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341	Ore Characterization of theZn-Pb-Ag-Au Carbonate-ReplacementDeposit at Piavitsa, Greece: : LA-ICP-MSSulphide Analysis, Whole-Rock Chemistryand XRF-XCT Scanning Technology / Zn-Pb-Ag-Au-mineraliseringen i Piavitsa, norra Grekland: : Malmkarakterisering genom LA-ICP-MS, bulkgeokemioch XCT-XRF analyser Sandoval, Daniel Gustavo January 2022 (has links) The polymetallic carbonate-replacement prospect at Piavitsa is part of the ore-forming system of the Stratoni Fault Zone within the Kassandra mining district in northeast Greece. This district constitutes the southern segment of the Serbo-Macedonian belt, a promising region for the exploration of precious and critical metals in Greece. This master thesis is framed within the X-MINE project under the Horizon 2020 program. Three main objectives are defined: (1) to characterize the mineralization at Piavitsa utilizing reflected light microscopy, microprobe, and laser-ablation inductively coupled mass spectrometry (LA-ICP-MS), and (2) to evaluate the contributions of the scanning GeoCore X10 (XRF-XCT) technology to the understanding of the ore, and (3) to assess potential environmental impacts. At Piavitsa, an early base-metal assemblage, composed of brecciated sphalerite and As-rich pyrite, is infilled and overprinted by an assemblage of As-poor to moderately-rich pyrite, alabandite, and Mnrich sphalerite. The latter two are corroded and replaced by Mn-rich carbonate. Fractures and interstices are infilled by a late assemblage of Ca-Mn-Mg carbonate, galena, As-poor pyrite, tetrahedrite-tennantite, and in the periphery of the orebody, seligmannite-bournonite and kesterite. Based on absolute elemental concentrations obtained by in situ LA-ICP-MS, the mineral hosts (primary; secondary) are defined as: pyrite (Fe, Co, Ni, and Au; As), sphalerite (Zn, Ga, Ge, Cd, Sn; Mn), galena and bournonite (Pb, Se, Te, Tl, and Bi; Ag, Sb), alabandite (Mn; Cd and Sb), and tetrahedrite (Cu, As, Ag, and Sb). In cocrystallized assemblages, some differences are observed. In pyritetetrahedrite asemblages, tetrahedrite mainly hosts As and Au, instead of pyrite, whereas in sphaleritealabandite assemblages, alabandite is the host of Mn, As, Ag and Sb and sphalerite, of Cd and Sn. Three concentrates are produced from the current mining operations of Hellas Gold in the Stratoni area, e.g, Mavres Petres Zn-Pb mine. From LA-ICP-MS, it is inferred that a sphalerite concentrate from the Piavitsa ore would contain Ga (peripheral ore: 150 ppm; main ore: 10-40 ppm), Sn (peripheral ore: 800-1500 ppm; main ore: 25-230 ppm), and Cd (1600-4000 ppm). The galena concentrate would contain concentrations of Ag (1300-1700 ppm), Se (50 ppm), Sb (1200-1600 ppm), and Te (85-210 ppm). The pyrite concentrate would contain Au (0.5-24.5 ppm) but would be devoid of other economical trace elements. The values given here consider 100% purity, instead of 80-90% reported in previous studies. The GeoCore X10 technology provides a good indication of measurable elements. (>0.01 wt.%), including Mn, Fe, Cu, Zn, and Pb; As, Sb and Sn. Moreover, it helps to quickly identify the main ore and gangue minerals and their distribution in the deposit. The distinction between the ore and gangue minerals can be easily achieved based on the difference in their X-ray attenuation. It is worth highlighting that mineralogical info obtained by other analytical methods is still essential to validate the outputs of the instrument and to improve the interpretations drawn from them. Regarding the environmental impacts of mining the ore, the potential for acid generation and pollutant mobilization are low due to the carbonate-rich matrix. The mining poses low radioactivity risks due to the low concentration of radionuclides. Establishing a pollutants baseline and monitoring the surrounding water bodies and soils is highly recommended to reduce overlooked environmental impacts. Carbonate-replacement Piavitsa trace elements GeoCore X10 whole-rock geochemistry LA-ICP-MS X-MINE Project Geochemistry Geokemi Geology Geologi
