Heavy Metals Distribution in the Artisanal Gold Mining Area in Wonogiri

https://doi.org/10.22146/ijg.15321

Mohammad - Nurcholis(1*), Dwi Fitri Yudiantoro(2), Darban - Haryanto(3), Abdurrachman - Mirzam(4)

(1) Universitas Pembangunan Nasional "Veteran" Yogyakarta
(2) Universitas Pembangunan Nasional "Veteran" Yogyakarta
(3) Universitas Pembangunan Nasional "Veteran" Yogyakarta
(4) Bandung Institute of Technology
(*) Corresponding Author

Abstract


Artisanal and small gold mining activity in Wonogiri Regency has long been done with problems on environmental quality. This study was aimed to analyze the levels and spatial distribution of heavy metals in the mining area. Survey of  mining and amalgamation sites, sampling the soil and tailings had been conducted. There were 66 samples of soil and tailing were collected, analysis of heavy Fe, Mn, Pb, Hg, As and Co, using X-ray fluorescence (XRF). Normal distribution test of data was conducted using the Kolmogorov-Smirnov and Shapiro Wilk.  The spatial distribution of heavy metals was described using Krigging method. Contents of most heavy metals in the area studied were high, except for Co. According to the distribution pattern of heavy metals indicated that the contamination caused by the mining.

Keywords


Artisanal mining; gold; heavy metals

Full Text:

PDF


References

Abouzeid, A.Z.M, and A.A.M. Khalid. 2011. Mineral Industry in Egypt-Part I: Metallic Mineral Commodities. Natural Resources, 2011, 2, 35-53

Adriano, D. C. (2001). Trace elements in terrestrial environments: biogeochemistry, bioavailability, and risks of metals (No. 04; QH545. T7, A3 2001.).

Arbestain, M. C., Rodriguez-Lado, L., Bao, M., & Macías, F. (2008). Assessment of mercury-polluted soils adjacent to an old mercury-fulminate production plant. Applied and Environmental Soil Science, 2009.

Arias, M., Barral, M. T., Da Silva-Carvalhal, J., Mejuto, J. C., & Rubinos, D. (2004). Interaction of Hg (II) with kaolin-humic acid complexes. Clay Minerals,39(1), 35-45.

Arifin, Y.I., M. Sakakibara, and K. Sera. 2015. Impacts of Artisanal and Small-Scale Gold Mining (ASGM) on Environment and Human Health of Gorontalo Utara Regency, Gorontalo Province, Indonesia. Geosciences 2015, 5, 160-176

Bradl, H. B. (2004). Adsorption of heavy metal ions on soils and soils constituents. Journal of Colloid and Interface Science, 277(1), 1-18.

DRET. 2009. Hazardous materials management. Leading Practice Sustainable Development Program for the Mining Industry. Department of Resource, Energy and Tourism. http://www.industry.gov.au/resource/Documents/LPSDP/HazardousMaterialsManagmentHandbook_web.pdf

Fishbein, L. 1981. Sources, Transport and Alterations of Metal Compounds: An Overview. I. Arsenic, Beryllium, Cadmium, Chromium, and Nickel. Environmental Health Perspectives. Vol. 40, pp. 43-64

Fishbein, L. 1981. Sources, Transport and Alterations of Metal Compounds: An Overview. I. Arsenic, Beryllium, Cadmium, Chromium, and Nickel. Environmental Health Perspectives. Vol. 40, pp. 43-64.

Hitch. M, S. M. Ballantyne and S. R. Hindle. 2010. Revaluing mine waste rock for carbon capture and storage. International Journal of Mining, Reclamation and Environment Vol. 24, No. 1, March 2010, 64–79.

Hooda, P. S. (Ed.). (2010). Trace elements in soils (pp. 1-596).

Chichester: Wiley. Hu, Y., Liu, X., Bai, J., Shih, K., Zeng, E. Y., & Cheng, H. (2013). Assessing heavy metal pollution in the surface soils of a region that had undergone three decades of intense industrialization and urbanization. Environmental Science and Pollution Research, 20(9), 6150-6159.

Iorfa, A. C., Ntonzi, N., Ukwang, E. E., Abara, I. K., & Neji, P. (2011). A study of the distribution pattern of heavy metals in surface soils around Arufu Pb-Zn mine, Northeastern Nigeria, using factor analysis. Res J Chem Sci, 1(2), 70-80.

