• 한국환경과학회지
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• 제30권11호
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• pp.945-956
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• 2021

In this study, the effects of single and binary heavy metals toxicity on the growth and phosphorus removal ability of Bacillus sp.. known as be a phosphorus-removing microorganism, were quantitatively evaluated. Cd, Cu, Zn, Pb, Ni were used as heavy metals. As a result of analysis of variance of the half of inhibition concentration and half of effective concentration for each single heavy metal treatment group, the inhibitory effect on the growth of Bacillus sp. was Ni < Pb < Zn < Cu < Cd. And the inhibitory effect on phosphorus removal by Bacillus sp. was Ni < Pb < Zn < Cu < Cd. When analyzing the correlation between growth inhibition and phosphorus removal efficiency of a single heavy metal treatment group, a negative correlation was found (R² = 0.815), and a positive correlation was found when the correlation between IC₅₀ and EC₅₀ was analyzed (R² = 0.959). In all binary heavy metal treatment groups, the interaction was an antagonistic effect when evaluated using the additive toxicity index method. This paper is considered to be basic data on the toxic effects of heavy metals when phosphorus is removed using phosphorus removal microorganisms in wastewater.

• 해양환경안전학회지
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• 제16권4호
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• pp.361-367
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• 2010

해양구조물 수중부의 해양생물 부착을 방지하는 효과적인 방법으로 방오도료를 사용하고 있다. 트리부틸틴(Tributyltin, TBT) 화합물은 우수한 방오성능을 가져 지금까지 광범위하게 사용해 되어 왔으나, 유해물질 사용금지에 따라 새로운 기술을 적용한 방오도료 개발이 진행되고 있다. 신규 방오도료는 낮은 독성을 가지면서도 우수한 방오성능을 가져야 한다. 본 논문에서는 상용 TBT-free 방오도료 3종(아산화동 함유 자기마모형 도료(Cu SPC AF), 아산화동을 함유하지 않는 자기마모형 도료(Cu-Free SPC AF), Foul-release 실리콘 도료(Foul release AF)의 용출수가 가지는 환경영향성을 조피볼락과 알테미아를 사용하여 평가하였다. 용출수에 대한 급성독성을 조사한 결과 방오도료 용출수의 농도와 생물종의 생존율은 반비례하는 경향을 나타내었으며, 자가마모형 도료가 Foul-release 실리콘 도료보다 상대적으로 높은 급성독성을 가지는 것을 확인할 수 있었다.

• ALGAE
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• 제20권2호
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• pp.157-166
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• 2005

Uptake kinetics of Cd and Zn by leaves and rhizome of the seagrass Zostera marina were examined in controlled laboratory radiotracer experiments. Subsequently, acute toxicity of Cd, Cu and TBT on photosynthetic quantum yield (ΔF/Fm’ of Z. marina were determined, and the differential sensitivities of rapid light curve (RLC) to those harmful substances were also compared. All measurements on photosynthetic activity were determined by chlorophyll a fluorescence method using pulse amplitude modulation (PAM). Metal uptake by Z. marina was saturated with increasing exposure time in leaves and rhizomes. Uptake of Zn by Z. marina was faster than that of Cd. Metal uptake rates in Z. marina decreased with the increase of dissolved metal concentrations and also with the increase of biomass. The adverse effect of TBT on effective quantum yield was stronger than other pollutants. Average acute toxicity on the RLC of the seagrass exposed to TBT and two heavy metals (Cd and Cu) was going to decrease as follows: TBT > Cd > Cu. Our preliminary results in this study suggested that Z. marina potentially can be used as a biomonitor of harmful substances contamination in coastal waters.

• 환경생물
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• 제20권2호
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• pp.136-145
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• 2002