342	Comparison of MP-AES and ICP-MS for thedetermination of potentially toxic elements in (polluted) plant material Baysal, Ramazan January 2024 (has links) The purpose of this study was to assess the metal content present in pine needles collected from an old shooting range known for elevated lead levels in the soil by different analytical methods. The focus on conifers originated from their evergreen nature year-round, and their ability to absorb potentially harmful elements. Research on needles as biomonitors for environmental contamination, particularly in areas affected by heavy metal pollution, has gained significant global attention. Four trees, two Norway spruces (Picea abies), and two Scots pines (Pinus sylvestris) were identified within the designated area. Samples of conifer needles were collected in plastic bags. The needles underwent washing, drying, and grinding into powder for subsequent digestion method and quantitative determination of metal content using ICP-MS and MPAES. The study focused on elements commonly found in various types of ammunition, specifically manganese, iron, nickel, copper, zinc, molybdenum, antimony, and lead. Results obtained from both analytical methods, which was only manganese, showed statistically significant differences. During the analysis, only manganese could be quantified using MPAES, as the other analytes were below the detection limit. For ICP-MS, the LOD values were much lower, making this method more suitable, as all analytes were above LOD and could be quantified. The recovery values for the CRM were good for all elements when ICP-MS was utilized. However, the calculated recovery value for manganese decreased based on the results obtained from MPAES compared to the calculated recovery value for manganese based on the results obtained from ICP-MS. Interestingly, the analysis of conifer needles revealed no noticeable contamination from the shooting range. Instead, it highlighted variances among different pine needle species. The metal content in the pine needles remained within acceptable limits according to external literature sources. Shooting range Munkatorp Potentially toxic metals ICP-MS MP-AES Pine needles Pinus sylvestris Picea abies Chemical Sciences Kemi
343	Automated flow systems for total and isotopic analysis of thorium and uranium in samples of environmental interest Avivar Cerezo, Jessica 16 March 2012 (has links) Tenint en compte, les característiques i la presència d’urani i tori al medi ambient, així com la evolució de les directives que estipulen els nivells màxims de materials radioactius al medi ambient, en aquesta tesis es presenten dues revisions exhaustives i quatre mètodes analítics per a la determinació total e isotòpica de tori i urani, com alternatives a les separacions radioquímiques clàssiques, que es caracteritzen per ser laborioses i de llarga duració. Aquestes metodologies varen ser automatitzades mitjançant l’ús de tècniques d’anàlisis en flux multiconmutades, les quals proporcionen un important estalvi de reactius, amb la conseqüent reducció de cost per anàlisis i de generació de residus permetent una major freqüència d’anàlisis, i una mínima manipulació de les mostres. La espectrofotometria de llarg pas òptic i la espectrometria de masses de plasma acoblat inductivament (ICP-MS) varen ser les tècniques de detecció emprades en els mètodes desenvolupats com alternatives a detectors radiomètrics. / Taking into account the occurrence, the characteristics of uranium and thorium in the environment as well as the evolution of the directives which stipulate the limit values of radioactive materials in water samples, in this thesis two comprehensive reviews and four automated analytical systems for total and isotopic thorium and uranium determination are presented as alternatives to classical radiochemical separations which are laborious and time consuming. These methodologies have been automated exploiting multicommutated flow techniques, which provide minimal sample handling, low reagent consumption and waste generation and a high frequency of analysis. Long path length spectrophotometry and ICP-MS have been implemented in the developed methods as detection techniques instead of radiometric detectors in order to obtain fully automated, low cost and fast thorium and uranium analyzers. All the developed methods proposed in this thesis have been satisfactorily applied to environmental samples and have been validated with reference materials 543
