Philippine Journal of Science
151 (2): 671-682, April 2022
ISSN 0031 – 7683
Date Received: 26 Aug 2021

Health Risk Assessment of Trace Metals
in the Vicinity of an Abandoned Mercury Mine
in Puerto Princesa City, Philippines

Jessie O. Samaniego¹*, Cris Reven L. Gibaga¹, Alexandria M. Tanciongco¹,
Ma. Catriona E. Devanadera², Fevi Rose C. Paro², Jihan H. Adil³,
Mariel O. Montano¹, Rico Neil M. Quierrez¹, and Alaine Claudette S. Gutierrez⁴

¹Department of Science and Technology–Philippine Nuclear Research Institute
Commonwealth Ave. 1101 Quezon City, Philippines
²Department of Community and Environmental Resource Planning,
College of Human Ecology, University of the Philippines Los Baños,
Los Baños 4031 Laguna, Philippines
³Department of Environmental Engineering, College of Engineering,
Western Mindanao State University 7000 Zamboanga City, Philippines
⁴Department of Science and Technology–Philippine Atmospheric, Geophysical,
and Astronomical Services Administration, PAGASA Science Garden Complex,
BIR Road, Brgy. Central, Quezon City 1100 Philippines

*Corresponding author: josamaniego@pnri.dost.gov.ph

 

[Download]
Samaniego J et al. 2022. Health Risk Assessment of Trace Metals in the Vicinity of an Abandoned Mercury
Mine in Puerto Princesa City, Philippines. Philipp J Sci 151(2): 671–682. https://doi.org/10.56899/151.02.10

 

ABSTRACT

Abandoned mines pose high risks to human health and the environment due to the disturbed and exposed metal-laden soils and sediments. In this study, soils and sediments in an abandoned mercury (Hg) mine in Puerto Princesa City, Philippines were analyzed to assess the potential adverse health effects of the exposure to trace metals associated with the mine wastes. A total of 63 soil and sediment samples were collected in the area and analyzed for Hg concentration using a direct Hg analyzer and inductively coupled plasma–mass spectrometry (ICP-MS) for other trace metals. Analysis results showed that aside from Hg, there are anomalous concentrations of Ni (nickel), Cr (chromium), and Mn (manganese) in the area brought by the value of the mineralogy of the ores that were mined. The measured trace metal concentrations, together with the United States (US) Environmental Protection Agency’s (EPA) exposure parameters and the US Department of Energy’s (DOE) toxicity values were used to calculate the dose contacted from different exposure pathways. The result of the health risk assessment showed that Hg was considered as the main contributor of non-carcinogenic risk in the area with a hazard index of > 1 for both children and adults. Inhalation of Hg vapor from the soils and sediments is found to be a significant addition to the health risks in the area. Other trace metals such as Co (cobalt), Fe (iron), Ni (nickel), and Tl (thallium) were calculated with a hazard index greater than 1, which poses a health risk to children due to the ingestion pathway. All carcinogenic trace metals assessed were below the guidance value, indicating no significant carcinogenic health risks for both adults and children in the area. This work serves as an initial step of the country in the assessment of the risks to human health and the environment brought by Hg contaminated areas, as stated in the Minamata Convention on Mercury.