Ag와 Cu로 오염된 퇴적물이 이매패류 Macoma balthica에 미치는 만성독성영향과 주요한 중금속 흡수경로를 평가하기 위해, 실험실에서 미소생태계 실험이 수행되었다. 실험생물인 M. balthica는 4개의 농도구배를 갖는 $Ag(0.01-0.87\mu{mol}\;g^{-1})$와 $Cu(0.75-5.55\mu{mol\;g^{-1})$로 오염된 퇴적물에서 90일 동안 배양되었다. 퇴적물 내 중금속의 지화학적 분포 특성과 생물이용도를 조절한다고 알려진 AVS(acid volatile sulfide)의 농도를 변화시켜, AVS가 M. balthica의 Ag와 Cu의 체내축적에 미치는 영향을 평가하였다. 90일간 노출된 후, M. balthica가 축적한 Ag와 Cu의 농도는 1 N HCI로 추출된 퇴적물 내 중금속의 농도(SEM, simultaneously extracted metal)와 양의 상관성을 보이며 증가하였다. Ag와 Cu의 체내 축적은 [SEM]-[AVS]값에 큰 영향을 받지 않았는데, 이것은 공극수 내 용존태로 존재하는 Ag와 Cu가 생물 체내 축적에 크게 기여하지 않았다는 것을 암시한다. 체내 축적된 Ag와 Cu는 M. balthica의 여수율과 글리코겐 함량에 직접적인 영향을 미쳤다. 최대 $1.0\pm{0.2}\mu{mol}\;Ag\;g^{-1}$와 $2.7\pm{0.3}\mu{mol}\;Cu\;g^{-1}$를 축적한 M. balthica의 여수율은 오염되지 않은 퇴적물에 노출된 실험조개의 18-43%에 불과하였다. 이와 유사하게, 중금속 처리군에 노출된 M. balthica의 글리코겐 함량은 체내 Ag와 Cu의 농도와 음의 상관성을 나타내었다. 본 연구의 결과는 Ag와 Cu로 오염된 퇴적물에 노출된 M. balthica는 주로 퇴적물의 섭식을 통해 중금속을 축적하며, 여수율과 글리코겐 함량의 감소와 같은 만성독성영향을 나타낼 수 있다는 것을 암시한다.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2003년도 추계학술발표회
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• pp.404-408
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• 2003

In this study, we examined the influences of pH and total concentration on the speciation of heavy metals (Cd, Cu, Zn) in acid mine drainage. Their labile concentrations were analyzed by Anodic Stripping Voltammetry (ASV) at both natural pH and adjusted pHs (from 2 to 8). We obtained regression equations for predicting labile concentrations as a function of the water pH and contamination level (total dissolved metal concentration). Our data show that labile Cu depends on both the total concentration and pH, while labile Cd and Zn concentrations are controlled mainly by their total concentration rather than pH. Therefore, the pH variation of AMD may significantly change the toxicity and bioavailability especially of Cu, owing to its speciation change.

• Environmental Analysis Health and Toxicology
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• 제22권2호통권57호
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• pp.171-175
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• 2007

Indigenous species means a species that is likely, due to historical presence, to occur at a specified site for some portion of its life span. Therefore, indigenous species can be useful as an indicator to assess environmental risk caused by hazardous chemicals in a specific site. So far a few toxicity studies using freshwater species which are indigenous to Korea have been carried out. In this study, a freshwater shrimp (Neocardina denticulata) indigenous to Korea was used for acute toxicity test of heavy metals. Neocardina denticulata were exposed to cadmium chloride $(CdCl_2)$, copper chloride $(CuCl_2)$ and zinc chloride $(ZnCl_2)$ using automatic flow-through system for 96 hours. The 96h LC50s were calculated as 0.043 $(0.042{\sim}0.045)mg\;CdCl_2/L,\;0.104(0.098{\sim}0.113)mg\; CuCl_2/L\;and\;2.021\;(1.633{\sim}2.594)mg\;ZnCl_2/L$. When compaired with some international standard species such as medaka(Oryzias latipes), Neocardina denticulata had high sensitivity. Therefore, this study suggested that Neocardina denticulata have possibilities for a sensitive test species to test heavy metal toxicity in aqua-system.

• 한국항해항만학회지
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• 제38권6호
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• pp.655-661
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• 2014

본 연구에서는 해양오염퇴적물 내 Ni, Cu, Pb 및 Zn 등 중금속에 대하여 벤토나이트를 이용한 안정화 처리를 수행하였다. 안정화 실험은 해양오염퇴적물에 벤토나이트 첨가 후 150일간 습윤 양생 하여 실시하였다. 중금속 연속추출 결과로부터, 미처리 오염퇴적물과 비교해서 Ni, Cu, Pb 및 Zn은 용이하게 용출가능한 존재형태(이온교환, 탄산염, 산화물 형태)가 벤토나이트에 의해 각각 8.5%, 5.6%, 19.2% 및 28.2% 감소하였다. 또한, 안정화제 의한 오염퇴적물의 용출저감 평가를 위해 TCLP(Toxicity Characteristic Leaching Procedure)를 수행한 결과, 미처리 오염퇴적물과 비교하여 안정화 처리 퇴적물인 경우 중금속의 용출량이 각각 Ni 95.7%, Cu 96.8%, Pb 99.2%, Zn 85.9%씩 크게 감소하는 것을 확인하였다. 이러한 결과로부터, 벤토나이트를 해양오염퇴적물의 피복소재로 사용할 경우 시험 대상 중금속의 안정화 효과가 확인되었다.

