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http://dx.doi.org/10.5668/JEHS.2014.40.1.27

Defining Area of Damage of 2012 Hydrofluoric Acid Spill Accident in Gumi, Korea  

Koh, Dohyun (Institute for Environmental Safety and Health)
Kim, Jeongsoo (Institute for Environmental Safety and Health)
Choi, Kyungho (Department of Environmental Health, School of Public Health, Seoul National University)
Publication Information
Journal of Environmental Health Sciences / v.40, no.1, 2014 , pp. 27-37 More about this Journal
Abstract
Objectives: On September 27, 2012, leakage of anhydrous hydrofluoric acid occurred in a chemical plant in the Gumi National Industrial Complex. Following the accident, local factory workers and residents complained of abnormal health conditions. In addition, visual discolorations were widely observed in crops and trees in surrounding areas. The main objectives of the present study were to identify the area that was affected by the spill using data obtained from plants, soil, and water samples after the accident. Methods: Fluoride concentrations were analyzed in pine tree needles, soil, nearby streams, ponds and reservoirs collected from an area within a radius of three kilometers from the plant where the leak occurred. Fluoride concentrations in the air at the time of leakage were then estimated from fluoride concentrations that were measured in the pine tree needles. A Kriged map was developed to describe the spatial distribution of hydrofluoric acid at the time of the leakage and was compared with the area designated as a Special Disaster Zone by the government. Results: The Special Disaster Zone did not include all the affected area that was estimated by the Kriged map. Analytical results of the environmental samples also supported this discrepancy. Conclusion: Using plants, atmospheric concentrations of fluoride at the time of the leakage could be estimated. For the area that was identified as affected, further public health risk assessment and environmental risk assessment should be considered. Also, in the absence of air monitoring at the time of leakage, studies employing plants may be conducted in order to better understand the spatial extent and severity of the contamination.
Keywords
Environmental impact; Fluoride; Hydrofluoric acid; Hydrofluoric acid spill; Kriging;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Upfal M, Doyle C. Medical management of hydrofluoric acid exposure. J Occup Med. 1990; 32(8): 726-731.
2 WHO. Early Detection of Occupational Diseases. Geneva: World Health Organization Press; 1986. p.91-96.
3 Committee on biological effects of atmospheric pollutants, Fluorides. Washington, D.C: National Academy of Sciences Press; 1971. p.77-132.
4 Kong WC. Species composition and distribution of native Korean conifers. J Kor Geogr Soc. 2004; 39(4): 528-543.   과학기술학회마을
5 Jacobson JS, Heller LI. A simple, rapid potentiometric method for the estimation of fluoride in vegetation. Environ Lett. 1971; 1(1): 43-47.   DOI
6 Ministry of Environment. Standard Method of Soil Pollution Analysis. Ministry of Environment Press; 2008.
7 McCune D, Hitchcock AE. Fluoride in forage: factors determining its accumulations from the atmosphere and concentration in the plant, 2nd ed. Washington, DC: International Clean Air Congress Press; 1971. p.289-292.
8 Guderian R, van Haut H, Stratmann H. Experimentelle Untersuchungen uber Pflanzensch adigende Fluorwasserstoff-Konzentrationen. Landes Nordrhein-Westfalen: Westdeutscher Verlag Press; 1969. p.17.
9 Franzaring J, Hrenn H, Schumm C, Klumpp A, Fangmeier A. Environmental monitoring of fluoride emissions using precipitation, dust, plant and soil samples. Environ Poll. 2006; 144(1): 158-165.   DOI
10 Weinstein LH. Fluoride and plant life. J Occup Med. 1977; 19(1): 49-78   DOI
11 Chun MY. Estimation of atmospheric PCBs concentrations of several sites using pine needles as passive air sampler (PAS). J Environ Health Sci. 2012; 38(4): 360-368.
12 ATSDR. Toxicological Profile for Fluorides, Hydrogen Fluoride and Fluorines. Atlanta: Agency for Toxic Substances and Disease Registry Press; 2003. p.190.
13 Sloof W, Eerens HC, James JA, Rose J. Janssen JRM. Integrated Criteria Document Fluorides. The Netherlands: National Institute of Public Health and Environmental Protection Press; 1989.
14 WHO. Environment Health Criteria 227, Fluorides. Geneva: World Health Organization Press; 2002. p.2-176.
15 Real C, Aboal JR, Fernandez JA, Carballeira A. The use of native mosses to monitor fluorine levels and associated temporal variations - in the vicinity of an aluminum smelter. Atmos Environ. 2003; 37(22): 3091-3102.   DOI   ScienceOn
16 Dayal HH, Brodwick M, Morris R, Baronowski T, Trieff N, Harrison JA, et al. A community-based epidemiologic study of health sequelae of exposure to hydrofluoric acid. Ann Epidemiol. 1992; 2(3): 213-230.   DOI   ScienceOn
17 Vike E. Air-pollutant dispersal patterns and vegetation damage in the vicinity of three aluminum smelters in Norway. Sci Total Environ. 1999; 236(1): 75-90.   DOI   ScienceOn
18 Ministry of Environment. Standard Method of Water Pollution Analysis. Sejong: Ministry of Environment Press; 2008.
19 Vike EV. Uptake, deposition and wash off of fluoride and aluminum in plant foliage in the vicinity of an aluminum smelter in Norway. Water Air Soil Poll. 2005; 160(1-4): 145-159.   DOI
20 Gu SG, Choi IJ, Kim W, Sun ON, Kim SB, Lee YG. Study on the distribution of fluorides in pants and the estimation of ambient concentration of hydrogen fluoride around the area of the accidental release of hydrogen fluoride in Gumi. J Environ Health Sci. 2013; 39(4): 346-353.
21 Ministry of Environment. Environmental Investigation for Hydrofluoric Acid Spill in Gumi. Sejong: Ministry of Environment Press; 2012.
22 Kim KM. Spatially Explicit Estimation and the Uncertainty Analysis of Carbon Stocks in Pine Forest using Growth Model and GIS, 2011 [dissertation]. [Seoul]: Seoul National University; 2012.
23 Wing JS, Sanderson LM, Brender JD, Perrotta DM, Beauchamp RA. Acute health effects in a community after a release of hydrofluoric acid. Arch Environ Health. 1991; 46(3): 155-160.   DOI   ScienceOn
24 BAI. Gumi Hydrofluoric Acid Spill Accident Response and Countermeasure Audit Report. Seoul: The Board of Audit and Inspection Press; 2013. p.3-19.