Synthesis of ¹¹C-labelled Alkyl Iodides : Using Non-thermal Plasma and Palladium-mediated Carbonylation Methods

Eriksson, Jonas

January 2006

<p>Compounds labelled with ¹¹C (<i>β</i>⁺, t_1/2 = 20.4 min) are used in positron emission tomography (PET), which is a quantitative non-invasive molecular imaging technique. It utilizes computerized reconstruction methods to produce time-resolved images of the radioactivity distribution in living subjects. </p><p>The feasibility of preparing [¹¹C]methyl iodide from [¹¹C]methane and iodine via a single pass through a non-thermal plasma reactor was explored. [¹¹C]Methyl iodide with a specific radioactivity of 412 ± 32 GBq/µmol was obtained in 13 ± 3% decay-corrected radiochemical yield within 6 min via catalytic hydrogenation of [¹¹C]carbon dioxide (24 GBq) and subsequent iodination, induced by electron impact. </p><p>Labelled ethyl-, propyl- and butyl iodide was synthesized, within 15 min, via palladium-mediated carbonylation using [¹¹C]carbon monoxide. The carbonylation products, labelled carboxylic acids, esters and aldehydes, were reduced to their corresponding alcohols and converted to alkyl iodides. [1-¹¹C]Ethyl iodide was obtained via palladium-mediated carbonylation of methyl iodide with a decay-corrected radiochemical yield of 55 ± 5%. [1-¹¹C]Propyl iodide and [1-¹¹C]butyl iodide were synthesized via the hydroformylation of ethene and propene with decay-corrected radiochemical yields of 58 ± 4% and 34 ± 2%, respectively. [1-¹¹C]Ethyl iodide was obtained with a specific radioactivity of 84 GBq/mmol from 10 GBq of [¹¹C]carbon monoxide. [1-¹¹C]Propyl iodide was synthesized with a specific radioactivity of 270 GBq/mmol from 12 GBq and [1-¹¹C]butyl iodide with 146 GBq/mmol from 8 GBq. </p><p>Palladium-mediated hydroxycarbonylation of acetylene was used in the synthesis of [1-¹¹C]acrylic acid. The labelled carboxylic acid was converted to its acid chloride and subsequently treated with amine to yield <i>N-</i>[<i>carbonyl</i>-¹¹C]benzylacrylamide. In an alternative method, [<i>carbonyl</i>-¹¹C]acrylamides were synthesized in decay-corrected radiochemical yields up to 81% via palladium-mediated carbonylative cross-coupling of vinyl halides and amines. Starting from 10 ± 0.5 GBq of [¹¹C]carbon monoxide, <i>N-</i>[<i>carbonyl</i>-¹¹C]benzylacrylamide was obtained in 4 min with a specific radioactivity of 330 ± 4 GBq/µmol. </p>

Organic chemistry

isotopic labelling

carbon-11

alkyl iodides

acrylamides

specific radioactivity

carbonylation

carbon monoxide

non-thermal plasma

PET

Organisk kemi

Synthesis of 11C-labelled Alkyl Iodides : Using Non-thermal Plasma and Palladium-mediated Carbonylation Methods

