Kelimpahan dan Karakteristik Mikroplastik pada Air Minum serta Potensi Dampaknya terhadap Kesehatan Manusia
Isi Artikel Utama
Abstrak
Mikroplastik merupakan polutan baru yang saat ini menjadi masalah global yang mengkhawatirkan bagi lingkungan. Mikroplastik adalah partikel plastik dengan ukuran <5 mm. Mikroplastik dapat berasal dari hasil produksi industri atau dari sampah plastik yang mengalami degradasi menjadi potongan-potongan kecil. Tidak hanya terdapat dilingkungan kini mikroplastik ditemukan keberadaannya dalam air minum. Penulisan ini bertujuan untuk merangkum keberadaan polutan mikroplastik di dalam air minum baik air minum kemasan maupun air minum isi ulang dan bagaimana dampak yang dihasilkan jika terakumulasi di dalam tubuh. Pada air minum kemasan ditemukan mikroplastik berbentuk fragmen dengan jenis polypropylene (PP) sebanyak 10,4 partikel/L dengan ukuran >100 µm, 335 partikel/L dengan ukuran 6,5-100 µm. Pada air minum isi ulang ditemukan mikroplastik berbentuk fiber dengan jenis High Density Polyethylene (HDPE), Polyvinyl Chloride (PVC), dan Polyethylene (PE) sebanyak 159, 130, 67, dan 35 partikel masing-masing berwarna biru, merah, bening, dan kuning. Ditemukan pula mikroplastik pada air minum isi ulang sebanyak 0,8 partikel/L dengan ukuran 1,02-1,49 mm. Jika terakumulasi di dalam tubuh mikroplastik dapat memberikan dampak negatif seperti peradangan pada organ, cedera internal dan/ atau eksternal, transformasi kandungan kimia plastik ke dalam tubuh, gangguan mikroba usus yang menyebabkan penyumbatan saluran usus sehingga mengakibatkan sensasi kenyang semu, stres fisiologis, perubahan pola makan, dan penghambatan pertumbuhan.
Unduhan
Rincian Artikel
Artikel ini berlisensi Creative Commons Attribution 4.0 International License.
Referensi
C. B. Crawford dan B. Quinn, Microplastic Pollutants, Elsevier Science, 2016.
S. A. Mason, V. G. Welch dan Joseph Neratko, “Synthetic Polymer contamination in Bottled water,” Frontiers in Chemistry, 2018.
S. Rachmat, N. Purba, M. Agung dan L. Yuliadi, “Karakteristik Mikroplastik di Muara Sungai DKI Jakarta,” Depik Jurnal Ilmu-Ilmu Perairan Pesisir dan perikanan, vol. 8(1), 2019.
L. Andrady , “Microplastics in The Marine Environment,” Marine Pollution Bulletin, vol. 62 (8), pp. 1596-605, 2011.
M. Browne, P. Crump, S. Niven dan et al.,, “Accumulation of microplastic on shorelines woldwide : sources and sinks,” Environmental Science & Technology, vol. 45 (21), pp. pp. 9175-9179, 2011.
J. Wang , Z. Tan, J. Peng, Q. Qiu dan M. Li, “The Behaviors of Microplastics in The Marine Environment,” Marine Environmental Research, vol. 45 (21), pp. 9175-9179, 2016.
E. Zettler, T. Mincer dan L. Amaral-Zettler , “Life in the "Plastisphere" : microbial communities on plastic marine debris,” Environmental Science Technology, vol. 47, pp. 7137-7146, 2013.
J. Li, X. Qu, L. Su, W. Zhang , D. Yang, P. Kolandhasamy, D. Li dan H. Shi, “Microplastics in mussles along the coastal waters of China,” Environmental Pollution, vol. 214, pp. 177-184, 2016.
S. Yoshida, K. Hiraga , T. Takehana, I. Taniguchi, H. Yamaji, Y. Maeda, K. Toyohara, K. Miyamoto, Y. Kimura dan K. Oda, “A bacterium that degrades and assimilates poly (ethylene terephthalate),” Science, vol. 351 (6278), pp. 1196-1199, 2016.
