Bioflavouring piv pomocí studeného chmelení za použití českých chmelů / Beer bioflavouring by dry hopping using czech cultivars of hops

Gajdušek, Martin

January 2021

This diploma thesis deals with the influence of dry hopping on selected analytical and sensory properties of beer. The effect of dry hopping was observed using Czech hop varieties Kazbek and Uran, which were added to the wort during the main fermentation phase in doses of 3 and 6 gdm-3. The contact time of hops with wort was 3, 6 and 9 days. The experimental part describes the technology of preparation of the reference beer, in which dry hopping were subsequently performed. A parallel measurement was performed on each sample. In terms of the basic parameters of beer, the effect of dry hopping, especially its length, on the ethanol content was observed. With a longer period of dry hopping, the concentration of ethanol in beer increased. The higher alcohol concentration was also associated with a decrease in the apparent extract. In terms of color and pH of beer, the effect of dry hopping has not been proven. Elemental analysis performed by optical emission spectrometry with inductively coupled plasma revealed an increase in the concentration of calcium, magnesium, and iron due to dry hopping. No statistically significant difference was observed for manganese and barium compared to the reference. In terms of bitterness, a significant increase was identified in dry hopped beers compared to the reference, the value being dependent on the dose of hops used. The effect of the hop variety has not been proved. Concentrations of organic acids determined by ion-exchange chromatography with a conductivity detector were affected by dry hopping only in the case of lactic acid and acetic acid. An increase in lactic acid was observed compared to the reference, also related to the degree of fermentation. While in the acetic acid content the hop samples showed a lower concentration than the reference sample. The concentrations of myrcene, humulene and geraniol were determined by gas chromatography with a mass detector. These are volatile components of hop essential oils. Dry hopped samples recorded significantly higher concentrations of all aromatic substances compared to the reference. In terms of hop time, the highest concentrations were shown by samples hopped for three days. The results of the sensory analysis show that the overall best rated sample is a sample hopped with the Kazbek variety with a dose of 3 gdm-3 for three days. Beer which was dry hopped for the shortest time also showed the lowest intensity of bitterness, which was perceived positively.

Aromaticky aktivní látky vybraných druhů bylin / Aroma active compounds of selected types of herbs

Škutová, Pavla

January 2018

This diploma thesis deals with the identification of aroma active compounds in medicinal herbs. The group consists of 5 types of herbs: lemon balm (Melissa officinalis), pot marigold (Calendula officinalis), clary sage (Salvia sclarea), milk thistle (Silybum marianum), goat’s rue (Galega officinalis). These plants are known for their positive effects in folk medicine. The SPME-GC-MS method was chosen to characterize the fragrances. During the identification of volatile compounds, emphasis was put on suspected fragrance allergens listed in EC Regulation 1223/2009 in Annex III. Overall 106 compounds were identified together with 8 allergens in lemon balm, pot marigold contained 104 compounds with 7 allergens included, 82 compounds including 5 allergens in clary sage, 73 compounds were identified in milk thistle including 6 allergens and 110 compounds with 9 allergens included in goat’s rue.

Využití separačních technik ve spojení s hmotnostní spektrometrií pro stanovení environmentálně významných látek / Application of Separation Techniques Connected with Mass Spectrometry for the Analysis of Environmentally Important Compounds