Eriksson, Jonas

January 2006

Compounds labelled with 11C (β+, t1/2 = 20.4 min) are used in positron emission tomography (PET), which is a quantitative non-invasive molecular imaging technique. It utilizes computerized reconstruction methods to produce time-resolved images of the radioactivity distribution in living subjects. The feasibility of preparing [11C]methyl iodide from [11C]methane and iodine via a single pass through a non-thermal plasma reactor was explored. [11C]Methyl iodide with a specific radioactivity of 412 ± 32 GBq/µmol was obtained in 13 ± 3% decay-corrected radiochemical yield within 6 min via catalytic hydrogenation of [11C]carbon dioxide (24 GBq) and subsequent iodination, induced by electron impact. Labelled ethyl-, propyl- and butyl iodide was synthesized, within 15 min, via palladium-mediated carbonylation using [11C]carbon monoxide. The carbonylation products, labelled carboxylic acids, esters and aldehydes, were reduced to their corresponding alcohols and converted to alkyl iodides. [1-11C]Ethyl iodide was obtained via palladium-mediated carbonylation of methyl iodide with a decay-corrected radiochemical yield of 55 ± 5%. [1-11C]Propyl iodide and [1-11C]butyl iodide were synthesized via the hydroformylation of ethene and propene with decay-corrected radiochemical yields of 58 ± 4% and 34 ± 2%, respectively. [1-11C]Ethyl iodide was obtained with a specific radioactivity of 84 GBq/mmol from 10 GBq of [11C]carbon monoxide. [1-11C]Propyl iodide was synthesized with a specific radioactivity of 270 GBq/mmol from 12 GBq and [1-11C]butyl iodide with 146 GBq/mmol from 8 GBq. Palladium-mediated hydroxycarbonylation of acetylene was used in the synthesis of [1-11C]acrylic acid. The labelled carboxylic acid was converted to its acid chloride and subsequently treated with amine to yield N-[carbonyl-11C]benzylacrylamide. In an alternative method, [carbonyl-11C]acrylamides were synthesized in decay-corrected radiochemical yields up to 81% via palladium-mediated carbonylative cross-coupling of vinyl halides and amines. Starting from 10 ± 0.5 GBq of [11C]carbon monoxide, N-[carbonyl-11C]benzylacrylamide was obtained in 4 min with a specific radioactivity of 330 ± 4 GBq/µmol.

Organic chemistry

isotopic labelling

carbon-11

alkyl iodides

acrylamides

specific radioactivity

carbonylation

carbon monoxide

non-thermal plasma

PET

Organisk kemi

Μελέτη της επίδρασης της εκφόρτισης του Υπόγειου υδροφόρου ορίζοντα στο σχηματισμό υποθαλάσσιων κρατήρων (pockmarks) στον Κόλπο του Ελαιώνα, με τη χρήση υδροχημικών και ισοτοπικών αναλύσεων / The study of the effect of groundwater seepage to pockmarks formation at Eleonas Bay, using hydrochemical and isotopic analyses

Ταβλά, Χριστίνα

14 May 2007

Στο πεδίο κρατήρων του Κόλπου του Ελαιώνα, παρατηρήθηκε διαφυγή γλυκού νερού (Christodoulou et al., 2002). Προκειμένου να διαπιστωθεί αν ο παράκτιος υδροφόρος εκφορτίζεται στη θάλασσα, έγινε δειγματοληψία νερού σε πηγές και γεωτρήσεις στη χέρσο και πραγματοποιήθηκαν υδροχημικές και ισοτοπικές αναλύσεις. / Groundwater seepage was observed in the pockmark field in Eleonas Bay (Christodoulou et al., 2002). In order to find out if the coastal aquifer seeps through the seafloor, water samples were taken from springs and boreholes and hydrochemical and isotopic analyses took place.

Κρατήρας

Υδροχημική ανάλυση

Ισοτοπική ανάλυση

Πηγές

Γεωτρήσεις

551.49

Pockmark

Groundwater seepage

Hydrochemical analysis

Isotopic analysis

Springs

Boreholes

FORMATION PROCESS OF STRUCTURE I AND II GAS HYDRATES DISCOVERED IN KUKUY, LAKE BAIKAL

Hachikubo, Akihiro, Sakagami, Hirotoshi, Minami, Hirotsugu, Nunokawa, Yutaka, Yamashita, Satoshi, Takahashi, Nobuo, Shoji, Hitoshi, Kida, Masato, Krylov, Alexey, Khlystov, Oleg, Zemskaya, Tamara, Manakov, Andrey, Kalmychkov, Gennadiy, Poort, Jeffrey

07 1900

Structure I and II gas hydrates were observed in the same sediment cores of a mud volcano in the Kukuy Canyon, Lake Baikal. The sII gas hydrate contained about 13-15% of ethane, whereas the sI gas hydrate contained about 1-5% of ethane and placed beneath the sII gas hydrate. We measured isotopic composition of dissociation gas from both type gas hydrates and dissolved gas in pore water. We found that ethane δD of sI gas hydrate (from -196 to -211 ‰) was larger than that of sII (from -215 to -220 ‰), whereas methane δ13C, methane δD and ethane δD in both hydrate structures were almost the same. δ13C of methane and ethane in gas hydrate seemed several permil smaller than those in pore water. These results support the following idea that the current gas in pore water is not the source of these gas hydrates of both structures. Isotopic data also provide useful information how the “double structure” gas hydrates formed.

