Monitoring lead pollution near a storage battery recycling plant in Taiwan, Republic of China

C. Y. Yeh, H. Y. Chiou, R. Y. Chen, K. H. Yeh, W. L. Jeng, B. C. Han

Research output: Contribution to journalArticle

7 Citations (Scopus)

Abstract

This study presents the distribution of blood lead levels and lead in various environmental samples (water, sediments, soils, and air) near the Shing-Yie storage battery recycling plant in Taiwan before (July 1990 to June 1991) and after (July 1992 to June 1993) amelioration. Before amelioration, the average blood lead levels in the neighborhood of the plant were in the range of 10.55 ± 5.7 to 12.28 ± 7.9 μg/dl. After amelioration, relatively lower average concentrations of blood lead (range 8.35 ± 3.0 to 9.13 ± 2.5 μg/dl) were generally found; however, these averages were still higher than that (7.79 ± 3.5 μg/dl) from other lead-unpolluted areas of Taiwan. An exceedingly high geometric mean (GM) lead concentration (128 μg/L) was found in the downstream river water of the Tawulum River passing by the plant. The concentrations of lead (GM = 372 and 418 μg/g) in the downstream river sediments were higher than those (GM = 123 and 158 μg/g) in the upstream river sediments before and after amelioration, respectively. Furthermore, lead species in river sediments were analyzed by a sequential leaching technique. The sum of phases I, II, and III accounted for 83.7% of total lead at station R2 (nearest to the plant). Maximum lead concentration (GM = 2402 μg/g) in dust at the soil surface from station S1 (nearest to the plant) was much higher than those from the other stations by about 18 times before amelioration. However, the maximum value dropped to 1,155 μg/g after amelioration. On the whole, the geometric mean concentration of lead in dust at the soil surface nearest to the plant was >1,000 μg/g and decreased to 3 (range 0.102-37.6 μg/m3) in the air near the plant was higher than that at the background locations, the geometric mean value of which was 0.08 μg/m3.

Original languageEnglish
Pages (from-to)227-234
Number of pages8
JournalArchives of Environmental Contamination and Toxicology
Volume30
Issue number2
DOIs
Publication statusPublished - 1996

Fingerprint

Recycling
Taiwan
Pollution
recycling
Lead
Rivers
remediation
pollution
Monitoring
monitoring
Sediments
fluvial deposit
Blood
Soil
Dust
Soils
soil surface
blood
Air
dust

Keywords

  • Analysis of Variance
  • Air Pollutants
  • Adolescent

ASJC Scopus subject areas

  • Environmental Science(all)
  • Environmental Chemistry
  • Toxicology

Cite this

Monitoring lead pollution near a storage battery recycling plant in Taiwan, Republic of China. / Yeh, C. Y.; Chiou, H. Y.; Chen, R. Y.; Yeh, K. H.; Jeng, W. L.; Han, B. C.

In: Archives of Environmental Contamination and Toxicology, Vol. 30, No. 2, 1996, p. 227-234.

Research output: Contribution to journalArticle

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AB - This study presents the distribution of blood lead levels and lead in various environmental samples (water, sediments, soils, and air) near the Shing-Yie storage battery recycling plant in Taiwan before (July 1990 to June 1991) and after (July 1992 to June 1993) amelioration. Before amelioration, the average blood lead levels in the neighborhood of the plant were in the range of 10.55 ± 5.7 to 12.28 ± 7.9 μg/dl. After amelioration, relatively lower average concentrations of blood lead (range 8.35 ± 3.0 to 9.13 ± 2.5 μg/dl) were generally found; however, these averages were still higher than that (7.79 ± 3.5 μg/dl) from other lead-unpolluted areas of Taiwan. An exceedingly high geometric mean (GM) lead concentration (128 μg/L) was found in the downstream river water of the Tawulum River passing by the plant. The concentrations of lead (GM = 372 and 418 μg/g) in the downstream river sediments were higher than those (GM = 123 and 158 μg/g) in the upstream river sediments before and after amelioration, respectively. Furthermore, lead species in river sediments were analyzed by a sequential leaching technique. The sum of phases I, II, and III accounted for 83.7% of total lead at station R2 (nearest to the plant). Maximum lead concentration (GM = 2402 μg/g) in dust at the soil surface from station S1 (nearest to the plant) was much higher than those from the other stations by about 18 times before amelioration. However, the maximum value dropped to 1,155 μg/g after amelioration. On the whole, the geometric mean concentration of lead in dust at the soil surface nearest to the plant was >1,000 μg/g and decreased to 3 (range 0.102-37.6 μg/m3) in the air near the plant was higher than that at the background locations, the geometric mean value of which was 0.08 μg/m3.

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