Mácová, Daniela

January 2012

The identification of the hydrolysis and photodegradation products of flexible polyurethane foams (PUFs) with addition of biooriginated and biodegradable additive was the first topic of this dissertation work. Separation of polyurethane foam hydrolysis degradation products, designed for ecotoxicological tests, was managed by high-performance liquid chromatography coupled with mass spectrometry (HPLC/MS). The degradations product structure was elucidated by tandem mass spectrometry (MSn). PUF photodegradation products were obtained by exposure of materials by irradiation at 254 nm. Semi-volatile degradation products were isolated from the exposed polyurethane by n-hexane extraction; volatile compounds were collected by solid phase microextraction (SPME). Gas chromatography with mass spectrometry (GC/MS) and complete orthogonal tandem gas chromatography with mass spectrometry (GCxGC/TOF MS) was used for separation and identification of photodegradation products. The influence of the bio-filler on the character of degradation products and the possible effect of PUF degradation products on the environment was discussed at the end of this section. The determination of isoprostanes – markers of oxidative stress in tissues of beadlet anemone (Actinia equina) was the subject of the second topic. F2-isoprostanes were synthesized from the arachidonic acid. With thereby prepared isoprostanes the method of determination by liquid chromatography with tandem mass spectrometry (HPLC/MS/MS) was developed and optimized. The isoprostane isolation process from the Actinia equina tissues was optimized with solid phase extraction (SPE). The resulting methodology was used to quantify isoprostanes in tissues of anemones, which were exposed to both moderate and high temperature changes. The temperature changes were used to initiate the oxidative stress in organisms. In addition, concentration levels of unknown compounds were also monitored. These unknown compounds were extracted from tissues together with F2-isoprostanes and their identity is discussed in this dissertation work too. The possibility of using isoprostane levels in the Anthozoa tissues for the oxidative stress monitoring is discussed in the conclusion of this work.

Mitochondrie jako cíl protinádorové terapie. / Mitochondria as a target of anticancer therapy.

Dvořák, Aleš

January 2017

Mitochondrial isocitrate dehydrogenase 2 (IDH2) catalyzes reductive carboxylation (RC, reverse Krebs cycle pathway) and 2HG synthesis (2HG) - metabolite of which many scientists are interested. 2HG may be concurrently synthetized in cytosol by IDH1. RC is involved in anabolic reactions necessary for cell proliferation - produces citrate, fatty acid precursor - especially in hypoxia. IDH2 and IDH1 are not the only enzymes that are involved in 2HG synthesis. Recently, several enzymes, which participate in 2HG production, have been discovered. 2HG is useful in cancer diagnostics due to its overproduction by transformed cells. Moreover, 2HG may cause epigenetic changes via inhibition of 2-oxoglutarate dependent dioxygenase. In this work, the importance of RC and 2HG synthesis in cancer and healthy cells was investigated by gas chromatography with mass spectrometry detection as well as IDH2 influence. We found that IDH2 significantly participates in reverse RC and 2HG synthesis in breast cancer cell lines and uses glutaminolysis as a supplementary anaplerotic pathway. RC is increased by hypoxia, inhibition of respiration, and decreased by activation of respiration or hypocapnia. We confirmed 2HG synthesis and RC in healthy cells (fibroblasts, breast epithelial cells etc.) as well as in cancer cells....

Effect of Phosphorus Starvation on Metabolism and Spatial Distribution of Phosphatidylcholine in Medicago truncatula Wild-Type and PDIL3 Genotypes