344	Development and Application of IDMS Based Procedure for total Sulphur in Copper Metals and Its Alloys Phukphatthanachai, Pranee 05 April 2019 (has links) Bei der Schwefelquantifizierung in Kupfer und anderen reinen Metallen zeigte sich in der Vergangenheit eine mangelnde SI-Rückführung und zusätzlich inkonsistente Ergebnisse, wenn verschiedene Methoden verglichen wurden. Um diesen Mangel zu beheben ist ein Referenzverfahren erforderlich, welches SI-rückführbare Werte mit einem zuverlässigen Unsicherheitsbudget ermöglicht. In dieser Studie wurde ein entsprechendes Referenzverfahren zur Quantifizierung von Gesamtschwefel in Kupfer basierend auf der induktiv gekoppelten Plasma-Massenspektrometrie und der Isotopenverdünnungsanalyse (ICP-IDMS) entwickelt. Um diese Probleme zu lösen wurde mit Hilfe der Ionenaustauschchromatographie ein Schwefel-Matrix-Trennverfahren entwickelt. Dieses Trennverfahren wurde mit ICP-IDMS kombiniert, um Schwierigkeiten mit der Kalibrierung zu lösen und fehlende metrologische Konzepte einzuführen. So wurden die in diesem Projekt erzielten IDMS-Messwerte für die Kalibrierung von GDMS und LA-ICP-MS verwendet, beides Verfahren die im industriellen Einsatz üblich sind. Dadurch konnten mit beiden Routineverfahren zuverlässige Ergebnisse erzeilt warden, die zudem auf SI rückführbar sind. Darüber hinaus wurde ein auf der LA-ICP-IDMS basierendes Verfahren entwickelt, um den Probenvorbereitungsschritt von ICP-IDMS mit Schwefel-Matrix-Trennung zu reduzieren. Die Vorteile dieser Methode sind ein geringerer Arbeits- und Zeitaufwand, die SI- Rückführung der Messergebnisse und eine für LA-ICP-MS vergleichsweise hohe Genauigkeit. Die Schlüsselrolle hierbei spielte der innovative Einsatz von Polyethylenfritten als Trägermaterial der aufgelösten Probe. Dadurch war die Quantifizierung von Schwefel in Kupferproben mittels LA-ICP-IDMS möglich. Die wesentlichen Parameter wie Absorptionseffizienz der Fritten und Matrixeffekt wurden untersucht. Das entwickelte Verfahren konnte mit Hilfe der ICP-IDMS vollständig validiert werden. / Sulphur quantification in copper and other pure metals in the past revealed a lack of SI-traceability and also showed inconsistent results, when different methods are compared. Therefore, a reference procedure is required to enable SI-traceable measurement results accompanied by a sound uncertainty budget. In this study, such a procedure was developed for the quantification of total sulphur in copper using inductively coupled plasma-isotope dilution mass spectrometry (ICP-IDMS). For solving these problems ion exchange chromatography was applied, and a sulphur-matrix separation procedure was developed. This procedure was combined with ICP-IDMS to solve difficulties with the calibration and to realize metrological concepts. An application of the IDMS procedure was realized by using the measurement results of specific copper samples values for calibrating glow discharge mass spectrometry (GDMS) and laser ablation ICP-MS (LA-ICP-MS). Both techniques are considered routine techniques. Thus, they could provide reliable results which are traceable to the SI. Additionally, a procedure based on LA-ICP-IDMS was developed to significantly reduce the sample preparation step of ICP-IDMS with sulphur-matrix separation. This procedure is less laborious and the measurement results are still SI traceable and offer a comparatively high accuracy for LA-ICP-MS. Key for this development was the innovative application of polyethylene frits as support material for the dissolved sample. Thus, the quantification of sulphur in copper samples by LA-ICP-IDMS could be realized. The essential parameters are investigated such as the absorption efficiency of the frit and matrix effects. The developed procedure was fully validated by means of the ICP-IDMS results. Schwefelquantifizierung in Kupfer SI-Rückführung GDMS und LA-ICP-MS LA-ICP-IDMS Sulphur quantification in copper SI-traceability LA-ICP-IDMS 543 Analytische Chemie VN 7557 VG 9807 ZM 4650 ddc:543
