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Potential of Neptunia oleracea L. as a Phytoremediation Agent for Petroleum Liquid Waste

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This present study to determine the potential of Neptunia oleracea as a phytoremediation agent for petroleum liquid waste in terms of various parameters such as physical temperature, and chemical parameters, namely pH, sulfide, and ammonia. Crude oil liquid waste is a hazardous waste if discharged directly into the environment, especially water. In this research, a method of biological treatment of petroleum liquid waste was used by utilizing aquatic plants, namely Neptunia oleracea. Phytoremediation is a way to treat waste that still contains contaminants thus levels can be minimized and even accumulated by various types of plants. This phytoremediation technique uses a simple bioreactor with various concentrations of petroleum liquid waste, namely control (0% waste), 10% waste, 20% waste, and 30% waste. The results of this study can be seen that the Neptunia oleracea plant is able to survive in petroleum liquid waste with a treatment time of approximately 3 weeks. In testing the levels of ammonia and sulfide after treatment showed fluctuating results from week to week. This is a response from Neptunia oleracea which uses these compounds in its metabolic processes. The ability of Neptunia oleracea to reduce sulfide and ammonia levels indicates that this plant can be used as a phytoremediation agent for petroleum liquid waste.
Słowa kluczowe
Rocznik
Strony
88--94
Opis fizyczny
Bibliogr. 25 poz., rys.
Twórcy
  • Biological Science, Faculty of Mathematics and Natural Science, Sriwijaya University, Jl. Masjid Al Gazali, Bukit Lama, Kec. Ilir Bar. I, Kota Palembang, Sumatera Selatan 30128, Indonesia
  • Electrical Engineering, Faculty of Engineering, Sriwijaya University, Jl. Masjid Al Gazali, Bukit Lama, Kec. Ilir Bar. I, Kota Palembang, Sumatera Selatan 30128, Indonesia
  • Department of Environmental Management, Sriwijaya University,Department of Environmental Management, Sriwijaya University, Palembang, Indonesia
Bibliografia
  • 1. Abdul Wahab, A.S., Syed Ismail, S.N., Praveena, S.M., Awang, S. 2014. Heavy metals uptake of water mimosa (Neptunia oleracea) and its safety for human consumption. Iranian Journal of Public Health, 43(3), 103–111.
  • 2. AiniSyuhaida, A.W., SharifahNorkhadijah, S.I., Emilia, Z.A., SarvaMangala, P. 2014. Neptuniaoleracea (water mimosa) as phytoremediation plant and the risk to human health: A review. Advances in Environmental Biology, 8(15), 187–194.
  • 3. Atabaki, N., Shaharuddin, N.A., Ahmad, S.A., Nulit, R., Abiri, R. 2020. Assessment of water mimosa (Neptunia oleracea Lour.) morphological, physiological, and removal efficiency for phytoremediation of arsenic-polluted water. Plants, 9(11), 1–24.
  • 4. Bean, A.R. 2022. A revision of Neptunia Lour. (Leguminosae: subfamily Caesalpinioideae , Mimosoid clade) in Australia and Malesia A revision of Neptunia Lour. (Leguminosae: subfamily Caesalpinioideae, Mimosoid clade) in Australia and Malesia. November.
  • 5. Bhunia, D., Mondal, A.K. 2012. Systematic analysis (morphology, anatomy and palynology) of an aquatic medicinal plant water mimosa (Neptunia oleracea LOUR.) in Eastern India. International Journal Life Sciences Biotechnology and Pharma Research, 1(2), 290–319.
  • 6. Fadhila Prakasita, I.G., Wulansarie, R. 2018. Review of Analysis of Petroleum Waste Degradation Technology to Reduce Seawater Pollution in Indonesia. Reka Buana : Scientific Journal of Civil Engineering and Chemical Engineering, 3(2), 80. (in Indonesia)
  • 7. Hardestyariki, D., Fitria, S. 2022. Effectiveness and Adaptability of Water Hyacinth (Eichornia Crassipes) Mart. Solm in its Role in Reducing COD and BOD Levels in Petroleum Liquid Waste. Journal of Ecological Engineering, 23(5), 26–29.
  • 8. Hargreaves J.A.T C.S. 2004. Managing ammonia in fish pond. SRAC Publication - Southern Regional Aquaculture Center, 4608, 8.
