Investigation of waterborne cadmium toxicity in the green-lipped mussel, Perna canaliculus using biomarkers – a potential bioindicator of coastal metal pollution in New Zealand

Chandurvelan, Rathishri

January 2013

Coastal metal pollution is a major concern to the health and well-being of aquatic organisms. Bioindicator organisms such as mussels have the potential to monitor coastal metal pollution. In New Zealand, the feasibility of employing green-lipped mussels, Perna canaliculus as a bioindicator species is yet to be investigated. This thesis focuses on applying a suite of biomarkers on green-lipped mussels exposed to cadmium (Cd) to evaluate the utility of the biomarkers and investigate the utility of the mussels in assessment of metal pollution. Cd is a non-essential metal and is known to be highly toxic to many aquatic organisms. This research consisted of a laboratory study to understand the mechanistic effects of Cd toxicity in green-lipped mussels. Physiological, biochemical, immunocytotoxic and cytogenotoxic biomarker responses were measured in mussels exposed to acute (96 h; 2000 µg L⁻¹ and 4000 µg L⁻¹) and subchronic (28 d; 200 µg L⁻¹ and 2000 µg L⁻¹) Cd treatments. The 96 h LC₅₀ value for P. canaliculus was 8160 µg L⁻¹, indicating that the green-lipped mussels were relatively tolerant to Cd exposure. Results from the Cd exposures, indicated that Cd had a negative impact on physiological processes such as feeding and oxygen consumption. Cd-induced physiological impairments caused an imbalance between energy gain and energy loss in the mussels that led to negative scope for growth. Detoxification (metallothionein-like protein) and defence mechanisms (catalase) were induced in the mussels to provide protection against the toxic effects of Cd. However, the defence mechanisms were not sufficient to protect the mussels from damage due to lipid peroxidation. DNA damage was also observed in the haemocytes of mussels as a result of Cd exposure. Cellular homeostasis (alkaline phosphatase) mechanisms were also perturbed. The immunocytotoxic endpoints reflected differences in haemocyte proportions in the haemolymph of Cd-exposed mussels. Exposure to Cd also led to the formation of several nuclear aberrations in the gill cells of mussels. Overall the laboratory study highlighted toxic effects of Cd on green-lipped mussels that were dependent on the dose and/or the duration of exposure to Cd. Among the biomarkers tested, clearance rate, metallothionein-like protein induction and the formation of nuclear aberrations in mussel gill cells correlated strongly to Cd accumulation levels and reflected Cd exposure effects. The feasibility of employing green-lipped mussels as bioindicators was tested during the field study. Green-lipped mussels were collected from different coastal sites along the South Island in NZ. Metal concentrations in the sediment and in four different mussel tissues were analysed. The findings indicated a significant geographical difference in metal concentration in the environment and in the metal accumulation levels in the mussels. Overall, the field study indicated that the green-lipped mussel, Perna canaliculus has the potential to be used as a bioindicator species for assessment of coastal metal pollution levels in NZ.

Perna canaliculus

cadmium

biomarkers

bioindicator

biomonitoring

metal pollution

A study of GaAs and CdZnTe by positron annihilation spectroscopy

Shan, Yueyue., 沈躍躍.

January 1997

published_or_final_version / Physics / Doctoral / Doctor of Philosophy

Positron annihilation.

Positrons - Spectra.

Gallium arsenide semiconductors.

Cadmium.

Metals And Metalloids In Atmospheric Dust: Use Of Lead Isotopic Analysis For Source Apportionment

Felix Villar, Omar Ignacio

January 2014

Mining activities generate aerosol in a wide range of sizes. Smelting activities produce mainly fine particles (<1 μm). On the other hand, milling, crushing and refining processes, as well tailings management, are significant sources of coarse particles (>1 μm). The adverse effects of aerosols on human health depend mainly on two key characteristics: size and chemical composition. One of the main objectives of this research is to analyze the size distribution of contaminants in aerosol produced by mining operations. For this purpose, a Micro-Orifice Uniform Deposit Impactor (MOUDI) was utilized. Results from the MOUDI samples show higher concentrations of the toxic elements like lead and arsenic in the fine fraction (<1 μm). Fine particles are more likely to be deposited in the deeper zones of the respiratory system; therefore, they are more dangerous than coarse particles that can be filtered out in the upper respiratory system. Unfortunately, knowing the total concentration of contaminants does not give us enough information to identify the source of contamination. For this reason, lead isotopes have been introduced as fingerprints for source apportionment. Each source of lead has specific isotopic ratios; by knowing these ratios sources can be identified. During this research, lead isotopic ratios were analyzed at different sites and for different aerosol sizes. From these analyses it can be concluded that lead isotopes are a powerful tool to identify sources of lead. Mitigation strategies could be developed if the source of contamination is well defined. Environmental conditions as wind speed, wind direction, relative humidity and precipitation have an important role in the concentration of atmospheric dust. Dry environments with low relative humidity are ideal for the transport of aerosols. Results obtained from this research show the relationship between dust concentrations and meteorological parameters. Dust concentrations are highly correlated with relative humidity and wind speed. With all the data collected on site and the analysis of the meteorological parameters, models can be develop to predict the transport of particles as well as the concentration of contaminants at a specific point. These models were developed and are part of the results shown in this dissertation.

