Identifying pollution sources of sediment in Lake Jangseong, Republic of Korea, through an extensive survey: Internal disturbances of past aquaculture sedimentation

Lake sediments are important sinks of various pollutants and preserve historical pollution records caused by anthropogenic activities. Recently, the sediments of Lake Jangseong, South Korea were first detected with high concentrations of organic matter (ignition loss [IL]; total organic carbon [TOC]...

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Bibliographic Details
Published in:Environmental pollution (1987) 2022-08, Vol.306, p.119403-119403, Article 119403
Main Authors: Kang, Tae-Woo, Yang, Hae Jong, Han, Jong Hak, Han, Young-Un, Kim, Min-Seob, Kim, Jihyun, Hwang, Soon Hong, Na, Eun Hye, Chang, Yoon-Seok
Format: Article
Language:English
Subjects:
Cadmium
Cage fish farming
Internal disturbance
Lake sediment
Phosphorus
Sediment core
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Summary:Lake sediments are important sinks of various pollutants and preserve historical pollution records caused by anthropogenic activities. Recently, the sediments of Lake Jangseong, South Korea were first detected with high concentrations of organic matter (ignition loss [IL]; total organic carbon [TOC]), nutrients (total nitrogen [TN]; total phosphorus [TP]), and some heavy metals (Zn, Cu, Cd, and Hg). Here, we identified the origins of these concentrations accumulated in the sediments using extensive surveys and various assessments. Sediment pollution assessed by sediment quality guidelines, pollution load index, and potential ecological risk index was found to be of serious concern for IL, TN, TP, and Cd. Thus, we assessed pollution sources through spatial, grid, and vertical distributions and found that the high pollutant concentrations detected in 2020 were confirmed only at a certain location in the lake. Additionally, similar results were detected in the sedimentary layer below a sediment core at a depth of 15.0 cm. The high pollutant concentrations locally occurred around a “hotspot” site that was previously frequently used for aquaculture activities, indicating that the pollutants were accumulated in sediments owing to past cage fish farming rather than from influx of externally sourced pollution. Furthermore, chemical fractionation of phosphorus and heavy metals and assessment of stable isotopes (13C and 15N) of organic matter suggested that the pollutants in the sediments at the “hotspot” sites had different origins than those found at other sites. Accordingly, the by-products discharged after cage fish farming, such as residual feed, fish meal, and waste, accumulated in the sediments and were then exposed to natural internal disturbances caused by the effects of climate change-induced drought. This local distribution and the phosphorus and heavy metal chemical fraction results with low elution potential indicated that the pollutants in the sediments of Lake Jangseong had negligible impact on water quality. [Display omitted] •Pollutant origins of sediments in Lake Jangseong were identified via surveys.•The pollutants were accumulated in sediments owing to past cage fish farming.•Local distribution and chemical fractions with low elution potential were observed.•Pollutants in the sediments of the lake had little influence on water quality.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2022.119403