gas hydrate

stable isotope

Lake Baikal

crystal structure

isotopic fractionation

ICGH 2008

Strategies to Improve Quantitative Proteomics: Implications of Dimethyl Labelling and Novel Peptide Detection

Boutilier, Joseph

21 March 2012

In quantitative proteomics, many of the LC-MS based approaches employ stable isotopic labelling to provide relative quantitation of the proteome in different cell states. In a typical approach, peptides are first detected and identified by tandem MS scans prior to quantifying proteins. This provides the researcher with a large amount of data that are not useful for quantitation. It is desirable to improve the throughput of current approaches to make proteomics a more routine experiment with an enhanced capacity to detect differentially expressed proteins. This thesis reports the developments towards this goal, including an assessment of the viability of stable dimethyl labelling for comparative proteomic measurements and the evaluation of a dynamic algorithm called Parallel Isotopic Tag Screening (PITS) for the detection of isotopically labelled peptides for quantitative proteomics without the use of tandem MS scans.

Quantitative Proteomics

Stable Diemthyl Labelling

Deuterium Isotopic Effect

Ecological niche metrics of coral reef piscivorous fishes: The effects of fishing revealed through stable isotope analyses

Burrill, Adrian

30 April 2014

Coral reefs are highly complex and also highly threatened ecosystems. Population growth and the unsustainable use of coral reefs have resulted in 55% of the world’s reefs being considered degraded. Fishing, the primary ‘local’ threat on most reefs, has altered the composition of most reef communities. As a result, very few pristine coral reefs remain. Typically, coral reef research is done via underwater visual censuses, providing abundance estimates but no indication of trophic interactions, therefore we know relatively little about the structure of intact reef food webs. Understanding how human activities affect trophic structure and feeding interactions among resident reef species may be important for coral reef conservation. Here, I apply stable isotope analysis to coral reef piscivorous fishes from Kiritimati (Republic of Kiribati), the world’s largest atoll. I examine dietary niche metrics of five focal species (Cephalopholis argus, Cephalopholis urodeta, Aphareus furca, Lutjanus bohar, and Lutjanus fulvus) and of the piscivore functional group as a whole, across an anthropogenic disturbance gradient that results from the atoll’s heavily skewed geographic population distribution. Using bootstrapped stable carbon (δ13C) and nitrogen (δ15N) isotope values, controlled for body size effects and analysed with Bayesian methods using the SIAR (Stable Isotope Analysis in R) program, I provide evidence of isotopic niche differentiation in C. argus and L. fulvus relative to other sampled species in terms of niche width metrics and mean δ13C and δ15N values. I also analyse the effect of fishing pressure at an individual level (controlling for body size effects on stable isotope signatures for each species), population level (accounting for observed differences in body size distributions across the fishing pressure gradient for each species), and the ‘community’ level (accounting for body size and relative abundance differences of the five piscivores across the fishing pressure gradient). These metrics reveal species-specific changes in niche metrics of three of the focal species at the individual level: C. urodeta, showed regionally distinct niche width metrics but no apparent correlation with fishing pressure, while A. furca and L. bohar, both had broader niche width metrics in heavily fished areas. No significant effect of fishing pressure was found at population or community levels. This study provides the first evidence using stable isotopes that fishing can alter the diets of coral reef fishes. The mechanism by which it can do so, while not entirely clear, would most likely be by expanding a given species’ dietary diversity by either forcing it to switch to non-preferred prey items or changing the diet and/or body size of its prey items, both of which would reflect significant ecological changes within a community. This thesis provides evidence of the utility of stable isotope analyses in answering important ecological questions in coral reef food webs, and reveals that fishing can affect reef communities at the most fundamental level of trophic interactions. / Graduate / 0329 / burrilladrian@gmail.com

Stable Isotope Analysis

Coral Reef Piscivores

Trophic Ecology

Isotopic niche metrics

Kiritimati

Niche width

Marine Ecology

Subsistence fishing

Etude de la contamination par les métaux et métalloïdes d’origine minière sur le bassin des Gardons : approche élémentaire (As, Cd, Hg, Pb, Sb, Tl, Zn) et isotopique (Sb, Zn) / Study of metal and metalloid contamination deriving from mining activities in the Gardon River hydrosytem (SE, France) : elemental (As, Cd, Hg, Pb, Sb, Tl, Zn) and stable isotope geochemistry (Sb, Zn) approache