Arsenic

Cadmium

Dust

Isotopes

Lead

Aerosols

Environmental Engineering

Implication des transporteurs de zinc dans le transport intestinal et ostéoblastique de cadmium

Boutin, Vincent

05 1900

Le Zinc (Zn) est un métal important pour de nombreux processus physiologiques, notamment dans le métabolisme osseux. Cette étude a pour objectif d'évaluer l'implication possible de transporteurs de zinc (ZIP) dans l'influx de Cd dans la cellule. Le cadmium (Cd), métal cancérigène pour l'homme est suspecté d'emprunter certains ZIP, en particulier ZIP4 responsable de l'absorption intestinale du Zn, par mimétisme ionique. Des études montrent que ZIP8 participe à l'accumulation de Cd dans certains tissus. Parallèlement à la lignée cellulaire intestinale Caco-2, indifférenciés (J7) et différenciés (J21), la lignée ostéoblastique MG63 a été choisie. L'expression d'acide ribonucléique messager (ARNm) de ZIP 1, 4, 8 et hZTL1 a été déterminée par transcription inverse et polymérisation en chaîne (RT-PCR). Dans les cellules Caco-2, l'expression de ZIP8 et de hZTL1 est stable, celle de ZIP4 augmente avec la différenciation tandis que l'expression de ZIP1 diminue avec celle-ci. Les cellules MG63 expriment les ZIP et hZTL1 à des niveaux comparables. La détection par immunofluorescence de ZIP4 à la membrane des cellules Caco-2 confirme les résultats obtenus par RT-PCR. Le transport de 109Cd (0.5 µM) a été mesuré dans plusieurs conditions expérimentales afin de tester une éventuelle compétition entre le Zn, le Cd et le manganèse (Mn). Dans les cellules Caco-2 (J7, J21), les pourcentages d'inhibition (70% du transport saturable) par le Zn et le Mn sont comparables. Dans les cellules MG63, l'accumulation de 109Cd est plus fortement inhibée par le Zn que par le Mn. L'ajout de HCO3- augmente l'inhibition par le Zn et le Mn. Ces résultats suggèrent que ZIP8 et ZIP4 sont impliqués en partie dans l'accumulation de Cd. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : cellules Caco-2, cellules MG63, zinc, ZIP4, ZIP8, cadmium

Cadmium

Épithélium intestinal

Os

Proteine de liaison

Transport biologique

Zinc

The Effect of Urinary Cadmium on Cardiovascular Fitness as Measured by VO2 Max in White, Black and Mexican Americans

Egwuogu, Heartley

31 July 2007

Context: Cadmium is an important predictor of lung function, including forced vital capacity, forced expiratory volume and peak flow. Current evidence supports the notion that cadmium may be an important risk factor for cardiovascular fitness. Objectives: The purpose of this study was to determine the effect of cadmium exposure on cardiovascular fitness in representative sample of US white, blacks and Mexican Americans. The study also sought to determine if the relationship between cadmium and cardiovascular fitness varies by gender and racial/ethnic group. Methods: The data utilized for this study were obtained from National Health and Nutrition Examination Survey (NHANES). One-thousand nine hundred and sixty three subjects with data on cardiovascular fitness were eligible for this investigation. In NHANES, cardiovascular measurements were taken in series consisting of two minutes warm up exercise, two-three minutes exercise testing and two minutes resting period .The goal was to elicit 75% of predetermined age-specific heart rate by the end of the stress test. Cadmium was measured in the laboratory by taking urine sample of participants. Gender and race/ethnic specific multivariate linear regression analyses were performed to determine relationship of urinary cadmium with VO2 max. Results: There were gender and racial/ethnic difference in the relationship between urinary cadmium and VO2 max. In males and females, increased concentration of urinary cadmium was associated with decreased VO2 max across racial/ethnic groups (except in black males. The greatest negative association between cadmium and VO2 max was observed in black females (beta=-0.330) while the lowest value was recorded for white females (Beta=-0.074). The association was statistically significant in white males (Beta=-0.402, P =0.020) and Mexican American females (Beta=-0.290, P=0.026). Conclusion: There was inverse association between urinary cadmium and estimated VO2 max in a US nationally representative sample of White, Black and Mexican Americans. The impact of the gender and racial/ethnic differences in the association between urinary cadmium and VO2 max is not clear and warrants further investigation.

