• Title/Summary/Keyword: toxicity of pollutant mixture

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Toxicity of Binary Mixture of Cyanide and 3,5-dichlorophenol to Vibrio fischeri Determined by Newly Developed $N-tox^{(R)}$ Bioassay System (국내 개발된 $N-tox^{(R)}$ 생물검정 시스템을 이용한 시안과 3, 5-이염화페놀의 발광박테리아(Vibrio fischeri)에 대한 혼합 독성 영향 연구)

  • Lee, Jung-Suk;Lee, Kyu-Tae;Kim, Chan-Kook;Kim, Hye-Jin;Lee, Chang-Hoon;Lee, Jong-Hyeon
    • Environmental Analysis Health and Toxicology
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    • v.22 no.1 s.56
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    • pp.27-36
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    • 2007
  • Cyanides and dichlorophenols were important pollutants in industrial effluents of steel, petroleum, plastics, pesticides, synthetic dye and/or fiber manufacturing. The toxic effects of cyanide and 3, 5-dichlorophenol in the unary and binary solutions to Vibrio fischeri were determined using the newly developed $N-tox^{(R)}$ bioassay system. This bioassay system relies upon the attenuation of light intensity emitted by Vibrio fischeri exposed to various pollutants including metals and organic compounds. Most of studies dealing with toxicity of pollutants concerned single chemical species, while the organisms were typically exposed to pollutant mixtures. The present study showed that the toxicity of some binary combinations of cyanide and 3, 5-dichlorophenol significantly was lower than the predicted toxicity from the addicted model. This antagonistic interaction was well explained by chemical interaction model presented in this study.

Comparison between Ecotoxicity using Daphnia magna and Physiochemical Analyses of Industrial Effluent (산업폐수에 대한 이화학적 분석과 물벼룩 생태독성의 비교)

  • Lee, Sun Hee;Lee, Hak Sung
    • Journal of Environmental Science International
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    • v.23 no.7
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    • pp.1269-1275
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    • 2014
  • Ecotoxicity assessments with the physiochemical water quality items and the bioassay test using Daphnia magna were conducted for 18 selected effluents of 6 industrial types (metal processing, petroleum refining, synthetic textile manufacturing, plating, alcohol beverage manufacturing, inorganic compound manufacturing) being detected toxicity from industrial effluent in Ulsan city, and the interrelationship between total toxic unit (${\Sigma}TU$) and concentrations of Water Quality Conservation Act in Korea were investigated. The average toxic unit(TU) of effluents for 6 industrial types displayed the following ascending order: petroleum refining (0.2) < synthetic textile manufacturing (0.6) < alcohol beverage manufacturing (0.9) < metal processing (1.3) ${\leq}$ inorganic compound manufacturing (1.3) < plating (3.0). These values were less than effluent permission standard. Based on the result of substances causing ecotoxicity, the correlation analysis was not easy because most of heavy metals were not detected or were less than effluent permission standard. Toxicological assessment of industrial effluent was suitable for the evaluation of the mixture toxicity for pollutant. The whole effluent toxicity test using a variety of species was needed for the evaluation of industrial wastewater.

Ecotoxicity Assessment for Livestock Waste Water Treated by a Low Impact Development(LID) Pilot Plant (파일럿 규모의 LID공법을 적용한 축산폐수 처리수에 대한 생태독성 평가)

  • Park, Da Kyung;Chang, Soon-Woong;Choi, Hanna
    • Korean Journal of Environmental Biology
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    • v.35 no.4
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    • pp.662-669
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    • 2017
  • This study evaluated the ecotoxicological properties of livestock waste water treated by a LID (Low Impact Development) system, using a mixture of bio-reeds and bio-ceramics as suitable bed media for a subsequent treatment process of a livestock wastewater treatment plant. The relationship between the pollutant reduction rate and the ecotoxicity was analyzed with the effluents from the inlet pilot plant, with vegetated swale and wetlands and the batch type of an infiltration trench. Each pilot plant consisted of a bio process using bio-reeds and bio-ceramics as bed media, as well as a general process using general reeds and a bed as a control group. The results indicated that, after applying the HRT 24 hour LID method, the ecotoxicity was considerably lowered and the batch type pilot plant was shown to be effective for toxicity reduction. The LID method is expected to be effective for water quality management, considering ecotoxicity by not only as a nonpoint source pollution abatement facility but also, as a subsequent treatment process linked with a livestock manure purification facility. It is necessary to take the LID technic optimization study further to apply it as a subsequent process for livestock wastewater treatment.

Ecotoxicity of Daphnia magna and Aliivibrio fischeri on Potentially Harmful Substances Emissionsfrom Battery Manufacturing Processes: Lithium, Nickel, and Sulfate (배터리 제조공정에서 배출되는 잠재 유해 물질에 대한 물벼룩과 발광박테리아의 생태독성: 리튬, 니켈, 황산염을 대상으로)

  • Inhye Roh;Kijune Sung
    • Journal of Environmental Impact Assessment
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    • v.32 no.2
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    • pp.123-133
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    • 2023
  • Wastewater generated in the secondary battery production process contains lithium and high-concentration sulfate. Recently, as demand as demand for high-Ni precursors with high-energy density has surged, nickel emission is also a concern. Lithium and sulfate are not included in the current water pollutant discharge standard, so if they are not properly processed and discharged, the negative effect on future environment may be great. Therefore, in this study, the ecotoxicity of lithium, nickel, and sulfate, which are potential contaminants that can be discharged from the secondary battery production process, was evaluated using water flea (Daphnia magna) and luminescent bacteria (Aliivibrio fischeri). As a result of the ecotoxicity test, 24-hour and 48-hour D. magna EC50 values of lithium were 18.2mg/L and 14.5mg/L, nickel EC50 values were 7.2mg/L and 5.4mg/L, and sulfate EC50 values were 4,605.5mg/L and 4,345.0mg/L, respectively. In the case of D. magna, it was found that there was a difference in ecotoxicity according to the contaminants and exposure time (24 hours, 48 hours). Comparing the EC50 of D. magna for lithium, nickel, and sulfate, the EC50 of nickel at 24h and 48h was 39.6-37.2% compared to lithium and 0.1-0.2% compared to sulfate, which was the most toxic among the three substances. The difference appeared to be at a similarlevelregardless of the exposure time. The EC50 of sulfate was 253.0-299.7% and 639.5-804.6%, respectively, compared to lithium and nickel, showing the least toxicity among the three substances. The 30-minute EC50 values of luminescent bacteria forlithium, nickel, and sulfate were 2,755.8mg/L, 7.4mg/L, and 66,047.3mg/L,respectively. Unlike nickel, it was confirmed that there was a difference in sensitivity between D. magna and A. fischeri bacteria to lithium and sulfate. Studies on the mixture toxicity of these substances are needed.