Resongles, Eléonore

28 November 2014

L'objectif général de cette thèse est de mieux comprendre l'influence d'anciens sites miniers sur la contamination en métaux (Cd, Hg, Tl, Pb, Zn) et métalloïdes (As, Sb) de l'hydrosystème aval. Une attention particulière a été portée à l'antimoine (Sb), dont le comportement dans les cours d'eau contaminés par les drainages miniers reste mal connu et dont la signature isotopique pourrait permettre de tracer différentes sources et processus. Le site d'étude est le bassin des Gardons dans le Gard ; ce cours d'eau Cévenol draine de nombreux sites miniers abandonnés (Pb, Zn, Sb, charbon). L'enrichissement en métaux et métalloïdes a été étudié dans les sédiments actuels et anciens du bassin des Gardons. Un historique de la contamination métallique a été reconstitué à l'aide d'une archive sédimentaire. Les sources prépondérantes de métaux et métalloïdes dans les sédiments ont été déterminées ainsi que la mobilité potentielle de ces éléments vers la phase aqueuse. En complément, les variations de concentrations en métaux et métalloïdes dans les phases dissoute et particulaire ont été étudiées lors d'un épisode de crue grâce à un échantillonnage à haute résolution temporelle. Dans leur ensemble, les résultats montrent que les anciennes mines du bassin des Gardons contribuent à l'enrichissement en métaux et métalloïdes du cours d'eau aval, particulièrement en période de crue. Plus spécifiquement, le comportement de l'antimoine a été étudié dans un affluent du Gardon impacté par du drainage minier acide en aval de l'ancienne mine de Carnoulès et la composition isotopique de l'antimoine a été déterminée dans des eaux prélevées sur le bassin des Gardons et de l'Orb amont, après mise au point d'un protocole de purification/pré-concentration de Sb. Les résultats mettent en évidence le potentiel des isotopes de l'antimoine pour tracer l'origine de cet élément et les processus qu'il subit au cours de son transfert dans les cours d'eau impactés par du drainage de mine. / The overall objective of this thesis was to improve understanding of the influence of former mining sites on metal (Cd, Hg, Tl, Pb, Zn) and metalloid (As, Sb) contamination of the downstream hydrosystem. A special care was given to antimony (Sb), its behavior in mining-impacted streams remains poorly known and its isotopic signature could be usefull to track sources and processes. The study site is the Gardon River watershed in the south-east of France which drains many abandoned mining sites (Pb, Zn, Sb, coal). Metal and metalloid enrichment was studied in current and historical sediments of the Gardon River watershed. A sedimentary archive was used to investigate past metal contamination history. The prevailing metal and metalloid sources in sediments were determined together with the potential mobility of these elements toward the aqueous phase. In addition, dissolved and particulate metal and metalloid concentration variations were studied during a flood event using a high temporal resolution sampling. Altogether, the results suggest that former mining sites of the Gardon River watershed contribute to metal and metalloid enrichment of the downstream hydrosystem, especially during floods. More specifically, antimony behavior was investigated in a tributary of the Gardon River which is impacted by acid mine drainage originating from the disused Carnoulès mine and antimony isotopic composition was determined in waters collected in the Gardon River watershed and in the Upper Orb River after developing a protocol for preconcentrating and purifying Sb. The results highlight the potential of antimony isotopes to track the origin of this element and the processes that it undergoes during its transfer in streams impacted by mine drainage.

