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Landfills with the open dumping method cause many environmental pollution problems, such as pollution, soil, surface water, and groundwater. Pollution cleaning technology (remediation) to reduce the harmful effects in the locations contaminated with heavy metals can be implemented by means of several methods, including using phytoremediation as a barrier to heavy metal contamination in order to preventing contamination distribution to the environment. Ferns (phytoremediation) on the side of the open dumping landfill were investigated as phytoremediation, inhibiting the distribution of heavy metals into the environment. The descriptive-analytic research method was used to analyze the ability of ferns in an open dumping landfill in peatland areas as a barrier to metal contamination distributed to the environment. The results show that ferns can bind heavy metals, such as Hg and Pb, produced from open dumping landfill activities to prevent the distribution of heavy metals to the environment around the landfill. Ferns are able to block the distribution of heavy metals into the environment, especially Pb and Hg. The ability of ferns to become potential plants in peatland areas requires further testing of other heavy metals.
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Tom
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112--117
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Bibliogr. 34 poz., rys., tab.
Twórcy
autor
- Department of Environmental Health, Poltekkes Kemenkes Semarang, Semarang 50268, Indonesia
autor
- Department of Environmental Health, Poltekkes Kemenkes Pontianak, Pontianak 78241, Indonesia
autor
- Department of Medical Laboratory Technology, Poltekkes Kemenkes Pontianak, Pontianak 78241, Indonesia
autor
- Department of Medical Laboratory Technology, Poltekkes Kemenkes Banten, Serang 15121, Indonesia
autor
- Department of Environmental Health, Poltekkes Kemenkes Surabaya Surabaya, Surabaya 60282, Indonesia
Bibliografia
- 1. Alam R., Ahmed Z., Howladar M.F. 2020. Evaluation of heavy metal contamination in water, soil and plant around the open landfill site Mogla Bazar in Sylhet, Bangladesh. Groundwater for Sustainable Development, 10, 100311.
- 2. Ali S.M., Pervaiz A., Afzal B., Hamid N., Yasmin A. 2014. Open dumping of municipal solid waste and its hazardous impacts on soil and vegetation diversity at waste dumping sites of Islamabad city. Journal of King Saud University-Science, 26(1), 59–65.
- 3. Asif N., Malik M., Chaudhry F.N. 2018. A review of on environmental pollution bioindicators. Pollution, 4(1), 111–118.
- 4. Ayotamuno J.M., Gobo A.E. 2004. Municipal solid waste management in Port Harcourt, Nigeria. Management of environmental quality: an international journal.
- 5. Bakis R., Tuncan A. 2011. An investigation of heavy metal and migration through groundwater from the landfill area of Eskisehir in Turkey. Environmental Monitoring and Assessment, 176, 87–98.
- 6. Cristaldi A., Oliveri G., Hea E., Zuccarello P. 2017. Environmental Technology & Innovation Phytoremediation of contaminated soils by heavy metals and PAHs. A brief review. Environmental Technology & Innovation, 8, 309–326. http://dx.doi.org/10.1016/j.eti.2017.08.002
- 7. Gupta D., Singh L.K., Gupta A.D. 2012. Phytoremediation : An Efficient Approach for Bioremediation of Organic and Metallic Ions Pollutants. Bioremediation and Sustainability: Research and Applications (eds R. Mohee and A. Mudhoo). Hoboken, NJ: John Wiley & Sons, Inc: 213–240.
- 8. Imam A., Mohammed B., Wilson D.C., Cheeseman C.R. 2008. Solid waste management in Abuja, Nigeria. Waste management, 28(2), 468–472.
- 9. Kamusoko R., Jingura R.M., Chinhoyi. 2017. Utility of Jatropha for Phytoremediation of Heavy Metals and Emerging Contaminants of Water Resources: A Review. CLEAN–Soil, Air, Water, 45(11), 1–17.
- 10. Kanmani S., Gandhimathi R. 2013. Assessment of heavy metal contamination in soil due to leachate migration from an open dumping site. Applied Water Science, 3(1), 193–205.
- 11. Kharlamova M.D., Mada S.Y., Grachev V.A. 2016. Landfills: problems, solutions and deсision-making of waste disposal in Harare (Zimbabwe). Biosciences Biotechnology Research Asia, 13(1), 307.
- 12. Kra U. 2005. Phytoremediation : novel approaches to cleaning up polluted soils Ute Kra. Current Opinion in Biotechnology, (16), 133–141.
- 13. Lambert M., Leven B.A., Green R.M. 2000. New methods of cleaning up heavy metal in soils and water. Environmental science and technology briefs for citizens. Kansas State University, Manhattan, KS.
