Ecological impact of fast industrialization inferred from a sediment core in Seocheon, West Coast of Korean Peninsula

Background Rapid industrialization has caused various impacts on nature, including heavy metal pollution. However, the impacts of industrialization vary depending on the types of industrializing activity and surrounding environment. South Korea is a proper region because the rapid socio-economical c...

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Bibliographic Details
Published in:Journal of ecology and environment 2020, 44(4), , pp.212-221
Main Authors: Choi, Rack Yeon, Kim, Heung-Tae, Yang, Ji-Woong, Kim, Jae Geun
Format: Article
Language:English
Subjects:
20th century
Anthropogenic factors
Arsenic
Continental interfaces, environment
Copper
Deforestation
Economic development
Environmental impact
Gasoline
Government policy
Heavy metals
Industrial development
Industrialization
Land pollution
Land use
Lead
Metal concentrations
Nutrient concentrations
Ocean, Atmosphere
Pollen
Reforestation
Reservoirs
Sciences of the Universe
Sea level
Sediments
Smelters
Smelting
Urbanization
Vegetation
Vegetation cover
Water levels
생물학
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Summary:Background Rapid industrialization has caused various impacts on nature, including heavy metal pollution. However, the impacts of industrialization vary depending on the types of industrializing activity and surrounding environment. South Korea is a proper region because the rapid socio-economical changes have been occurred since the late nineteenth century. Therefore, in this study, we estimate the anthropogenic impacts on an ecosystem from a sediment core of Yonghwasil-mot, an irrigation reservoir on the western coast of Korea, in terms of heavy metal concentrations, nutrient influx, and pollen composition. Results The sediment accumulation rate (SAR) determined by 210Pb geochronology showed two abrupt peaks in the 1930s and 1950s, presumably because of smelting activity and the Korean War, respectively. The following gradual increase in SAR may reflect the urbanization of recent decades. The average concentrations of arsenic (As), copper (Cu), and lead (Pb) during the twentieth century were > 48% compared to those before the nineteenth century, supporting the influence of smelting activity. However, at the beginning of the twenty-first century, the As, Cu, and Pb concentrations decreased by 19% compared to levels in the twentieth century, which is coincident with the closure of the smelter in 1989 and government policy banning leaded gasoline since 1993. The pollen assemblage and nutrient input records exhibit changes in vegetation cover and water level of the reservoir corresponding to anthropogenic deforestation and reforestation, as well as to land-use alteration. Conclusions Our results show that the rapid socio-economic development since the twentieth century clearly affected the vegetation cover, land use, and metal pollutions.
ISSN:2288-1220
2287-8327
2288-1220
DOI:10.1186/s41610-020-00165-8