Rak-Hyeon Kim scite author profile

Abstract:The main purpose of this study is to identify the major factors affecting groundwater quality by means of multivariate statistical analysis of the physico-chemical compositions. Cluster analysis results show that the groundwater in the study area is classified into four groups (A, B, C and D), and factor analysis indicates that groundwater composition, 81Ð9% of the total variance of 17 variables, is mainly affected by three factors: seawater intrusion, microbial activity and chemical fertilizers. These results might be related to the geographical characteristics of the study area. The main influence on groundwater in groups B, C and D, which are close to the Yellow Sea and contain reclaimed areas, is the seawater intrusion by the present seawater, the trapped seawater, and microbial activity. Group A, however, has been used for agriculture for a long time, and thus groundwater in this group has been largely affected by chemical fertilizers. As groundwater flows from group A to group D according to its path, the governing factor of the groundwater quality gradually changes from chemical fertilizers to microbial activity and seawater intrusion.

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Use of time series analysis for the identification of tidal effect on groundwater in the coastal area of Kimje, Korea

Kim

Lee

Cheong

et al. 2005

Journal of Hydrology

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Application of cluster analysis for the hydrogeochemical factors of saline groundwater in Kimje, Korea

et al. 2003

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Salinization properties of a shallow groundwater in a coastal reclaimed area, Yeonggwang, Korea

Kim

Ryu

et al. 2006

Environ Geol

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Countrywide Groundwater Quality Trend and Suitability for Use in Key Sectors of Korea

Jeon

Raza

Lee

et al. 2020

Water

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Under changing climate, increasing groundwater use has risen the concern for groundwater quality variations over recent years, to maintain a healthy ecosystem. The objectives were to identify trend of temporal variations in groundwater quality and its suitability for different uses in Republic of Korea. Water quality data were collected from 198 monitoring stations of Groundwater Quality Monitoring Network (GQMN), annually for the period of ten years (2008–2017). Non-parametric trend analysis of a Mann–Kendall test and Theil–Sen’s slope was done on groundwater physico-chemical data of ten years. Groundwater suitability evaluation was done for use in main sectors including domestic (drinking) and agriculture (irrigation). For drinking suitability analysis, results were compared with World Health Organization (WHO) and Korean Ministry of Environment (KME) established guidelines. For irrigation suitability evaluation, electrical conductivity (EC), Sodium Adsorption Ratio (SAR), percent of Na+, Residual Sodium Carbonate (RSC), US Salinity Laboratory (USSL), and Wilcox diagram were used. Most significantly, water type belongs to Ca-HCO3 and Ca-SO4 types, but a small proportion belongs to Na-CO3 and Na-Cl types. Approximately, 96% and 93% of groundwater samples are suitable for drinking, based on WHO and KME guidelines, respectively. Around 98% and 83% of groundwater samples are in suitable range for irrigation use, based on USSL and Wilcox diagrams, respectively.

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First strontium isotope map of groundwater in South Korea: applications for identifying the geographical origin

et al. 2020

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Characteristics of organic matter as indicators of pollution from small‐scale livestock and nitrate contamination of shallow groundwater in an agricultural area

Kim¹,

Lee²,

Chang³

2003

Hydrological Processes

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Abstract:The main purpose of this study was to examine the hydrogeochemical factors leading to nitrate contamination of shallow groundwater in an agricultural area. Another purpose was to identify relationships between variations in organic matter levels (as estimated by the BOD and COD parameters) of groundwater that transports effluent from small-scale livestock holdings. Major cations, anions, BOD and COD of organic matter and total coliforms were analysed. It was found that groundwaters beneath cultivated areas and areas carrying livestock had higher concentrations of calcium, nitrate and chloride than did freshwater. Above all, the nitrification process increased concentrations of nitrate. Nitrate levels were depressed in some places where the groundwater was low in dissolved oxygen. Groundwaters affected by livestock activities showed high concentrations of organic matter (BOD, COD) and high microbial concentrations (as indicated by total coliforms). The COD/BOD ratio increased in the downward direction. It was inferred that this was due to the faster loss of easily biodegradable organic matter compared with non-biodegradable organic matter proceeding away from a discharge. Accordingly, it is possible to trace effluent in a small area back to a point source by monitoring the COD/BOD ratio of groundwater.

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Characterization of a site contaminated by chlorinated ethenes and ethanes using multi-analysis

Kaown

Jun²,

Kim

et al. 2016

Environ Earth Sci

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Rak-Hyeon Kim

Multivariate statistical analysis to identify the major factors governing groundwater quality in the coastal area of Kimje, South Korea

Use of time series analysis for the identification of tidal effect on groundwater in the coastal area of Kimje, Korea

Application of cluster analysis for the hydrogeochemical factors of saline groundwater in Kimje, Korea

Salinization properties of a shallow groundwater in a coastal reclaimed area, Yeonggwang, Korea

Countrywide Groundwater Quality Trend and Suitability for Use in Key Sectors of Korea

First strontium isotope map of groundwater in South Korea: applications for identifying the geographical origin

Characteristics of organic matter as indicators of pollution from small‐scale livestock and nitrate contamination of shallow groundwater in an agricultural area

Characterization of a site contaminated by chlorinated ethenes and ethanes using multi-analysis

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