D. Barnes , F. Galgani, R. Thompson dan M. Barlaz, “Accumulation and Fragmentation of Plastics Debris in Global Environments,” Philosophical Transactions of the Royal Society B: Biological Sciences, vol. 364(1526), 2009.
P. Roy, M. Hakkarainen , I. Varma dan A. Albertsson, “Degradable Polyethylene: Fantasy or Reality,” Environmental Science and Technology, vol. 45(10), pp. 4217-4277, 2011.
A. Lusher, H. Peter dan M. Jeremy, “Microplastics in fisheries and 81 aquaculture,” Food and Agriculture Organization of The United Nations , 2017.
V. Hidalgo-Ruz, L. Gutow dan R. Thompson, “Microplastics in the marine environment : a review of the mthods used for identification and quantification,” Environmental Science and Technology, vol. 46 (6), pp. 3060-3075, 2012.
H. Hiwari, “Kondisi sampah mikroplastik di permukan air laut sekita Kupang dan Rote Provinsi Nusa Tenggara Timur,” Prosiding Seminar Nasional Masyarakat Biodiversitas Indonesia, vol. 5 (2), pp. 165-171, 2019.
N. Nor dan J. Obbard , “Microplastics in Singapore's coastal mangrove ecosystem,” Elsevier, vol. 79, no. 1-2, pp. 278-283, 2014.
I. Dewi, A. Budiarsa dan I. Ritonga, “Distribusi mikroplastik pada sedimen di Muara Badak, Kabupaten Kutai Kartanegara,” Jurnal Imu-Ilmu Perairan, Pesisir, dan Perikanan, vol. 4 (3), pp. 121-131, 2015.
L. Fendall dan M. Sewell, “Contributing to marine pollution by washing your face : microplastics in facial cleansers,” Marine Pollution Bulletin, vol. 55, pp. 1225-1228, 2009.
A. Koelmans , N. Nor, E. Hermsen, M. Kooi, S. Mintenig dan J. de France, “Microplastic in freshwaters and drinking water : Critical review and assesment of data quality,” Water Research, vol. 155, pp. 410-422, 2018.
I. V. Kirstein, F. Hensel, A. Gomiero, L. Iordachescu, A. Vianello, H. B. Wittgren dan J. Vollertsen, “Drinking plastics? – Quantification and qualification of microplastics in drinking water distribution systems by µFTIR and Py-GCMS,” Water Research, vol. 188, 2021.
A. Dehaut, A. Cassone, L. Frere, L. Hermabessiere, C. Himber, E. Rinnert dan I. Paul-Pont, “Microplastics in seafood : Benchmark protocol for their extraction and characterization,” Environmental Pollution, vol. 215, pp. 223-233, 2016.
X.-j. Zhou, J. Wang, H.-y. Li, H.-m. Zhang, Hua-Jiang dan D. L. Zhang, “Microplastic pollution of bottled water in China,” Journal of Water Process Engineering, vol. 40, p. 101884, 2021.
E.-H. Lee, S. Lee, Y. Chang dan S.-W. Lee, “Simple screening of microplastics in bottled waters and environmental freshwaters using a novel fluorophore,” Chemosphere, vol. 285, pp. 0045-6535, 2021.
D. Schymanski, C. Goldbeck, H.-U. Humpf dan P. Fürst, “Analysis of microplastics in water by micro-Raman spectroscopy: Release of plastic particles from different packaging into mineral water,” Water Research, vol. 129, pp. 154-162, 2018.
M. N. Abdulloh, Identifikasi Kandungan Mikroplastik Pada Air Minum Isi Ulang Di Kecamatan Gunung Anyar Surabaya, Other thesis: UPN Veteran Jawa Timur, 2020.
M. Syarif, Identifikasi Mikroplastik Pada Air Minum Isi Ulang di Kelurahan Tamangapa Kota Makassar, Skripsi-S1 thesis: Universitas Hasanuddin, 2020.
A. A. Horton, A. Walton, D. J. Spurgeon, E. Lahive dan C. Svendsen, “Microplastics in freshwater and terrestrial environments: Evaluating the current understanding to identify the knowledge gaps and future research priorities,” Science of The Total Environment, vol. 586, pp. 127-141, 2017.