Dokwal, Dhiraj

08 1900

Symbiotic nitrogen (N) fixation (SNF) occurs in specialized organs called nodules after successful interactions between legume hosts and rhizobia. Within nodule cells, N-fixing rhizobia are surrounded by plant-derived symbiosome membranes, through which the exchange of nutrients and ammonium occurs between bacteria and the host legume. Phosphorus (P) is an essential macronutrient, and N2-fixing legumes have a higher requirement for P than legumes grown on mineral N. First, I investigated the impact of P deprivation on wild-type Medicago truncatula plants. My observations that plants had impaired SNF activity, reduced growth, and accumulated less phosphate in P-deficient tissues (leaves, roots and nodules) is consistent with those of similar previous studies. Galactolipids decreased with increase in phospholipids in all P-starved organs. Matrix-assisted laser desorption/ionization–mass spectrometry imaging (MALDI-MSI) of phosphatidylcholine (PC) species in nodules showed that under low P environments distributions of some PC species changed, indicating that membrane lipid remodeling during P stress is not uniform across the nodule. Secondly, a metabolomics study was carried out to test the alterations in the metabolic profile of the nodules in P-stress. GC-MS based untargeted metabolomics showed increased levels of amino acids and sugars and decline in amounts of organic acids in P deprived nodules. Subsequently, LC-MS/MS was used to quantify these compounds including phosphorylated metabolites in whole plant. My findings showed strong drop in levels of organic acids and phosphorylated compounds in P deprived leaves with moderate reduction in P deprived roots and nodules. Moreover, sugars and amino acids were elevated in whole plant under P deprivation. Finally, the last project of my thesis involved studying the response of PDIL3 (Phosphate Deficiency-Induced LncRNA-3) a long non-coding RNA (lncRNA) mutant under severe P stress. PDIL3 is known to regulate Pi-deficiency signaling and transport in M. truncatula (Wang et al., 2017). My results confirmed that in P starvation, pdil3 plants showed better shoot growth, accumulated more phosphate in shoots, had impaired SNF and less rhizobial occupancy in nodules than WT. Subsequently, MALDI–MS imaging was used to spatially map and compare the distribution of phosphatidylcholine (PC) species in nodules of pdil3 and WT in P-replete and P-depleted conditions. Several PC species showed changes in distributions in pdil3 nodules compared to WT in both P sufficient and P deprived conditions. These data suggest that PDIL3's role is not just suppression of the Pi transporter, but it may also influence P partitioning between shoots and nodulated roots, meriting further investigation.

ESI-MS

MALDI-MS Imaging

Medicago truncatula

membrane lipids

nodule

phosphorus deprivation

symbiotic nitrogen fixation

GC-MS

LC-MS/MS

phosphorus

sugars

amino acids

organic acids

phosphorylated compounds

Biology, Genetics

Investigation of Anaplerosis from Propionyl-CoA Precursors and Fatty Acid Oxidation in the Brain of VLCAD and Control Mice

Wang, Xiao

21 July 2009

No description available.

Biochemistry

Biology

Biomedical Research

Nutrition

GC-MS

LC-MS

FOD

fatty acid oxidation

fatty acid oxidation disorders

VLCAD

very-long-chain acyl-CoA dehydrogenase

anaplerosis

brain

triheptanoin

anaplerotic therapy

glutamate

glutamine

GABA

TARGETED AND NON-TARGETED METABOLITE ANALYSIS FOR DISEASE RISK ASSESSMENT: MEASURING BIOMARKERS OF SMOKE EXPOSURE AND HABITUAL DIET

Wellington, Nadine L

January 2019

Exposomics applies metabolomics methods and technologies to the comprehensive analysis of all low molecular weight molecules (< 1.5 kDa) in complex biological samples to characterize the interaction between cellular metabolism and exogenous lifestyle exposures that determine health and quality of life. To fully access the diverse classes of biological molecules related to an individual’s metabolic profile, metabolomics frequently requires the use of complementary analytical platforms, and employs targeted and untargeted molecular profiling strategies to identify biomarkers that are clinically relevant to an individual’s health status. Chapter 2 describes a quinoline-based boronic acid biosensor for N-acetylneuraminic acid that undergoes a striking binding enhancement under strongly acidic conditions. For the first time, this work allows for direct analysis of acidic sugars with high selectivity when using UV absorbance or fluorescence detection based on formation of a highly stable boronate ester complex with metabolites containing an α-hydroxycarboxylate moiety. Chapter 3 describes a targeted analysis of 24 different organic contaminants using GC-MS that can serve as biomarkers of recent smoke exposure following search-and-rescue training exercises by firefighters located at three different sites across the province of Ontario. Importantly, skin and possible respiratory uptake of various polycyclic aromatic hydrocarbons, methoxyphenols, and resin acids was confirmed by peak excretion of several wood smoke biomarkers in urine within 6 h following acute exposure. Chapter 4 applied a cross-platform metabolomics strategy based on CE-MS and GC-MS in order to identify and validate dietary biomarkers in matching plasma and urine samples collected from healthy participants in the pilot Diet and Gene Interaction Study (DIGEST). For the first time, we demonstrate that a panel of metabolites can serve as reliable biomarkers following contrasting Prudent and Western diets over 2 weeks of food provisions, which correlated well with self-reported diet records. This work paves the way for the development of objective biomarkers for accurate assessment of wood smoke exposures, as well as complex dietary patterns as required for new advances in occupational health and nutritional epidemiology. / Dissertation / Doctor of Philosophy (PhD) / Exposomics is an emerging multidisciplinary science aimed at deciphering the complex interactions that impact human health and gene expression, such as lifestyle choices (i.e., habitual diet) and lifelong environmental exposures. There is growing interest in identifying biomarkers that can be readily measured for chronic disease prevention given an alarming global prevalence of obesity and cardiometabolic disorders, including heart disease, type 2 diabetes and cancer. The research in this thesis focuses on developing new analytical methods for identifying and quantifying metabolites that may allow for better assessments of human health, and has contributed to the development of novel biosensors for the targeted analysis of N-acetylneuraminic (sialic) acid and related acidic sugars, as well as high resolution methods for broad spectrum analysis of biotransformed organic contaminants from smoke exposure by GC-MS, and plasma and urinary metabolites that differentiate contrasting Prudent and Western diets and correlate well with self-reported diet records.