  • 9. Hasiany, S., Noor, E.,Yani, M. 2015. Application of Clean Production for Handling produced water in the Oil and Gas Industry. Journal of Natural Resources and Environmental Management, 5(1), 25–32. (in Indonesia)
  • 10. Irawan, T., Amin, B., Anita, S. 2021. Phytoremediation of Petroleum Contaminated Soils Using Bahia Grass Plants (Paspalum notatum). Journal of Environmental Sciences, 15(1), 1. (in Indonesia)
  • 11. Lestari, Y.P., Aminatun, T. 2018. Effectiveness of Plant Biomass Variations Hydrilla Verticillata in Phytoremediation of Batik Waste. Journal of Biology Study Program, 4, 233–241. (in Indonesia)
  • 12. Linggawati, A., Maryani, Nugroho, A.P., Rachmawati, D. 2022. Anatomical and Histochemical Responses of Vetiver Grass (Chrysopogon zizanioides L. Roberty) to Phytoremediation Ability of Liquid Batik Waste. Environment and Natural Resources Journal, 20(4), 359–368.
  • 13. Mendez, M.O., Maier, R.M. 2008. Phytostabilization of mine tailings in arid and semiarid environments - An emerging remediation technology. Environmental Health Perspectives, 116(3), 278–283.
  • 14. Muro-González, D.A., Mussali-Galante, P., Valencia-Cuevas, L., Flores-Trujillo, K., Tovar-Sánchez, E. 2020. Morphological, physiological, and genotoxic effects of heavy metal bioaccumulation in Prosopis laevigata reveal its potential for phytoremediation. Environmental Science and Pollution Research, 27(32), 40187–40204.
  • 15. Murti, R.S., Purwanti, C.M.H. 2014. Optimization of the Reaction Time of Blue Indophenol Complex Formation is Stable on the N-Ammonia Test of Tanning Industrial Wastewater by Fenat Method. Leather, Rubber, and Plastic Magazines, 30(1), 29. (in Indonesia)
  • 16. Nurhayati, C. 2010. Liquid Waste Treatment of Oil and Gas Exploration Activities with Comprehensive Solution Methods (Bioremediation, Biotreatment and Bio Filtration).Journal of Industrial Research Dynamics, 21,19–27.(in Indonesia)
  • 17. Odoh, C.K., Zabbey, N., Sam, K., Eze, C.N. 2019. Status, progress and challenges of phytoremediation - An African scenario. Journal of Environmental Management, 237, 365–378.
  • 18. Rahman, M., Khatun, S., Ali, S. 2018. Morphophysiological diversity of root nodule rhizobia from mimosa (Mimosa pudica L.) and water mimosa (Neptunia oleracea L.). Researchgate.Net, 5(1).
  • 19. Retnaningdyah, C., Arisoesilaningsih, E. 2018. Effectiveness of Phytoremediation Process of Irrigation Water Polluted with Organic Matter through Batch Culture System using Local Hydromacrophytes. Indonesian Journal of Biology, 14(1), 33–41. (in Indonesia)
  • 20. SNI. 2005. Exhaust Emissions - Immovable Sources - Part 6: How to test Ammonia Levels (NH3) using Indophenol Method using a Spectrophotometer. (in Indonesia)
  • 21. SNI. 2009. Water and Wastewater - Part 70: How to test Sulfide with Methylene Blue SPectrophotometry. (in Indonesia)
  • 22. Sukono, G.A.B., Hikmawan, F.R., Evitasari, E., Satriawan, D. 2020. Phytoremediation Mechanism: A Review. Journal of Environmental Control, 2(2), 40–47. (in Indonesia)
  • 23. Suppadit, T., Phoonchinda, W., Thummaprasit, W. 2008. Efficacy of water mimosa (Neptunia oleracea Lour.) in the treatment of wastewater from distillery slops. Philippine Agricultural Scientist, 91(1), 61–68.
  • 24. Utami, L.I., Wihandhita, W., Marsela, S.,Wahyusi, K.N. 2017. Petroleum Liquid Waste Treatment is Biologically Aerobic Batch Process. Journal of Chemical Engineering, 11(2), 37–41. (in Indonesia)
  • 25. Yudistira, D.R. 2022. Analysis of the Quality of Refinery Wastewater before is is Discharged into Water Bodies. Swara Patra Scientific Magazine, 12(1), 46–55. (in Indonesia)
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f589269b-3d20-4f1a-95e0-323d58c6b881
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