• 한국토양비료학회지
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• 제48권5호
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• pp.397-403
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• 2015

Heavy metals reduce the photosynthetic efficiency and disrupt metabolic reactions in a concentration-dependent manner. Moreover, by replacing the metal ions in metalloproteins that use essential metal ions, such as Cu, Zn, Mn, and Fe, as co-factors, heavy metals ultimately lead to the formation of reactive oxygen species (ROS). These, in turn, cause destruction of the cell membrane through lipid peroxidation, and eventually cause the plant to necrosis. Given the aforementioned factors, this study was aimed to understand the physiological responses of rice to cadmium (Cd) and arsenic (As) toxicity and the effect of essential metal ions on homeostasis. In order to confirm the level of physiological inhibition caused by heavy metal toxicity, hydroponically grown rice (Oryza sativa L. cv. Dongjin) plants were exposed with $0-50{\mu}M$ cadmium (Cd, $CdCl_2$) and arsenic (As, $NaAsO_2$) at 3-leaf stage, and then investigated malondialdehyde (MDA) contents after 7 days of the treatment. With increasing concentrations of Cd and As, the MDA content in leaf blade and root increased with a consistent trend. At 14 days after treatment with $30{\mu}M$ Cd and As, plant height showed no significant difference between Cd and As, with an identical reduction. However, As caused a greater decline than Cd for shoot fresh weight, dry weight, and water content. The largest amounts of Cd and As were found in the roots and also observed a large amount of transport to the leaf sheath. Interestingly, in terms of Cd transfer to the shoot parts of the plant, it was only transported to upper leaf blades, and we did not detect any Cd in lower leaf blades. However, As was transferred to a greater level in lower leaf blades than in upper leaf blades. In the roots, Cd inhibited Zn absorption, while As inhibited Cu uptake. Furthermore, in the leaf sheath, while Cd and As treatments caused no change in Cu homeostasis, they had an antagonist effect on the absorption of Zn. Finally, in both upper and lower leaf blades, Cd and As toxicity was found to inhibit absorption of both Cu and Zn. Based on these results, it would be considered that heavy metal toxicity causes an increase in lipid peroxidation. This, in turn, leads to damage to the conductive tissue connecting the roots, leaf sheath, and leaf blades, which results in a reduction in water content and causes several physiological alterations. Furthermore, by disrupting homeostasis of the essential metal ions, Cu and Zn, this causes complete heavy metal toxicity.

• Applied Science and Convergence Technology
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• 제23권1호
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• pp.14-26
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• 2014

Copper is an important component from coin metal to electronic wire, integrated circuit, and to lithium battery. Copper oxides, mainly including $Cu_2O$ and CuO, are important semiconductors for the wide applications in solar cell, catalysis, lithium-ion battery, and sensor. Due to their low cost, low toxicity, and easy synthesis, copper oxides have received much research interest in recent year. Herein, we review the crystallization of copper oxides by designing various chemical reaction routes, for example, the synthesis of $Cu_2O$ by reduction route, the oxidation of copper to $Cu_2O$ or CuO, the chemical transformation of $Cu_2O$ to CuO, the chemical precipitation of CuO. In the designed reaction system, ligands, pH, inorganic ions, temperature were used to control both chemical reactions and the crystallization processes, which finally determined the phases, morphologies and sizes of copper oxides. Furthermore, copper oxides with different structures as electrode materials for lithium-ion batteries were also reviewed. This review presents a simple route to study the reaction-crystallization-performance relationship of Cu-based materials, which can be extended to other inorganic oxides.

• Membrane and Water Treatment
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• 제10권3호
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• pp.231-237
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• 2019

Peroxymonosulfate (PMS) in combination with Cu(II) was examined to inactivate E. coli and MS2 coliphage in natural water. The combined system (i.e., the Cu(II)/PMS system) caused a synergistic inactivation of E. coli and MS2, in contrast with either Cu(II) or PMS alone. Increasing the concentration of PMS enhanced the inactivation of E. coli and MS2, but after a certain point, it decreased the efficacy of the microbial inactivation. In the Cu(II)/PMS system, adding reactive oxidant scavengers marginally affected the E. coli inactivation, but the inhibitory effects of copper-chelating agents were significant. Fluorescent assays indicated that the Cu(II)/PMS system greatly increased the level of reactive oxidants inside the E. coli cells. The sequential addition of Cu(II) and PMS inactivated more E. coli than did adding the two simultaneously; in particular, the inactivation efficacy was much higher when Cu(II) was added first. The observations from the study collectively showed that the microbial inactivation by the Cu(II)/PMS system could be attributed to the toxicity of Cu(I) as well as the intracellular oxidative stress induced by Cu(III) or radical species.