Pollution d'origine minière

Métaux

Métalloïdes

Géochimie isotopique (Zn; Sb)

Mining pollution

Metals

Metalloids

Isotopic geochemistry (Zn; Sb)

Optical feedback frequency-stabilized cavity ring-down spectroscopy - Highly coherent near-infrared laser sources and metrological applications in molecular absorption spectroscopy / Spectroscopie en cavité par temps de déclin stabilisée en fréquence par rétroaction optique - Sources laser de haute cohérence dans le proche infrarouge et applications métrologiques à la spectroscopie d'absorption moléculaire

Burkart, Johannes

25 September 2015

La spectroscopie d'absorption moléculaire est un outil incontournable non seulement pour la physique fondamentale et la métrolgie mais aussi pour des domaines aussi divers que les sciences environnementales, la planétologie ou l'astrophysique. Ces dernières années, des techniques spectroscopiques qui exploitent l'amplification résonnante d'interaction entre lumière laser et molécules dans une cavité optique ont fourni des détectivités exceptionnelles sur l'axe d'absorption, tandis que l'axe de fréquence des spectromètres n'atteignait généralement pas le même niveau de précision.Dans cette thèse, nous avons répondu à ce défi en développant la spectroscopie en cavité par temps de déclin stabilisée en fréquence par rétroaction optique (OFFS-CRDS en anglais). Cette nouvelle technique présente une combinaison unique de stabilité et résolution fréquentielles sub-kHz, d'un niveau d'intensité lumineuse intra-cavité de l'ordre du kW/cm^2, d'une detectivite de 2 x 10^(−13) cm^(−1)Hz^(-1/2) limitée par le bruit de photons, et d'une limite de détection de 8.4 x 10^(−14) cm^(−1) sur une plage spectrale étroite. Ces performances inédites sont dues à l'asservissement de la cavité spectroscopique à un laser balayé en fréquence par modulation à bande latérale unique et stabilisé par rétroaction optique avec une cavité en V de réference ultrastable. Pour transférer la cohérence de ce laser sub-kHz à des lasers plus bruiteux dans d'autres gammes spectrales à travers un peigne de fréquence optique, nous avons exploré une nouvelle méthode de clonage de phase par une correction anticipative à large bande passante et démontré une erreur résiduelle de phase de 113 mrad. En appliquant l'OFFS-CRDS à la spectroscopie du CO2 à 1.6 μm, nous avons obtenu un spectre large bande avec une dynamique de 8 x 10^5, et nous avons déterminé douze fréquences de transition absolues avec une exactitude de l'ordre du kHz en mesurant des Lamb dips sub-Doppler en absorption saturée avec un dispositif équipé d'un peigne de fréquence. Par ailleurs, nous avons procédé à une analyse détaillée des sources d'erreurs systematiques en CRDS et nous avons déduit une formule analytique pour le déclin de cavité non-exponentiel dans un régime faiblement saturé qui est susceptible de contribuer à de futures mesures de moments de transition dipolaire indépendantes de la concentration. Nos résultats ouvrent des perspectives prometteuses pour des applications métrologiques de l'OFFS-CRDS, comme par exemple l'étude de profils de raie poussés, la mesures de rapports isotopiques et la spectroscopie d'absorption saturée extensive dans le proche infrarouge. / High-precision molecular absorption spectroscopy is a powerful tool for fundamental physics and metrology, as well as for a broad range of applications in fields such as environmental sciences, planetology and astrophysics. In recent years, spectroscopic techniques based on the enhanced interaction of laser light with molecular samples in high-finesse optical cavities have provided outstanding detection sensitivities on the absorption axis, while the spectrometer frequency axis rarely met as high precision standards.In this thesis, we addressed this challenge by the development of Optical Feedback Frequency-Stabilized Cavity Ring-Down Spectroscopy (OFFS-CRDS). This novel technique features a unique combination of sub-kHz frequency resolution and stability, kW/cm^2-level intracavity light intensity, a shot-noise limited absorption detectivity down to 2 x 10^(−13) cm^(−1)Hz^(-1/2), as well as a detection limit of 8.4 x 10^(−14) cm^(−1) on a narrow spectral interval. This unprecedented performance is based on the tight Pound-Drever-Hall lock of the ring-down cavity to a single-sideband-tuned distributed-feedback diode laser which is optical-feedback-stabilized to a highly stable V-shaped reference cavity. To transfer the coherence of this sub-kHz laser source to noisier lasers in other spectral regions through an optical frequency comb, we have explored a novel high-bandwidth feed-forward phase cloning scheme and demonstrated a residual phase error as low as 113 mrad. Applying OFFS-CRDS to the spectroscopy of CO_2 near 1.6 μm, we obtained a broadband spectrum with a dynamic range of 8 x 10^5 and retrieved twelve absolute transition frequencies with kHz-accuracy by measuring sub-Doppler saturated absorption Lamb dips with a comb-assisted setup. Furthermore, we have performed a comprehensive analysis of systematic error sources in CRDS and derived an analytic formula for the non-exponential ring-down signal in a weakly saturated regime, which may contribute towards future concentration-independent transition dipole moment measurements. Our results open up promising perspectives for metrological applications of OFFS-CRDS, such as advanced absorption lineshape studies, isotopic ratio measurements and extensive saturated absorption spectroscopy in the near infrared.

