Mercury Contamination from Artisanal Small-scale Gold Mining Activities in Simpenan District, Sukabumi Regency, West Java, Indonesia

Cut-Dian Nuryanty; Etty Riani; Zaenal Abidin; Surjono-Hadi Sutjahjo; Agung Riyadi

doi:10.3233/AJW240049

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RESEARCH ARTICLE

Mercury Contamination from Artisanal Small-scale Gold Mining Activities in Simpenan District, Sukabumi Regency, West Java, Indonesia

Cut-Dian Nuryanty^5*, Etty Riani¹, Zaenal Abidin², Surjono-Hadi Sutjahjo³, Agung Riyadi⁴

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¹ Department of Aquatic Resources Management, Faculty of Fishery and Marine Science, IPB University, Bogor, Indonesia

² Department of Chemistry, Faculty of Mathematics and Natural Sciences, IPB University, Bogor, Indonesia

³ Department of Agronomy and Horticulture, Faculty of Agriculture, IPB University, Bogor, Indonesia

⁴ National Research and Innovation Agency, Jakarta, Indonesia

⁵ Graduate School of Natural Resources and Environmental Management Science, IPB University, Bogor, Indonesia

AJWEP 2024, 21(4), 83–89; https://doi.org/10.3233/AJW240049

Submitted: 13 September 2023 | Revised: 27 March 2024 | Accepted: 27 March 2024 | Published: 25 July 2024

© 2024 by the Author(s). This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution -Noncommercial 4.0 International License (CC-by the license) ( https://creativecommons.org/licenses/by-nc/4.0/ )

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Abstract

Mercury is still used in the amalgamation process in small-scale gold processing. This study aims to evaluate the mercury contamination of various environmental media in the artisanal small-scale gold mining (ASGM) area in the Simpenan District, Sukabumi Regency. The ecological media examined in this study included groundwater, river water, soil, sediment, biota, and plants. The threshold number was determined using APHA 3125 and Indonesian National Standard (SNI) 7387:2009. Meanwhile, the mercury concentration in the ambient air was measured directly using a mercury analyser. Mercury concentrations in the water, soil, sediment, biota, and plant matrices were calculated using a calibration curve. The study found that the levels of mercury in groundwater, river water, and sediment were all below the applicable quality standards of <0.0001, <0.0001 and 0.001 mg/L, respectively. However, the levels of mercury in soil and plants were 27.28 and 0.52 mg/kg, respectively. Additionally, the levels of mercury in four types of fish found in a river adjacent to the ASGM location, namely beunteur (0.33 mg/kg), snakehead (0.05 mg/kg), catfish (0.26 mg/kg) and eel (0.20 mg/kg), exceeded the specified quality standards. In conclusion, mercury contamination is present in the soil, plants, and aquatic biota (fish) in the ASGM area in the Simpenan District, Sukabumi Regency.

Keywords

Artisanal and small-scale gold mining mercury

bioaccumulation

bioconcentration factor

soil contamination

References

Addai-Arhin, S., Novirsa, R., Jeong, H., Phan, Q.D., Hirota, N., Ishibashi, Y., Shiratsuchi, H. and K. Arizono (2022). Mercury waste from artisanal and small-scale gold mining facilities: A risk to farm ecosystems—A case study of Obuasi, Ghana. Environmental Science and Pollution Research, 30: 4293-4308.

Agus, F. (2005). Petunjukteknisanalisiskimiatanah, tanaman, air, dan pupuk [Technical instructions for chemical analysis of soil, plants, water and fertilizers]. Badan Penelitian dan PengembanganPertanian DepartemenPertanian, Bogor.

Amoakwah, E., Ahsan, S., Rahman, M.A., Asamoah, E., Essumang, D.K., Ali, M. and K.R. Islam (2020). Assessment of heavy metal pollution of soil-watervegetative ecosystems associated with artisanal gold mining. Soil and Sediment Contamination: An International Journal, 29: 788-803.

Astika, H., Handayani, S., Damayanti, R., Surono, W., Maryono, M., Suciyanti and H.A. Octaviano (2021). Characterization of potential mercury contamination in the ASGM area of Mandailing Natal, North Sumatera. IOP Conferences Series: Earth and Environmental Science, 882: 012062.

Barenblitt, A., Payton, A., Lagomasino, D., Fatoyinbo, L.E., Asare, K., Aidoo, K., Pigott, H., Som, C.K., Smeets, L., Seidu, O. and D.R. Wood (2021). The large footprint of small-scale artisanal gold mining in Ghana. Science of The Total Environment, 781: 146644.

Basri, Sakakibara, M. and K. Sera (2020). Mercury in soil and forage plants from artisanal and small-scale gold mining in the bombana area, Indonesia. Toxics, 8: 1-10.

Calao-Ramos, C., Bravo, A.G., Paternina-Uribe, R., MarrugoNegrete, J. and S. Díez (2021). Occupational human exposure to mercury in artisanal small-scale gold mining communities of Colombia. Environment International, 146: 106216.