- 14. Lebersorger S., Beigl P. 2011. Municipal solid waste generation in municipalities: Quantifying impacts of household structure, commercial waste and domestic fuel. Waste management, 31(9–10), 1907–1915.
- 15. Luaylik N.F. 2017. Evaluasi Dampak TPA Metode Open Dumping. ASPIRASI: Jurnal Ilmiah Administrasi Negara, 2(1), 1–11.
- 16. Mahyudin R.P. 2017. Kajian Permasalahan Pengolahan Sampah dan Dampak Lingkungan di TPA (Tempat Pemerosesan Akhir). Jukung Jurnal Teknik Lingkungan, 3(1), 66–74.
- 17. Melikoglu M., Lin C.S.K., Webb C. 2013. Analysing global food waste problem: pinpointing the facts and estimating the energy content. Central European Journal of Engineering, 3(2), 157–164.
- 18. Mishbahul M., Ms A., Kurniati E., Suharto B. 2013. Penurunan Kandungan Logam Pb dan Cr Leachate Melalui Fitoremediasi Bambu Air ( Equisetum Hyemale ) dan Zeolit. Jurnal Keteknikan Pertanian Tropis dan Biosistem, 1(2, 43–59.
- 19. Misra V., Pandey S.D. 2005. Hazardous waste, impact on health and environment for development of better waste management strategies in future in India. Environment international, 31(3), 417–431.
- 20. Navarro A., Carbonell M. 2008. Assessment of groundwater contamination caused by uncontrolled dumping in old gravel quarries`s aquifers ( Barcelona, Spain ) in the Beso. Environ Geochem Health, 30, 273–289.
- 21. Nguyen T.T.P., Zhu D., Le N.P. 2015. Factors influencing waste separation intention of residential households in a developing country: Evidence from Hanoi, Vietnam. Habitat International, 48, 169–176.
- 22. Njeru J. 2006. The urban political ecology of plastic bag waste problem in Nairobi, Kenya. Geoforum, 37(6), 1046–1058.
- 23. Ogundiran O.O., Afolabi T.A. 2008. Assessment of the physicochemical parameters and heavy metals toxicity of leachates from municipal solid waste open dumpsite. International Journal of Environmental Science & Technology, 5(2), 243–250.
- 24. Ojeda-Benı́tez S., Beraud-Lozano J.L. 2003. The municipal solid waste cycle in Mexico: final disposal. Resources, conservation and recycling, 39(3), 239–250.
- 25. Padmavathiamma P.K., Li L.Y. 2007. Phytoremediation Technology : Hyper-accumulation Metals in Plants. Water Air Soil Pollution, 184, 105–126.
- 26. Pandia S., Purba E., Hasan W. 2017. Kandungan Logam Berat pada Air Lindi Tempat Pembuangan Akhir ( TPA ) Sampah Kota Banda Aceh., 3(1), 19–22.
- 27. Prasad M.N.V. 2003. Phytoremediation of MetalPolluted Ecosystems : Hype for Commercialization*. Russian Journal of Plant Physiology, 50(5), 686–700.
- 28. Reichenauer T.G., Germida J.J. 2008. Phytoremediation of Organic Contaminants in Soil and Groundwater. ChemSusChem, 1(8–9), 708–717.
- 29. Sari R.N. 2017. Karakteristik Air Lindi (Leachate) di Tempat Pembuangan Akhir Sampah Air Dingin Kota Padang., 6(1), 93–99.
- 30. Trapp S., Christiansen H. 2003. Phytoremediation of cyanide-polluted soils. Phytoremediation: transformation and control of contaminants, 829–862.
- 31. Ukhopadhyay S., Maiti S.K. 2010. Phytoremediation Of Metal Mine Waste. Applied Ecology and Environmental Research, 8(3), 207–222.
- 32. Weyens N., Lelie D. Van Der, Taghavi S. 2009. Phytoremediation : plant – endophyte partnerships take the challenge. Current Opinion in Biotechnology, 20, 248–254.
- 33. Xie H., Chen Y., Thomas H.R., Sedighi M., Masum S.A., Ran Q. 2016. Contaminant transport in the sub-surface soil of an uncontrolled landfill site in China : site investigation and two-dimensional numerical analysis. Environ Sci Pollut Res, 23, 2566–2575.
- 34. Zhao F., Mcgrath S.P. 2009. Biofortification and phytoremediation. Current Opinion in Plant Biology, 12, 373–380.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fe6e9f45-789d-41c6-893a-5cea0cc7478f