Estimated VO2max

Cardiovascular fitness

Urinary Cadmium

Aerobic Potential

Public Health

Effect of combined sodium arsenite and cadmium chloride treatment on heat shock protein gene expression in Xenopus laevis A6 kidney epithelial cells

Khamis, Imran

03 September 2013

Sodium arsenite and cadmium chloride are two widespread environmental toxicants which have deleterious effects on living organisms. At the cellular level, sodium arsenite and cadmium chloride cause oxidative stress, dysregulation of gene expression, apoptosis, and the unfolding of protein. Furthermore, both chemical stressors individually have the ability to induce heat shock protein (HSP) accumulation. HSPs are molecular chaperones that aid in protein folding, translocation and in preventing stress-induced protein aggregation. Previously, our laboratory demonstrated that treatment of A6 kidney epithelial cells of the frog Xenopus laevis, with either cadmium chloride or sodium arsenite plus a concurrent mild heat shock resulted in an enhanced accumulation of HSPs that was greater than found with the sum of the individual stressors. To the best of our knowledge, no information is available to date on the effect that these two chemical stressors have in combination on HSP accumulation in aquatic organisms. The present study examined the effect of simultaneous sodium arsenite and cadmium chloride treatment on the pattern of HSP30 and HSP70 accumulation in Xenopus A6 cells. Immunoblot analysis revealed that the relative levels of HSP30 and HSP70 accumulation in A6 cells treated concurrently with sodium arsenite and cadmium chloride for 12 h were significantly higher than the sum of HSP30 or HSP70 accumulation from cells subjected to the treatments individually. For instance, the combined 10 µM sodium arsenite plus 100 µM cadmium chloride treatment resulted in a 3.5 fold increase in HSP30 accumulation and a 2.5 fold increase in HSP70 accumulation compared to the sum of the stressors individually. This finding suggested a synergistic action between the two stressors. Pretreatment of cells with KNK437, an HSF1 inhibitor, inhibited the combined sodium arsenite- and cadmium chloride-induced accumulation of HSP30 and HSP70 suggesting that this accumulation of HSPs may be regulated, at least in part, at the level of transcription. Immunocytochemical analysis employing the use of laser scanning confocal microscopy (LSCM) revealed that simultaneous treatment of cells with the two stressors induced HSP30 accumulation primarily in the cytoplasm in a punctate pattern with some dysregulation of F-actin structure. Increased ubiquitinated protein accumulation was observed with combined 10 µM sodium arsenite and 10, 50 or 100 µM cadmium chloride treatment compared to individual stressors suggesting an impairment of the ubiquitin-proteasome degradation system. Finally, while incubation of A6 cells with 1 µM sodium arsenite plus 10 µM cadmium chloride did not induce a detectable accumulation of HSPs, the addition of a 30 °C mild heat shock resulted in a strong accumulation of HSP30 and HSP70. This study has demonstrated that concurrent sodium arsenite and cadmium chloride treatment can enhance HSP accumulation. Since HSP accumulation is triggered by proteotoxic stress, these findings are relevant given the fact that aquatic amphibians in their natural habitat may be exposed to multiple chemical stressors simultaneously.

heat shock proteins

sodium arsenite

cadmium chloride

Biology

Using cadmium-113 NMR spectrometry to study metal complexation by natural organic matter

Li, Jian

05 1900

No description available.