Dewi, K. and Y. Ismawati (2012). Inventory of mercury releases in Indonesia. Retrieved from H. Selin (2014). Global environmental law and treatymaking on hazardous substances: The Minamata convention and mercury abatement. Global Environmental Politics, 14: 1-19.

Esdaile, L.J. and J.M. Chalker (2018). The mercury problem in artisanal and small-scale gold mining. Chemistry - A European Journal, 24: 6905-6916.

Gerson, J.R., Szponar, N., Zambrano, A.A., Bergquist, B., Broadbent, E., Driscoll, C.T., Erkenswick, G., et al. (2022). Amazon forests capture high levels of atmospheric mercury pollution from artisanal gold mining. Nature Communications, 13(1): 559.

Hananingtyas, I., Nuryanty, C.D., Karlinasari, L., Alikodra, H.S., Jayanegara, A. and A. Sumantri. (2022). The effects of heavy metal exposure in agriculture soil on chlorophyll content of agriculture crops: A meta-analysis approach. IOP Conference Series Earth and Environmental Science, 951(1): 012044.

Johari, H.I., Rahmawati, D. and Hidayati (2020). Mercury contamination in groundwater from artisanal and small scale gold mining activities: A case study of Southern Lombok Coast, West Nusa Tenggara Province. IOP Conference Series: Earth and Environmental Science, 413(1): 012016.

Kocman, D., Horvat, M., Pirrone, N. and S. Cinnirella. (2013). Contribution of contaminated sites to the global mercury budget. Environmental Research, 125: 160-170.

Krisnayanti, B.D. and A.S. Probiyantono (2020). Buku 2: Penggunaanmerkuri dan dampaknyaterhadaplingkungan, sertasebaranlokasipertambanganemasskalakecil [Book 2: The use of mercury and its impact on the environment, and the distribution of small-scale gold mining locations]. GOLD-ISMIA, Jakarta.

Kuang, X., Kyaw, W.T., Soe, P.S., Thandar, A.M. and H.E. Khin (2022). A preliminary study on mercury contamination in artisanal and small-scale gold mining area in Mandalay Region, Myanmar by using plant samples. Pollution, 8: 225-238.

Nakazawa, K., Nagafuchi, O., Kawakami, T. Inoue, T., Elvince, R., Kanefuji, K., Nur, I., Napitupulu, M., BasirCyio, M., Kinoshitah, H. and K. Shinozuka (2021). Human health risk assessment of atmospheric mercury inhalation around three artisanal smallscale gold mining areas in Indonesia. Environmental Science: Atmospheres, 1: 423-433.

Ovadje, L., Calys-Tagoe, B.N.L., Clarke, E. and N. Basu (2021). Registration status, mercury exposure biomarkers, and neuropsychological assessment of artisanal and smallscale gold miners (ASGM) from the Western Region of Ghana. Environmental Research, 201: 111639.

Prescott, G.W., Baird, M., Geenen, S., Nkuba, B., Phelps, J. and E.L. Webb (2022). Formalizing artisanal and smallscale gold mining: A grand challenge of the Minamata convention. One Earth, 5: 242-251.

Riani, E., Cordova, M.R. and Z. Arifin (2018). Heavy metal pollution and its relation to the malformation of green mussels cultured in Muara Kamal waters, Jakarta Bay, Indonesia. Marine Pollution Bulletin, 133: 664-670.

Saragih, G.S., Tapriziah, E.R., Syofyan, Y., Masitoh, S., Pandiagan, Y.S.H. and A. Andriantoro (2021). Mercury contamination in selected edible plants and soil from artisanal and small-scale gold mining in Sukabumi Regency, Indonesia. Makara Journal of Science, 25: 222-228.

Selin, N.E. (2009). Global biogeochemical cycling of mercury: A review. Annual Review of Environment and Resources, 34: 43-63.

Soe, P.S., Kyaw, W.T., Arizono, K., Ishibashi, Y. and T. Agusa (2022). Mercury pollution from artisanal and small-scale gold mining in Myanmar and other Southeast Asian Countries. International Journal of Environmental Research and Public Health, 19(10): 6290.

Suhadi, S., Sueb, S., Muliyasnd, B.K. and A.M. Ashoffi (2021). Pollution of mercury and cyanide soils and plants in surrounding in the Artisanal and Small-Scale Gold Mining (ASGM) at Sekotong District, West Lombok, West Nusa Tenggara. Biological Environment and Pollution, 1(1): 30-37.

Tomiyasu, T., Kono. Y., Kodamatani, H., Hidayati, N. and J.S. Raharjoe (2013). The distribution of mercury around the small-scale gold mining area along the Cikaniki river, Bogor, Indonesia. Environmental Research, 125: 12-19.

Tomiyasu, T., Kodamatani, H., Hamada, Y.K., Matsuyama, A., Imura, R., Taniguchi, Y., Hidayati, N. and J.S. Rahajoe (2017). Distribution of total mercury and methylmercury around the small-scale gold mining area along the Cikaniki River, Bogor, Indonesia. Environmental Science and Pollution Research, 24: 2643-2652.

Zhang, L. and M.H. Wong (2007). Environmental mercury contamination in China: Sources and impacts. Environment International, 33: 108-121.

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