Estudio de las plantas laticíferas como potenciales cultivos energéticos para clima semiárido

Escrig Aparici, Pablo

07 July 2014

La excesiva dependencia del petróleo en nuestra sociedad, un recurso natural no renovable, ha provocado en los últimos años un interés creciente en los biocombustibles. Esto se ha traducido principalmente en un impulso en la investigación de las tecnologías destinadas en convertir los recursos vegetales en combustibles. Sin embargo, las fuentes de biocombustibles compiten generalmente en recursos (tierra y agua) con los cultivos destinados a la alimentación, siendo imprescindible la búsqueda de cultivos energéticos sostenibles y con pocos requerimientos de riego y fertilización. El látex es un líquido blanco y viscoso de composición similar a la del crudo de petróleo (compuestos hidrocarbonados), el cual puede convertirse en combustible utilizando las instalacions de las refineries convencionales. Las plantas laticíferas son abundantes en el entorno mediterráneo, y por tanto muy adaptadas a condiciones climáticas semiáridas. En los años 70, Melvin Calvin inició una investigación sobre diversas plantas del género Euphorbia, con el propósito de averiguar el rendimiento potencial en producción de látex. En la presente tesis doctoral, se ha seleccionado E. characias por su composición química y características agronómicas, de entre diversas especies potenciales bioenergéticamente de plantas laticíferas de la zona mediterránea. De esta especie se ha estudiado su rendimiento potencial en Kg ha-1 de látex en distintas condiciones edafológicas, de riego y de salinidad, para determinar cuáles son las condiciones óptimas de cultivo de esta planta y como reacciona frente a condiciones adversas. Los resultados han mostrado que E. characias podría proporcionar una producción de 5600 Kg ha-1 de materiales transformables en combustibles, de los cuales 1300 Kg ha-1 corresponderían a compuestos hidrocarbonados del látex, y 4300 Kg ha-1 serían carbohidratos fácilmente fermentables en etanol. Puesto que se trata de una planta muy adaptada al entorno mediterráneo, consideramos que E. characias es un candidato potencial como fuente de cultivo energético eficiente y sostenible. / Escrig Aparici, P. (2014). Estudio de las plantas laticíferas como potenciales cultivos energéticos para clima semiárido [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/38617

Biocombustibles

Plantas laticíferas

Látex

Isopreno

Melvin Calvin

Biomasa

Estudio agronómico

Estrés hídrico

Salinidad

Araujia sericifera

Biocombustibles secundarios

Biocombustibles de segunda generación

Compuestos hidrocarbonados

RMN

GC-MS

Hexano

Metanol

Azúcares

Extracto hexánico

Extracto metanólic

Etude de la production et de l'émanation de composés volatils malodorants sur textile à usage sportif / Production and emission of human body odors from textile for sports

