Major Ions for Tracing Leachate Migration within Shallow Groundwater in the Vicinity of Municipal Landfill in Bantar Gebang - Bekasi

https://doi.org/10.22146/ijc.25702

Evarista Ristin Pujiindiyati(1*), Satrio Satrio(2), Rasi Prasetio(3)

(1) Center for Isotopes and Radiation Application – National Nuclear Energy Agency, Jl. Lebak Bulus Raya No.49, Jakarta 12440, Indonesia
(2) Center for Isotopes and Radiation Application – National Nuclear Energy Agency, Jl. Lebak Bulus Raya No.49, Jakarta 12440, Indonesia
(3) Center for Isotopes and Radiation Application – National Nuclear Energy Agency, Jl. Lebak Bulus Raya No.49, Jakarta 12440, Indonesia
(*) Corresponding Author

Abstract


Bantar Gebang landfill located in Bekasi regency is a biggest sanitary landfill in Indonesia which comes up some refusals from local people because of its bad impact on their environment. Major ion contents in leachate and fresh groundwater were investigated during the rainy and dry season to determine contamination by leachate released from Bantar Gebang and Sumur Batu landfill. Leachate contained high concentrations of all major ions that was mainly characterized as a NaKHCO3 water type. On the other hand, most fresh groundwater samples were predominated by CaMgHCO3 and CaMgCl water type. Concentrations of K+, Ca2+, Mg2+, Na+, SO42-, Cl-, HCO3- and NO3- in leachate were to be in a maximum factor of 2110; 7; 6; 143; 20; 112; 349 and 20, respectively than its contents in groundwater. Leachate from Bantar Gebang was detected have a higher concentration than those contained in Sumur Batu that was probably due to its mature leachate. An estimated mixture of leachate to fresh water in monitoring wells (5 m and 15 m depth) was in the range of 20 to 34%, related to Na+ and Cl- signatures, while the shallow groundwater located in residents in the vicinity of these landfills exhibited maximum leachate about 2%.

Keywords


major ions; shallow groundwater; leachate; Bantar Gebang landfill

Full Text:

Full Text PDF


References

[1] Hoornweg, D., Bhada-Tata, P., and Kennedy, C., 2013, Environment: Waste production must peak this century, Nature, 502 (7473), 615–617.

[2] Kumar, S., Smith, S.R., Fowler, G., Velis, C., Kumar, S.J., Arya, S., Rena, Kumar, R., and Cheeseman, C., 2017, Challenges and opportunities associated with waste management in India, R. Soc. Open Sci., 4 (3), 160764.

[3] Muhammad, A.M., and Zhonghua, T., 2014, Municipal solid waste and its relation with groundwater contamination in Lahore, Pakistan, Res. J. Appl. Sci. Eng. Technol., 7 (8), 1551–1560.

[4] Barbieri, M., Sappa, G., Vitale, S., Parisse, B., and Battistel, M., 2014, Soil control of trace metals concentrations in landfills: A case study of the largest landfill in Europe, Malagrotta, Rome, J. Geochem. Explor., 143, 146–154.

[5] Kjeldsen, P., Barlaz, M.A., Rooker A.P., Baun, A., Ledin, A., and Christensen, T.H., 2010, Present and long-term composition of MSW landfill leachate: A review, Crit. Rev. Env. Sci. Technol., 32 (4), 297–336.

[6] Renou, S., Givaudan, J.G., Poulain, S., Dirassouyan, F., and Moulin, P., 2008, Landfill leachate treatment: Review and opportunity, J. Hazard. Mater., 150 (3), 468–493.

[7] Wu, C., Shimaoka, T., Nakayama, H., Komiya, T., and Chai, X., 2016, Stimulation of waste decomposition in an old landfill by air injection, Bioresour. Technol., 222, 66–74.

[8] Agency for Regional Development, 2008, Plans of waste management, http://bappedajakarta.go.id/images/pridiksisampahbig.gif, accessed on 30 December 2008.

[9] Bekasi Local Government, 2014, Three steps to overcome the waste emergency 13-5-2014, http://m.bekasikota.go.id/read/13259, accessed on 09 October 2014.

[10] Hayuningtyas, M., 2014, Regional statistics of Bantar Gebang District, Statistical Bureau of Bekasi City, Indonesia.

[11] Nigro, A., Sappa, G., and Barbieri, M., 2016, Application of boron and tritium isotopes for tracing landfill contamination in groundwater, J. Geochem. Explor., 172, 101–108.

[12] Matahelumual, B.C., 2007, Penentuan status mutu air dengan sistem STORET di Kecamatan Bantar Gebang, IJOG, 2 (2), 113–118.