Cadmium Isotopes

Nuclear magnetic resonance spectroscopy

Metal complexes

Organic geochemistry

Examination of Metal Contamination within the UNESCO Designated Rideau River Waterway

LeBlond, SHANNON

27 September 2009

The Rideau River Waterway, also known as the Rideau Canal, is a constructed navigation channel that links Ottawa to Kingston, Ontario. Opened in 1832, it was designated a Canadian Heritage Site in 2003 and a UNESCO World Heritage Site in 2007. South of Smiths Falls, the Rideau Canal consists of a series of 14 interconnected lakes, primarily used for recreational purposes, as well as commercial fishing. The objectives of this study were to examine the spatial and temporal distributions of anthropogenic elements to three headwater lakes of the Rideau Canal system and to examine the relationship between sport fish Hg and historical sediment Hg concentrations. Utilizing paleolimnological techniques, historical records of As, Cd, Co, Cr, Cu, Hg, K, Ni, Pb, Rb, and Zns were analyzed from chronologically deposited lake sediments. Overall, Indian Lake, though the smallest of the three studied lakes, consistently had the highest overall As, Cd, Cu, Hg, Ni, Pb and Zn concentrations. While all peak concentrations were buried, recent surface sediment Hg, Cd, and Zn concentrations still remain above the federal interim sediment quality guideline and the concentration of Pb remains above the federal probable effect level within Indian Lake, leading to continued concern for human and ecosystem health. The general agreement between lake sediment profiles for Cd, Pb and Zn and then Cu and Ni suggest that each group of elements is primarily contributed from the same source. The similarity in trends and timing of peak concentrations between the study lakes and other Ontario lakes suggests large-scale, atmospheric contributions of elements to the freshwater systems in the area. Although only historical northern pike (Esox lucius) THg tissue concentration data was available for analysis, results indicate that concentrations in fish have decreased more than 60% since the late 1970’s, while sediment THg concentrations have decreased 35% within the same time period. Overall, this study has demonstrated that the headwater lakes to the Rideau Canal are presently impacted by elements, at concentrations which are of potential concern for human health. / Thesis (Master, Biology) -- Queen's University, 2009-09-26 00:02:42.317

mercury

metals

Rideau Canal

sediment

northern pike

lead

cadmium

zinc

Exploring the role of the thioredoxin system, peroxiredoxins and glutaredoxins in aluminum and cadmium tolerance in yeast and Arabidopsis thaliana

Lopez Santiago, Diana Laura

Unknown Date

No description available.

aluminum

antioxidant

yeast

Arabidopsis

cadmium

thioredoxin reductase

signaling

Phylogenetic trends in phytoplankton resistance to Cd and Cu toxicity

Payne, Chris, 1971-

January 1996

Some species of marine phytoplankton are believed to be more tolerant of high concentrations of trace metals than others, but no conclusive test of this hypothesis has been conducted. Eleven species of phytoplankton representing 5 classes were grown in Aquil medium containing Cd$ sp{2+}$ concentrations between 10$ sp{-9.85}$ and 10$ sp{-6.84}$ M. Growth rates and intracellular concentrations of Cd, C, N and S were measured. Cadmium quotas (mol Cd/litre-cell volume) were lower in members of Bacillariophyceae than in Chlorophyceae, Prymnesiophyceae, Dinophyceae and Cyanophyceae (ANOVA, p $<$ 0.001). Cellular C:S molar ratios decreased in phytoplankton grown at high (pCd 7.37-6.84) compared to low Cd (no added Cd), as S/litre-cell volume increased. Similar results were observed for C:N molar ratios. In two species that were examined, C:S ratios decreased as a linear function of increasing Cd concentration. Mean Cd$ sp{2+}$ concentration that reduced growth rate to 50% of maximum (pCd$ sp{50})$ was not significantly different among phytoplankton classes (ANOVA, p $<$ 0.05). When these experimental data were combined with pCd$ sp{50}$s calculated from published sources, Chlorophyceae were found to be the most resistant class (ANOVA, p $<$ 0.01). Cadmium and Cu resistance (pCd$ sp{50}$ and pCu$ sp{50})$ were correlated (r = 0.52, p $<$ 0.05), suggesting co-tolerance of phytoplankton to toxic levels of these metals. Chlorophyceae were most tolerant and Cyanophyceae the least tolerant of Cu (ANOVA, p $<$ 0.01). No significant differences were observed among Bacillariophyceae, Prymnesiophyceae, and Dinophyceae, which were of intermediate sensitivity to both metals. The results confirm the existence of a phylogenetic dependence of resistance to trace metal toxicity in phytoplankton.

Phytoplankton -- Phylogeny.

Cadmium -- Toxicity testing.

Copper -- Toxicity testing.