Léal, Françoise

04 November 2011

Si la sueur fraîchement émise par le corps humain est inodore, la dégradation de celle-ci par la flore bactérienne cutanée produit des composés volatils malodorants, responsables des odeurs de transpiration. Les odeurs de transpiration apparaissent également sur les vêtements au cours de leur utilisation, particulièrement sur les textiles réalisés en fibres synthétiques. Ce travail a pour but d’améliorer la compréhension du phénomène d’émanation d’odeurs en étudiant l’effet du sujet testé, l’effet de la flore bactérienne et l’effet du textile sur les émissions de composés volatils malodorants.L’intérêt de ce travail réside dans l’approche globale de la problématique des odeurs de transpiration et dans la diversité des méthodes de mesure mises en place, tant dans l’étude de la flore microbiologique que dans les méthodes de mesures des composés odorants émis.Dans un premier temps, le dénombrement simultané de la flore bactérienne sur la peau et sur le vêtement a été réalisé sur un échantillon de 15 sujets à l’issue d’un exercice physique. Cette expérimentation a permis d’évaluer le taux de transfert bactérien moyen lors d’une activité sportive et d’étudier son rôle dans l’émission d’odeurs. Ensuite, afin d’affiner ces résultats, une méthode basée sur la biologie moléculaire a été mise en place pour réaliser le suivi qualitatif de la stabilité de la flore commensale axillaire d’un sujet pendant 3 mois. Le transfert bactérien spécifique entre la peau du testeur et le vêtement a été étudié pour 4 matières textiles sélectionnées (dont le coton et le PET). Ceci a permis de déterminer le rôle du transfert bactérien spécifique dans l’émission des odeurs à partir de textile.Enfin, le dernier chapitre est consacré à l’étude de l’émission de composés volatils et odorants à l’aide de mesures olfactives et d’un nez électronique au cours du temps par 8 composants textiles sélectionnés. Après traitement statistique par analyse en composante principale et étude détaillée des mesures, 9 composés chimiques ont été identifiés comme indicateurs d’un comportement textile malodorant. Ces derniers pourraient être utilisés dans la mise en place d’une méthode ciblée de mesure physico-chimique des mauvaises odeurs.Ce travail a permis de déterminer l’impact de chacun des facteurs sujet, flore bactérienne et textile dans l’émission d’odeurs. En outre, ce travail ouvre des perspectives sur l’étude des contaminations bactériennes par contact, mais également dans l’étude des odeurs, sur les phénomènes de désorption de molécules volatiles à partir de différentes matrices textiles et sur les solutions pouvant être envisagées pour limiter les émissions odorantes à partir de textiles. / Fresh human sweat is odorless. Odoriferous volatile compounds are produced by the metabolism of bacteria living on the skin, generating strong malodor. Sweaty body odors do also appear on clothes during use, and especially on synthetic fabrics. The aim of this document is to improve understanding of odor emission by investigating subject effect, microbiota effect and fabric effect on the emission of odoriferous volatile compounds.Odors of perspiration are hereby globally approached with a wide use of methods and experimental devices, for microbial flora study as well as for odoriferous volatile compounds emission study.First, microflora enumeration has been simultaneously processed on the skin and on the fabric after exercise for 15 subjects. This experiment allowed an evaluation of the average bacterial transfer yield during physical activity and the beginning of the investigation of its effect on odor emission.A molecular biology methodology has then been developed in order to refine these results. Monitoring of qualitative composition of the microbiota has been performed to study the stability of the armpit’s ecosystem on a subject during 3 months. Specific microbial transfer from subject’s skin to clothe has been performed for 4 textile fabrics (including cotton and PET). This leaded to characterize the effect of specific bacterial transfer on odor emission from fabric.The last chapter is dedicated to the study of the emission of odoriferous volatile compounds over time using olfactory measurements and electronic nose for 8 selected fabrics. Principal component analysis targeted 9 chemical compounds that have been selected as malodorous behavior indicators for a given fabric. Those 9 compounds could be used for setting up a fitted physicochemical method of malodor.To conclude, this study helped to understand the effect of 3 factors in odor perception from a fabric after sport : subject, microbial flora and fabric. Perspectives have been charted on contact microbial contamination, but also on odor, and especially on desorption of odoriferous volatile molecules from a textile or knitted matrix. The solutions that could be used to limit malodorous emission from fabrics have also been discussed.