345	Antimony and acetaldehyde migration from Nigerian and British PET bottles into water and soft drinks under typical use conditions : concentration of migrants and some trace elements in polyethylene terephthalate and in bottled contents Tukur, Aminu January 2011 (has links) Also aged bottles are safer to use than new bottles because their chemical leaching was found to be lower than that of new bottles. This study recommends the reassessment of the absence of international guidelines for acetaldehyde in water and foods. The study also recommends that the amount of acetaldehyde that can be added to soft drinks as flavouring agent should be below the specific migration limit (SML) for migration of acetaldehyde from PET bottle into bottle contents. This is essential since the SML was designed to ensure that exposure to acetaldehyde, as a result of intake of bottled water and soft drinks in PET bottles, is below the tolerable daily intake (TDI) for acetaldehyde. As antimony was reported to go beyond the safe limits in some Nigerian bottled water and soft drinks after 11 months of storage this study discourages the use of bottle contents stored for a very long time. 664
346	An investigation of arsenic in biological samples from unexposed volunteers in the UK Brima, Eid Ibrahim January 2007 (has links) This thesis describes studies on the analysis of arsenic (As) in human biological samples, mainly urine but also hair and fingernails using inductively coupled plasma mass spectrometry (ICP-MS) and graphite furnace atomic absorption spectrometry (GF-AAS). The relationship between ethnicity and arsenic metabolism was investigated for the first time for a population in the United Kingdom. This investigation has been carried out through comparative analysis of arsenic in human urine, hair and fingernails in volunteers from three different ethnic groups (Whites, Asians and Somali Black-Africans) who are only exposed to background levels of arsenic. Results obtained with 63 volunteers showed ethnic differences in urinary arsenic excretion as well as differences in arsenic levels in fingernail samples. The averages of total arsenic levels for the Somali Black-Africans (urine 7.2 µg/g creatinine; fingernails 723 µg/kg) are significantly (P< 0.05) different from both the Asians (urine 20.6 µg/g creatinine; fingernails 153.9 µg/kg) and Whites (urine 24.5 µg/g creatinine; fingernails 177.0 µg/kg). The Somali group also shows a higher percentage (50%) of dimethylarsinate (DMA) and a lower percentage (48%) of arsenobetaine (AB), compared to Asians (16% DMA and 83% AB) and Whites (22% DMA and 77% AB). The effect of fasting on urinary arsenic species distribution was also investigated by monitoring urine samples from 29 Ramadan fasting volunteers, with each volunteer providing a sample at the beginning (RF1) and at the end (RF2) of an approximately 12 hours fast. The results obtained showed the frequency of MA detection for RF2 was 12 and 2-fold higher than for the non-fasting and RF1 groups, respectively. This suggests fasting may alter the pattern of arsenic metabolism and excretion. However, there was no significant difference (P> 0.05) in the average of total level of arsenic for RF1 (18.3 µg/g creatinine) and RF2 (17.7 µg/g creatinine). A relationship between excretion of arsenic and selenium in individuals exposed to background levels of arsenic and selenium was investigated through analysis of urine samples from 93 volunteers from Leicester, UK. A positive correlation between arsenic and selenium was found and the As:Se ratio was 0.7 ± 0.4. The intra-individual variation of As:Se ratio does not alter significantly over time, as determined by monitoring urine samples from a volunteer over a period of one year. Furthermore, within a single day, with urine samples collected at the beginning and after a 12-hour fast, the As:Se ratio was found to be similar (0.7 ± 0.5). These findings suggest a close relationship between these two metalloids, the biological significance of which needs to be explored in the future. 614.1