Spectroscopie moléculaire

Crds

Laser

Rétroaction optique

Spectroscopie de saturation

Rapport isotopique

Molecular spectroscopy

Crds

Laser

Optical feedback

Saturation spectroscopy

Isotopic ratio

Nízkoenergetické procesy při srážce H + H- / Low-energy processes in H + H- collision

Eliášek, Jiří

January 2014

In this work we generalize existing theory of low-energy collisions of atomic hydrogen with its anion. We extend the non-local resonance model for this system by adding new discrete state and two continua that are coupled with it. We calculate numerically cross sections for associative electron detachment process that is important for models of early universe. We add cross section for collision detachment and show spectra of outgoing electrons. We show how the isotopic effect is involved in studied collision. We also calculate charge transfer, elastic scattering cross sections, and reaction rates for hydrogen collisions with deuterium anion. We compare our results with recent experiments and we discuss their reliability. Powered by TCPDF (www.tcpdf.org)

Approche moléculaire pour quantifier la biodégradation des micropolluants en aval des stations d’épuration. Evaluation des outils de fractionnements isotopique et énantiomérique / Molecular approach to quantify micropollutants biodegradation downstream from wastewater treatment plants. Evaluation of isotopic and enantiomeric fractionation tools

Souchier, Marine

11 December 2015

La présence avérée de produits pharmaceutiques et de soin personnels (PPSP) dans le milieu aquatique est principalement due à leur élimination incomplète dans les stations d’épuration (STEP). Ces molécules sont susceptibles de générer des effets néfastes sur les organismes vivants du milieu naturel. Une évaluation préalable des risques qui peuvent être engendrés par les PPSP est nécessaire pour qu’ils puissent être gérés correctement et sûrement par les principaux acteurs du cycle de l’eau tels que les pouvoirs publics et les grandes entreprises de l’environnement, dont fait partie Veolia. La démarche d’évaluation des risques nécessite d’avoir accès à des données sur les processus de biodégradation des PPSP dans l’environnement. Actuellement, les données disponibles sont qualitatives ou semi-quantitatives en raison de l’absence d’outils de mesure quantitatifs adéquats. L’objectif de ce travail de thèse a ainsi consisté à développer des outils pour quantifier spécifiquement les processus de biodégradation des PPSP in situ à des concentrations environnementales. Deux outils complémentaires ont été sélectionnés pour être évalués : le fractionnement énantiomérique, dans le but de quantifier la biodégradation des PPSP chiraux, et le fractionnement isotopique, limité à celui du chlore, dans le but de mesurer la biodégradation des PPSP chlorés. Pour évaluer ces outils, des analyses d’occurrence sur le terrain et des études cinétiques et mécanistiques en laboratoire ont été réalisées sur cinq molécules modèles : deux produits pharmaceutiques chiraux (un bêtabloquant, le métoprolol et un antidépresseur, la venlafaxine) et trois PPSP chlorés (deux biocides, le triclocarban et le triclosan, et un anti-inflammatoire non stéroïdien, le diclofénac). Nos travaux ont démontré que l’utilisation du fractionnement isotopique du chlore seul est peu adaptée à l’étude quantitative de la biodégradation des PPSP chlorés. Une approche isotopique multiéléments serait plus propice pour quantifier les processus de biodégradation. Par ailleurs, les expériences réalisées ont permis d’approfondir l’état des connaissances sur les voies et mécanismes de biodégradation des PPSP étudiés. La déchloration du triclosan dans les sédiments en aval des STEP a été mise en évidence pour la première fois. Concernant le triclocarban, cette réaction était déjà connue mais les mécanismes réactionnels de déchloration sous-jacents ont été élucidés en milieux aérobie et anaérobie. Les résultats obtenus sur l’outil énantiomérique sont très encourageants. Ils démontrent, à l’aide du métoprolol, l’existence d’une relation linéaire entre biodégradation et variations énantiomériques à la fois en conditions contrôlées et dans les STEP. Le fractionnement énantiomérique constitue donc un bon outil quantitatif de la biodégradation du métoprolol. Des études supplémentaires sont néanmoins nécessaires pour étendre ces résultats à d’autres molécules. D’autre part, l’analyse des concentrations et de la stéréochimie des produits de transformation