[13] Idianto, P.N., 2010, Deteksi Penyebaran Limbah Sampah TPA Bantar Gebang Wilayah Taman Rahayu Setu Bekasi dengan Menggunakan Metoda Self Potensial (SP), Undergraduate Thesis, Department of Physics, Universitas Indonesia.

[14] Syamsu, R., Ramadoni, N.K., and Prabowo, N., 2011, Estimasi aliran lindi TPA Bantar Gebang Bekasi menggunakan metoda SP, Jurnal Fisika, 1 (2), 54–58.

[15] Castañeda, S.S., Sucgang, R.J., Almoneda, R.V., Mendoza, N.D.S., and David, C.P.C., 2012, Environmental isotopes and major ions for tracing leachate contamination from a municipal landfill in Metro Manila, Philippines, J. Environ. Radioact., 110, 30–37.

[16] Satrio, Syafalni, and Sidauruk, P., 2014, Studi karakteristik air tanah dangkal sekitar TPA Bantar Gebang, Bekasi, dengan metode sumur tunggal dan ganda, Jurnal Ilmiah Aplikasi Isotop dan Radiasi, 10 (1), 1–10.

[17] Naryanto, H.S., 2008, Potensi air tanah di daerah Cikarang dan sekitarnya, kabupaten Bekasi berdasarkan analisis pengukuran geolistrik, JAI, 4 (1), 38–49.

[18] Wassenaar, L.I., Terzer-Wassmuth, S., Douence, C., Araguas- Araguas, L., Aggarwal, P.K., and Coplen, T.B., 2018, Seeking excellence: An evaluation of 235 international laboratories conducting water isotope analyses by isotope-ratio and laser-absorption spectrometry, Rapid Commun. Mass Spectrom., 32 (5), 393–406.

[19] Pertamina Geothermal Energy, 2014, Geothermal Water Proficiency Test Program, Pertamina-Indonesia, unpublished.

[20] Baedecker, M.J., and Apgar, M.A., 1984, Hydrogeochemical Studies at Landfill in Delaware: Studies in Geophysics-Groundwater Contamination, National Academy Press, Washington D.C.

[21] Sadashivaiah, C., Ramakrishnaiah, C.R., and Ranganna, G., 2008, Hydrochemical analysis and evaluation of groundwater quality in Tumkur Taluk, Karnataka State, India, Int. J. Environ. Res. Public Health, 5 (3), 158–164.

[22] Kulikowska, D., and Klimiuk, E., 2008, The effect of landfill age on municipal leachate composition, Bioresour. Technol., 99 (13), 5981–5985.

[23] Al Sabahi, E., Rahim, S.A., Zuhari, W.Y.W., Al Nozaily, F., and Alshaebi, F., 2009, The characteristics of leachate and groundwater pollution at municipal solid waste landfill of Ibb City, Yemen, Am. J. Environ. Sci., 5 (3), 256–266.

[24] Lee, A.H., Nikraz, H., and Hung, Y.T., 2010, Influence of waste age on landfill leachate quality, Int. J. Environ. Sci. Dev., 1 (4), 347–350.

[25] Sizirici, B., and Tansel, B., 2010, Projection of landfill stabilization period by time series analysis of leachate quality and transformation trends of VOCs, Waste Manage., 30 (1), 82–91.

[26] Venkatesan, G., and Swaminathan, G., 2009, Review of chloride and sulphate attenuation in ground water nearby solid-waste landfill sites, J. Environ. Eng. Landscape Manage., 17 (1), 1–7.

[27] Li, Z., Xue, Q., Liu, L., and Li, J., 2015, Precipitates in landfill leachate mediated by dissolved organic matters, J. Hazard. Mater., 287, 278–286.

[28] Fatima, S., Rafig, S.K., and Hai, A., 2012, Effect of depth and age of leachate characteristics of Achan landfill, Srinagar, Jammu and Kashmir, India, IOSR J. Environ. Sci. Toxicol. Food Technol., 2 (2), 4–11.

[29] Pujiindiyati, E.R., and Sidauruk, P., 2015, Study of leachate contamination in Bantar Gebang landfill to its shallow groundwater using natural isotope tracers of 18O, 2H and 3H, Atom Indonesia, 41 (1), 31–39.



DOI: https://doi.org/10.22146/ijc.25702

Article Metrics

Abstract views : 2978 | views : 3097


Copyright (c) 2018 Indonesian Journal of Chemistry

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

 


Indonesian Journal of Chemistry (ISSN 1411-9420 /e-ISSN 2460-1578) - Chemistry Department, Universitas Gadjah Mada, Indonesia.

Web
Analytics View The Statistics of Indones. J. Chem.