347	Enhancing nucleic acid detection using inductively coupled plasma mass spectrometry, by means of metal and nano-particle labelling Kerr, Samantha Louise January 2008 (has links) The application of ICP-MS to the fields of proteomics and genomics has arisen in part due to its ability to detect and quantify trace levels of S and P, which are major constituents in proteins and nucleic acids respectively. The development of collision/reaction cell technology and high resolution instruments has enabled these biologically important elements to be measured and quantified at the pg - ng ml-1 level. Despite these advances, the detection limits of P and S are still inferior compared to other elements. Oligonucleotides containing biotin functionality were labelled with Au nano-particles attached to a streptavidin protein to achieve site specific labelling, with 100% labelling efficiency. Each nano-particle contained ~86 Au atoms, resulting in an 882 fold signal enhancement for 24 base length oligonucleotides. However, this enhancement factor was only observed when one oligonucleotide bound to one nano-particle in a 1:1 ratio. Much lower Au labelling efficiencies and signal enhancements were observed when thiolated oligonucleotides were labelled with maleimide functionalised gold nano-particles. This was attributed to the extensive and difficult sample preparation steps that were required prior to labelling. The detection and quantification of adducts formed between DNA and the Pt anti-cancer drugs cisplatin and oxaliplatin were also investigated with ICP-MS. Acid digestion of the carbon based DNA matrix enabled Pt adducts to be quantified at low dose rates of 1 Pt atom per 1 500 000 nucleotides in ~12 μg DNA. Such sensitive mass spectrometric determinations could be employed in clinical tests to detect and quantify low level adducts formed in patients in-vivo. To complement ICP-MS analysis, electrospray ionisation linear ion trap mass spectrometry was employed to study the interaction of oxaliplatin with the four DNA nucleobases. Multiple stage mass spectrometry enabled detailed Pt-nucleobase adduct fragmentation pathways to be established. The method of DNA detection using P in conjunction with the collision cell, or cool plasma to form PO+ was also demonstrated and the limitations of the method, namely, polyatomic interferences and severe matrix effects were highlighted. 572.072
348	Enhanced gel electrophoresis (GE) and inductively coupled plasma-mass spectrometry (ICP-MS) based methods for the identification and separation of proteins and peptides Haider, Syed January 2012 (has links) The main focus of the PhD study was to develop new gel electrophoresis and ICP-MS based methods to analyze a wide variety of the bio-molecules such as proteins, phosphoproteins and metalloproteins etc. The tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis (tricine-SDS-PAGE) method is commonly used to resolve low molecular mass proteins, however, it requires a high percentage gel and a very complicated procedure to achieve this separation. This study describes a modification to tricine-SDS-PAGE to make it more effective for the separation of smaller proteins and for coupling to ICP-MS. The modified method employs low percentage PAGE gels and low reagent concentrations that provide efficient separations, good quantitation and low matrix levels that are compatible with ICP-MS. This modified method was applied to analyze phosphopeptides. Phosphopeptides are very small in size and difficult to separate using the other techniques such as Laemmli SDS-PAGE, original tricine-SDS-PAGE, immobilized metal affinity chromatography (IMAC), size exclusion chromatography (SEC) etc. In this study a simplified procedure is described based on modifying the original tricine-SDS-PAGE method. A comparative study showed that this modified method successfully resolved a digest mixture of very low to high molecular mass phosphopeptides/peptides. In off-line coupling of this method with ICP-MS, much better recoveries of the peptides from the gel were obtained as compared to traditional methods which indicate the compatibility of this modified method for quantitative studies. An on-line coupling of the modified system with ICP-MS was also demonstrated and it was applied for the separation, detection and quantification of phosphopeptides. Another application of this modified system was the separation of serum proteins. Blood serum contains five major protein groups i.e., albumin, alpha-1 globulin, alpha-2 globulin, beta globulin and gamma globulin. The separation of these five major proteins in a single gel is difficult to achieve using traditional methods. The modified system was shown to be superior for the separation of these serum proteins in a 7% (m/v) native-PAGE gel and a cellulose acetate membrane. A further study was carried out into controlling the factors that cause metal loss and protein fragmentation in SDS-PAGE. Using a reducing sample buffer, and heating to high temperatures (90-100ºC) in alkaline or acidic conditions may cause protein fragmentation and decrease the metal binding affinity. 