Flore bactérienne

Contamination bactérienne

Fermentation

Transpiration

Peau

Aisselle

Odeurs

Composés organiques volatils

COV

Textile

Tricot

Fibres synthétiques

PET

PA

EA

Coton

Transfert

Sport

Activité sportive

ADNr16s

TTGE

Panel sensoriel

GC-MS

GC-FID

Nez électronique

Analyse de variance

ANOVA

Analyse en composante principale

ACP

Microbiota

Microbiome

Bacterial contamination

Fermentation

Sweat sweating

Perspiration

Armpit

Odoriferous volatile compounds

Human body odors

HBO

Volatile organic compounds

VOC

Textile

Knit

Synthetic fibers

PE

PA

EA

Cotton

Transfert

Sport

ADNr16s

TTGE

Sensory panel

GC-MS

GC-FID

E-nose

Electronic nose

Variance analysis

ANOVA

Principal component analysis

PCA

660

Valorisation d'espèces envahissantes des genres Xanthium et Senecio : caractérisation, variabilité chimique et activités des huiles essentielles / Valuation of invasive species and genera Xanthium Senecio : characterization, chemical variability and activities essential oils

Andreani, Stéphane

09 December 2014

La prolifération d’espèces invasives est un problème mondial. Après la pollution et la destruction des habitats, l’introduction d’espèces exogènes est une des principales causes de la disparition de la biodiversité animale et végétale dans le monde. La Corse n’est pas épargnée par le phénomène ; en effet, chaque année nous dénombrons de plus en plus d’espèces végétales introduites, potentiellement envahissantes et dangereuses pour l’écosystème insulaire. Si elles ne sont pas contrôlées, ces plantes peuvent rapidement gagner du terrain et s’installer durablement en raison de leurs facultés d’adaptation à divers écosystèmes.C’est dans ce contexte que nous sommes intéressés à quatre plantes de la famille des Astéracées considérées comme envahissantes : deux espèces du genre Xanthium (Xanthium italicum et X. spinosum) et deux espèces du genre Senecio (Senecio angulatus et S. inaequidens). L’objectif principal était d’initier une possible voie de valorisation de ces espèces par la production d’huile essentielle ; cela permettrait d’une part de limiter la dissémination et d’autre part, de générer un débouché économique.Par ailleurs, nous avons étendu ce travail à Limbarda crithmoides et à six espèces du genre Senecio poussant à l’état spontané en Corse. Une approche chimiotaxonomique réalisée à partir de 180 échantillons d’huiles essentielles du genre Senecio a conduit à différencier les espèces dites halotolérantes (S. aquaticus, S. transiens et S. cineraria) des espèces plus « terrestres » (S. vulgaris, S. angulatus, S. inaequidens, S. serpentinicola et S. lividus). L’étude de la variabilité chimique intraspécifique a permis de mettre en évidence des corrélations entre la composition chimique des huiles essentielles et le polymorphisme des taxons et/ou des facteurs édaphiques. L’étude du genre Senecio a également conduit à la caractérisation de deux nouvelles molécules, l’oxyde d’acétoxybisabolène et le 8-acétoxybisabolène 1,9-diol, isolées de l’huile essentielle de S. transiens (espèce endémique de Corse).D’un point de vue plus appliqué, les mesures des activités anti-radicalaires et anticorrosives des huiles essentielles ont démontré le potentiel de certaines espèces comme sources d’anti-oxydants naturels (notamment, Xanthium italicum et X. spinosum) mais aussi le pouvoir anticorrosif de la cacalohastine, isolée de l’huile essentielle de S. inaequidens (espèce invasive). / The proliferation of invasive species is a global problem. The introduction of exogenous species is after pollution and habitat destruction a major cause of the disappearance of the worldwide plant and animal biodiversity. Corsica is not spare to the phenomenon and every year there are numerous dangerous species which are introduced to the island ecosystem.In this study, we have studied four invasive species of