bandung: Alfabeta.
U.S. EPA (United States Environmental Protection Agency). (2009). Water Quality Analysis Simulation Program (WASP) Version 7.4. Office of Research Development National Exposure Research Laboratory Ecosystem Research Division, Athens, GA.
Wang J., Z. Tan., Q. Qiu., M. Li., (2016). The Behaviors of Microplastics in the Marine Environment. Faculty of Chemical Engineering and Light Industry, Guangdong University of Technology, China. Atlas of Science.
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