70ºC was found suitable to prepare the sample at neutral, alkaline or acidic pH as no fragmentation observed. To prevent metal loss, the binding constant (log K) values of metal-amino acids, play the major role. Those metals which have high binding affinities with the amino acids in proteins can also be affected by the variation of the pH so prior information about pH to maintain the binding constant values is essential to minimize metal loss. This was observed in the loss of zinc, and to a lesser extent copper from human serum albumin (HSA) as measured by inductively coupled plasma mass spectrometry (ICP-MS). The method described above was applied for the separation and quantification of the serum proteins obtained from age-related macular degeneration (AMD) patients (where the AMD patients were from Moorfields Eye Hospital, London). Zn and Cu were quantified employing external calibration. Zn concentration showed variation whilst Cu did not show any significant variations in samples from AMD patients. A brief study of the interaction of cisplatin and oxaliplatin with HSA and transferrin was also performed. Cisplatin bound much faster than oxaliplatin with HSA. After 24 hours incubation, cisplatin showed a decrease in signal intensity which indicates that cisplatin binding decreases with time. Cisplatin binding with transferrin as compared to HSA was not significant, which could be the result of unstable Pt-transferrin complex formation. Oxaliplatin did not show high binding to either protein, perhaps due to the presence of the bulky, non polar DACH ligand. 572
349	Effet du calcium, plomb et cuivre sur la bioaccumulation du cadmium et la production des phytochélatines par Chlamydomonas reinhardtii Abboud, Pauline 05 1900 (has links) Dans les milieux contaminés par les métaux, les organismes vivants sont exposés à plusieurs d’entre eux en même temps. Les modèles courants de prédiction des effets biologiques des métaux sur les organismes (p. ex., modèle du ligand biotique, BLM ; modèle de l’ion libre, FIAM), sont des modèles d’équilibre chimique qui prévoient, en présence d'un deuxième métal, une diminution de la bioaccumulation du métal d’intérêt et par la suite une atténuation de ses effets. Les biomarqueurs de toxicité, tels que les phytochélatines (PCs), ont été utilisés comme étant un moyen alternatif pour l’évaluation des effets biologiques. Les phytochélatines sont des polypeptides riches en cystéine dont la structure générale est (γ-glu-cys)n-Gly où n varie de 2 à 11. Leur synthèse semble dépendante de la concentration des ions métalliques ainsi que de la durée de l’ exposition de l’organisme, aux métaux. L'objectif de cette étude était donc de déterminer, dans les mélanges binaires de métaux, la possibilité de prédiction de la synthèse des phytochélatines par les modèles d’équilibres chimiques, tel que le BLM. Pour cela, la quantité de phytochélatines produites en réponse d’une exposition aux mélanges binaires : Cd-Ca, Cd-Cu et Cd-Pb a été mesurée tout en surveillant l’effet direct de la compétition par le biais des concentrations de métaux internalisés. En effet, après six heures d’exposition, la bioaccumulation de Cd diminue en présence du Ca et de très fortes concentrations de Pb et de Cu (de l’ordre de 5×10-6 M). Par contre, avec des concentrations modérées de ces deux métaux, le Cd augmente en présence de Cu et ne semble pas affecté par la présence de Pb. Dans le cas de la compétition Cd-Cu, une bonne corrélation a été observée entre la production de PC2, PC3 et PC4 et la quantité des métaux bioaccumulés. Pour la synthèse des phytochélatines et la bioaccumulation, les effets étaient considérés comme synergiques. Dans le cas du Cd-Ca, les quantités de PC3 et PC4 ont diminué avec le métal internalisé (effet antagoniste), mais ce qui était remarquable était la grande quantité de cystéine (GSH) et PC2 qui ont été produites à de fortes concentrations du Ca. Le Pb seul n’a pas induit les PCs. Par conséquent, il n’y avait pas de variation de la quantité de PCs avec la concentration de Pb à laquelle les algues ont été exposées. La détection et la quantification des PCs ont été faites par