Li, X., Lee, S. L., Wong, S. C., Shi, W., & Thornton, I. (2004). The study of metal contamination in urban soils of Hong Kong using a GIS-based approach. Environmental Pollution, 129(1), 113-124.

Lin, Y. P., Teng, T. P., & Chang, T. K. (2002). Multivariate analysis of soil heavy metal pollution and landscape pattern in Changhua county in Taiwan.Landscape and Urban planning, 62(1), 19-35.

Liu, X., Wu, J., & Xu, J. (2006). Characterizing the risk assessment of heavy metals and sampling uncertainty analysis in paddy field by geostatistics and GIS. Environmental Pollution, 141(2), 257-264.

Maiti, A., Basu, J. K., & De, S. (2010). Removal of arsenic from synthetic and natural groundwater using acid‐activated laterite. Environmental Progress & Sustainable Energy, 29(4), 457-470.

Malm, O. (1998). Gold mining as a source of mercury exposure in the Brazilian Amazon. Environmental Research, 77(2), 73-78.

Mc Kenzie, R. M. (1989). Manganese oxides and hydroxides. Minerals in soil environments, (mineralsinsoile), 439-465.

McMahon, G., E. R. Subdibjo, J. Aden, A. Bouzaher, G. Dore, R. Kunanayagam. 2000. Mining and the Environment in Indonesia: Long-term Trends and Repercussions of the Asian Economic Crisis. Eases Discussion Paper Series. Giovanna Dore EASES, Room MC8-214.

Nies, D.H. 1999. Microbial resistant heavy metals. Appl Microbiol Biotechnol. 51:730-750

NRCS. 2000. Heavy Metal Soil Contamination. SOIL QUALITY – URBAN TECHNICAL NOTE No.3. http://www.nrcs.usda.gov/Internet/FSE_DOCUMENTS/nrcs142p2_053279.pdf

Nurcholis, M., Kinjo, T., & Tokashiki, Y. (1997). Mineralogical and Chemical Properties of Manganese Nodules in Java Soils Developed from Different Parent Materials. Clay Science, 10(3), 241-257.

Onken, B. M., & Adriano, D. C. (1997). Arsenic availability in soil with time under saturated and subsaturated conditions. Soil Science Society of America Journal, 61(3), 746-752.

Salim, I. A., Miller, C. J., & Howard, J. L. (1996). Sorption isotherm-sequential extraction analysis of heavy metal retention in landfill liners. Soil Science Society of America Journal, 60(1), 107-114.

Sarkar, D., Essington, M. E., & Misra, K. C. (1999). Adsorption of mercury (II) by variable charge surfaces of quartz and gibbsite. Soil Science Society of America Journal, 63(6), 1626-1636.

Smith, K 2007, ‘Strategies to predict metal mobility in surfi cial mining environments’, In: Understanding and responding to hazardous substances at mine sites in the western United States, ed. JV DeGraff, The Geological Society of America, Reviews in Engineering Geology, vol. XVII.

Straskraba, V. & R.E. Moran. 2006. Environmental occurence and impacts of arsenic at gold mining sites in the western United States. Miner Water and environment. International Mine Water Association. www.Imwa Info p: 181-192.

Suciu, I., Cosma, C., Todică, M., Bolboacă, S. D., & Jäntschi, L. (2008). Analysis of soil heavy metal pollution and pattern in Central Transylvania.International journal of molecular sciences, 9(4), 434-453.

White, J.G., R.M. Welch, W.A. Norvell. 1997. Soil zinc map of the USA using geostatistics and geographic information system. Soil Sci. Soc. Am J. 61; 185-194

Xie, Y., Chen, T. B., Lei, M., Yang, J., Guo, Q. J., Song, B., & Zhou, X. Y. (2011). Spatial distribution of soil heavy metal pollution estimated by different interpolation methods: accuracy and uncertainty analysis. Chemosphere, 82(3), 468-476.



DOI: https://doi.org/10.22146/ijg.15321

Article Metrics

Abstract views : 3669 | views : 3730

Refbacks

  • There are currently no refbacks.




Copyright (c) 2017 Indonesian Journal of Geography

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

Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 225/E/KPT/2022, Vol 54 No 1 the Year 2022 - Vol 58 No 2 the Year 2026 (accreditation certificate download)

ISSN 2354-9114 (online), ISSN 0024-9521 (print)

Web
Analytics IJG STATISTIC