R. Akhbarizadeh, S. Dobaradaran, T. C. Schmidt, I. Nabipour dan J. Spitz, “Worldwide bottled water occurrence of emerging contaminants: A review of the recent scientific literature,” Journal of Hazardous Materials, vol. 392, pp. 0304-3894, 2020.
A. Winkler, N. Santo, M. A. Ortenzi, E. Bolzoni, R. Bacchetta dan P. Tremolada, “Does mechanical stress cause microplastic release from plastic water bottles?,” Water Research, vol. 166, pp. 0043-1354, 2019.
S. Mintenig, M. Löder, S. Primpke dan G. Gerdts, “Low numbers of microplastics detected in drinking water from ground water sources,” Science of The Total Environment, vol. 648, pp. 631-635, 2019.
M. Eriksen , C. Laurent , S. Henry, M. Thiel, C. Moore, J. Borerro, F. Galgani, P. Ryan dan J. Reisser, “Plastic Pollution in the World's Oceans: More Than 5 Trillion Plastic Pieces Weighing Over 250,000 Tons Afloat at Sea,” PLoS One, vol. 9 (12), no. 111913, 2014.
A. Lusher, N. Welden, P. Sobral dan M. Cole, “Sampling, isolating and identifying microplastics ingested by fish and invertebrates,” Analytical Methods, no. 9, pp. 1346-1360, 2017.
Y. Deng , Y. Zhang, B. Lemos dan H. Ren, “Tissue accumulation of microplastics in mice and biomarker responses suggest widespread health risks of exposure,” Sci. Rep., vol. 7, p. 46687, 2017.
S. Wright dan F. Kelly, “Plastic and Human Health : A Micro Issue ?,” Environmental Science and Technology, vol. 51, no. 6634-6647, 2017.
M. Cole , P. Lindeque, E. Fileman, C. Halsband dan T. Galloway, “The impact of polystryrene microplastics on feeding, function, and fecundity in the marine copepod calanus helgolandicus,” Environmental, Science and Technology, vol. 49, pp. 1130-1137, 2016.
E. Nelms , E. Duncan, A. Broderick, T. Galloway, M. Godfrey, M. Hamann, P. Lindeque dan B. Godley, “Plastics and marine turtles : a review and call for research,” Ices J. Mar. Sci. , vol. 72, pp. 165-181, 2015.
M. Ogonowski, C. Schur, A. Jarsen dan E. Gorokhova, “The effects of natural and anthropogenic microparticles on individual fitness in Daphnia magna,” PLoS One , vol. 11, p. 0155063, 2016.
R. Sussarellu , M. Suquet, Y. Thomas, C. Lambert, C. Fabioux, M. Pernet, N. Le Goic, V. Quillien, C. Mingant, Y. Epelboin, C. Corporeau, J. Guyomarch, J. Robbens, I. Paul-Pont, P. Soudant dan A. Huvet, “Oyster reproduction is a affected by exposure to polystyrene microplastics,” proc. Natl. Acd. Sci. U.S.A, vol. 99, pp. 2430-2435, 2016.
N. Welden dan P. Cowie, “Environment and gut morphology influence microplastic retention in langoustine, Nephrops norvegicus,” Environ. Pollut, vol. 214, pp. 859-865, 2016.
S. Wright , D. Rowe, R. Thompson dan T. Galloway, “Microplastic ingetion decrease energy reserves in marine worms,” Curr. Biol., vol. 23 (23), pp. R1031-R1033, 2013a.
M. Rochman, A. Browne, J. Underwood , R. Van Franeker, L. Thompson dan Amaral-Zettler, “The Ecological Impacts of Marine Debris: Unraveling the Demonstrated Evidence from What is Perceiveed,” Ecology, vol. 97, pp. 302-312, 2015.
P. Hollman, H. Bouwmeester dan R. Peters, Microplastics in the aquatic food chain: Sources, measurement, occurrence and potential health risks, Wageningen: RIKILT Wageningen UR, 2013.
P. Bormans, Ceramics are more than Clay Alone, Cambridge: Cambridge International Science Publishing, 2004.
M. P. Fewell, "The atomic nuclide with the highest mean binding energy," American Journal of Physics, vol. 63, no. 7, pp. 653-658, 1995.