chromatographie à haute performance couplée d’un détecteur de fluorescence (HPLC-FL). Tandis que les concentrations métalliques intracellulaires ont été analysées par spectroscopie d’absorption atomique (AAS) ou par spectrométrie de masse à source plasma à couplage inductif (ICP-MS). / In contaminated environments, organisms are often exposed to multiple contaminants at the same time. Based upon the current models for predicting metal effects on organisms (e.g., Biotic Ligand Model, BLM, the free ion model, FIAM), the presence of a second metal is predicted to decrease the bioaccumulation and biological effects of the first. In contrast to this prediction, antagonistic, synergistic and additive effects have been well documented in the literature. Phytochelatins (PCs) are a family of thiol-rich peptides with a general structure (γ-Glu-Cys)n-Gly with n=2-11. PCs are involved in both metal homeostasis and the protection of plants from metal toxicity, through their role as metal chelators. Their synthesis depends upon the metal exposure, the duration of exposure and the biological species involved. Therefore, the objective of this study was to determine, in binary mixtures of metals, if the synthesis of phytochelatins could be predicted using equilibrium models, such as the BLM. The study initially examined binary mixtures: Cd-Ca, Cd-Pb and Cd-Cu by comparing the quantity of internalized metal to the amount of phytochelatins produced by Chlamydomonas reinhardtii in response to a metal stress. The bioaccumulation results, after six hours of exposure, showed that Cd decreased in the presence of Ca and very high concentrations of Pb and Cu. In contrast, it increased in the presence of Cu and remained unchanged in the presence of moderate concentrations of Pb. For mixtures of Cu and Cd, a good correlation was observed between the production of PC2, PC3 and PC4 and the quantity of internalized metals. Both bioaccumulation and phytochelatin synthesis were considered to be synergistic. For mixtures of Cd and Ca, the amount of PC3 and PC4 produced decreased with the internalized metal (antagonistic effect); however, in the presence of added Ca, GSH and PC2 production was much higher than predicted. The detection and quantification of the PCs were performed using an optimized protocol for high performance liquid chromatography coupled with fluorescence detection (HPLC-FL); metal uptake was determined using atomic absorption spectrometry (AAS) or inductively coupled plasma mass spectrometry (ICP-MS). Phytochélatines Bioaccumulation Cadmium HPLC-FL AAS métaux traces Plomb Cuivre ICP-MS Chlamydomonas reinhardtii Phytochelatins Calcium Cooper Lead
350	Prvkové a izotopické studium diferencovaných meteoritů a jeho význam pro původ a vývoj jejich mateřských těles / Elemental and isotopic study of differentiated meteorites and implications for the origin and evolution of their parent bodies Halodová, Patricie January 2011 (has links) ELEMENTAL AND ISOTOPIC STUDY OF DIFFERENTIATED METEORITES AND IMPLICATIONS FOR THE ORIGIN AND EVOLUTION OF THEIR PARENT BODIES Iron meteorites are differentiated meteorites composed largely of Fe-Ni alloys. The metallic phase of many iron meteorites shows a texture called the Widmanstätten pattern, which develops as a two-phase intergrowth of kamacite (α-bcc, ferrite) and taenite (γ-fcc, austenite), and forms by nucleation and growth of kamacite from taenite during slow cooling of the parent body. Selected iron meteorites - octahedrites of different structural and chemical groups (Canyon Diablo, Toluca, Bohumilitz, Horh Uul, Alt Biela, Nelson County, Gibeon and Joe Wright Mountain) were studied with intention to evaluate the scale and extent of Fe isotopic heterogeneities in iron meteorites and to find the possible link between the isotopic variations and thermal histories of the respective meteorite parent bodies. The Fe isotopic compositions of kamacite and taenite in the studied meteorites, obtained by three independent analytical techniques with different spatial resolution capabilities (laser ablation and solution MC ICP-MS and SIMS) show significant variations of up to ~4.5‰ in δ56 Fe. The taenite is isotopically heavier compared to kamacite in all studied meteorites. There is no correlation...

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