Asteraceae (X. italicum, X. spinosum, S. angulatus and S. inaequidens) from Corsica. The aim of this study is to initiate a possible valuation pathway of these species by production of their essential oils. For this purpose, we investigated the chemical variability of each essential oil and their antioxidant and anticorrosive activities. Then we have extended our investigations to the others species of Senecio genus and to Limbarda crithmoides, anciently parented taxa.GC and GC/MS analysis allowed the identification of 107 and 74 components which accounted for 98.7 and 93.5% of the X. italicum and X. spinosum essential oils, respectively. Essential oils of X. italicum and X. spinosum were dominated by hydrocarbon monoterpenes (66.2%) and oxygenated sesquiterpenes (41.5%), respectively. The same metabolomic pathways seem occur for both species during the vegetative cycle of the plant: oxygenated sesquiterpene-production was higher during the flowering stage. Moreover the study of 25 sample oils of X. italicum and X. spinosum showed that the chemical variability of both essential oils could be linked to morphological characters.A comprehensive work on the chemical variability of 180 sample oils of Senecio was carried out and 251 components were identified. Among them, using mono and bi-dimensional NMR the structures of 8-acetoxybisabolene-1,9-diol and 8-acetoxy-1,9-oxobisabolene, two new components of S. transiens essential oil were described for the first time. Corsican Senecio species exhibited interspecies chemical variability: the halotolerant Senecio species (S. transiens, S. cineraria and S. aquaticus erraticus) were characterized by essential oils dominated by non-terpenic compounds while the so-called “terrestrial” Senecio species (S. angulatus, S. ineaquidens, S. lividus, S. vulgaris and S. serpentinicola) exhibited terpenic component-rich oils. The study of intra-species chemical variability highlighted direct correlations between the plant-production of secondary metabolites and the nature of soils on which S. lividus, S. vulgaris and S. transiens grows. Hence essential oil compositions and morphological polymorphism are indirectly related. In the same way, the chemical variability of S. cineraria essential oils seems to be linked to the geology of the soils while the oil diversity of the invasive S. angulatus, could be linked to the both spots of introduction on Corsica Island. In addition, an original chiral-gas chromatographic method was improved and applied to the main components of the essential oils in order to complement the chemical composition of the Senecio sample oils.Furthermore the originality of Corsican Limbarda crithmoides essential was highlighted by the occurrence of two p-cymenene derivatives, never reported in the related studies from literature. The investigation of 25 Corsican L. crithmoides focuses on a direct correlation between the water salinities of the plant locations and the chemical compositions of the essential oils.Finally the antioxidant activities, anti-free radical and reducing power, were measured on some essential oils of the studied species. Essential oils of the Xanthium genus appeared to be most effectives. In addition, anticorrosion properties of the essential oils were investigated and the best corrosion inhibiting activity was exhibited by those of S. inaequidens . Anticorrosion activity could be attributed to the cacalohastine, a naphtalofuranic component, isolated form the whole essential oil after column chromatography.

Cpg-Dif

Cpg/sm

Xanthium

Senecio

Limbarda

Huiles essentielles

Plantes envahissantes

Dérivés du bisabolène

Variabilité chimique

Activité anti-Oxydante

Activité anticorrosive

Gc-Fid

Gc/ms

Xanthium

Senecio

Limbarda

Essential oils

Invasive plants

Bisabolene derivatives

Chemical variability

Antioxidant activity

Anticorrosive activity

543

577.8

581.6