du métoprolol a confirmé que ce composé se biodégrade stéréosélectivement en métoprolol acide et un mécanisme réactionnel a été proposé pour expliquer ces observations. Les cinétiques associées aux réactions de dégradation des PPSP étudiés doivent être mesurées in situ pour évaluer la capacité du milieu naturel à éliminer ces composés, d’où l’importance de rendre opérationnels les indicateurs quantitatifs étudiés au cours de la thèse. Croisées avec des données d’écotoxicité, les informations quantitatives sur la biodégradation peuvent aider les pouvoirs publics à cibler les PPSP qui nécessitent d’être régulés en priorité. Elles peuvent également aider les opérateurs privés à orienter leurs stratégies de réduction d’émission à la source et l’optimisation des procédés de traitement des eaux afin que ces derniers éliminent en priorité les micropolluants les plus à risque. / The widespread occurrence of pharmaceutical and personal care products (PPCP) in surface waters, due to their incomplete removal in wastewater treatment plants (WWTP), is of concern since these compounds may be harmful to living organisms. Environmental risks associated with the presence of PPCP in aquatic environment have to be evaluated in order to help the main actors involved in the water cycle such as public authorities and environmental companies, including Veolia, to manage them properly. Quantitative and qualitative assessment of in situ biodegradation of PPCP is a major need in the context of risk assessment. Quantitative information remains scarcely available due the lack of appropriate methods. The objective of this work was then to develop tools able to quantify specifically in situ biodegradation of PPCP at trace levels. Two different tools have been selected to be evaluated, namely enantiomeric fractionation dedicated to chiral compounds and isotopic fractionation limited to chlorine-isotope analysis dedicated to chlorinated PPCP. To evaluate these tools, environmental occurrence studies and in vitro mechanistic and kinetic studies were together performed using five probe compounds : two chiral PPCP (a beta-blocker, the metoprolol and an antidepressant, the venlafaxine) and three chlorinated PPCP (two biocides, the triclocarban and the triclosan, and a nonsteroidal anti-inflammatory drug, the diclofenac). These experiments demonstrated that chlorine isotope fractionation can hardly provide quantitative information on in situ biodegradation of chlorinated PPCP. Multi-dimensional isotopic fractionation might be better adapted to quantify biodegradation. Furthermore, through the experiments, new insights on biodegradation pathways and mechanisms of the studied compounds have also been gained. Dechlorination of triclosan within sediment has been evidenced for the first time. Concerning triclocarban, dechlorination of this compound in environment had already been reported in previous studies but aerobic and anaerobic dechlorination mechanisms have been elucidated in the present study. Results obtained on enantiomeric fractionation demonstrated that this tool is very promising. Experiments using metoprolol as probe compound showed existence of a linear relationship between enantiomeric enrichment and the extent of biodegradation both under controlled conditions and within WWTP. Enantiomeric enrichment might then constitute a good indicator of in situ biodegradation of metoprolol. Supplementary studies are needed to extrapolate these results to other micropollutants. In addition, stereoselective degradation of metoprolol in acid metoprolol within WWTP and under controlled conditions has been observed similarly to other studies and one degradation mechanism has been proposed to explain the reaction stereochemistry. In situ kinetics associated with degradation pathways of the studied PPSPs have to be measured to assess the ability of the environment to eliminate these compounds, hence the importance of making operational the quantitative indicators studied in this thesis. Crossed with ecotoxicity data, quantitative information on biodegradation can help public authorities to target PPCPs that need to be regulated first. They can also help private operators to direct their source reduction strategies and their water treatment process optimization so that they eliminate in priority the most risked micropollutants.

Biodégradation

Fractionnement énantiomérique

Fractionnement isotopique

Biodegradation

Enantiomeric fractionation

Isotopic fractionation