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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
101

Whey drink de uva processado por di?xido de carbono supercr?tico: par?metros de qualidade e sensoriais / Whey-grape drink processed by supercritical carbon dioxide: quality and sensory parameters

Amaral, Gabriela Vieira do 17 July 2017 (has links)
Submitted by Celso Magalhaes (celsomagalhaes@ufrrj.br) on 2018-03-07T15:22:05Z No. of bitstreams: 1 2017 - Gabriela Vieira do Amaral.pdf: 1320069 bytes, checksum: bc0ab4f1fe7a912edee70092297020a1 (MD5) / Made available in DSpace on 2018-03-07T15:22:12Z (GMT). No. of bitstreams: 1 2017 - Gabriela Vieira do Amaral.pdf: 1320069 bytes, checksum: bc0ab4f1fe7a912edee70092297020a1 (MD5) Previous issue date: 2017-07-17 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Emerging supercritical carbon dioxide (SCCD) technology has been studied as a cold pasteurizing agent, however, few studies are available on its efficiency in dairy products. In this study, the effects of SCCD processing by different pressures 14, 16 and 18 MPa (35 ? 2 ?C / 10 min) on whey drink, whey drink and grape juice were investigated in comparison To conventional pasteurization (heat treatment at 72 ?C / 15 s). Physicochemical analyzes of pH, titratable acidity, total soluble solids, phenolic compounds, anthocyanins, antioxidant activity, angiotensin converting enzyme (ACE) inhibitory activity and volatile compounds were performed. The color, particle size, rheology, physical stability, as well as microbiological quality and sensory analysis of beverages were also smoothed. The results of this study evidenced the absence of differences between treatments in pH, titratable acidity, soluble solids, total anthocyanins and DPPH activity (p> 0.05). A direct relationship between SCCD pressure and ACE inhibitory activity was observed, with 34.63, 38.75 and 44.31% (14, 16 and 18 MPa, respectively). Few differences were found in the volatile compounds profile. The beverage processing by SCCD resulted in a product with lower particle diameter, lower consistency index and a reduction in pseudoplastic character compared to the beverage treated by the conventional process. No effect of high pressure CO2 on the sensorial attributes of the drink was observed for the studied levels. Consumers found no difference between CO2 treated beverages and heat-treated beverages. The results confirm the processing of SCCD as a promising technology for the non-thermal treatment of grape whey drink made available a health and wellness promoter beverage. Background: Non-thermal food processing is configured as an interesting alternative for the food industry due to the increased nutrient retention and minimal sensory changes in processed products. Scope and approach: The aim of this review is to address the potential of supercritical carbon dioxide technology, emphasizing milk and dairy processing, including the historical aspects, main advantages, microbial inactivation mechanisms, as well as effects in some quality parameters of dairy products. Key findings and conclusions: The use of supercritical carbon dioxide technology (SC-CO2) presents great potential application in dairy processing, since it is effective to reduce microbial load when compared to the pasteurization process, thus obtaining a product with greater shelf life and better organoleptic properties with minimal and sometimes positive changes in the intrinsic quality parameters The effect of supercritical carbon dioxide technology (SCCD, 140, 160, and 180 bar at 35 ? 2 ?C for 10 min) on whey-grape juice drink characteristics was investigated. Physicochemical characterization (pH, titratable acidity, total soluble solids), bioactive compounds ( phenolic compunds, anthocyanins , DPPH and ACE activity) and the volatile compounds were performed. Absence of differences were found among treatments for pH, titratable acidity, soluble solids, total anthocyanins and DPPH activity (p>0.05). A direct relationship between SCCD pressure and ACE inhibitory activity was observed, with 34.63, 38.75, and 44.31% (140, 160, and 180 bar, respectively). Regards the volatile compounds, it was noted few differences except by the presence of ketones. The findings confirm the SCCD processing as a potential promising technology to the conventional thermal treatment. The use of supercritical technology as a non-thermal pasteurization process of the whey-grape juice drink was investigated in this study. The effects of supercritical carbon dioxide at 14, 16, and 18 MPa (35 ? 2?C/10 min) on the physical and sensory properties of the beverage, when compared to conventional pasteurization (heat treatment at 72?C/15 s) were evaluated. High-pressure CO2 processing of whey-grape juice drink resulted in a product with lower particle diameter, lower consistency index, and a reduction in pseudoplastic character when compared to the beverage treated by the conventional process. No effect of high-pressure CO2 was observed on the sensory attributes of the beverage for the levels studied. Consumers did not find differences between the CO2-treated and heat-treated beverages. Our findings suggest the use of supercritical technology with carbon dioxide as an effective alternative for the production and availability of a health and wellness promoting beverage / A tecnologia emergente de di?xido de carbono supercr?tico (DCSC) vem sendo estudada como agente pasteuriza??o a frio, no entanto, s?o poucos os estudos dispon?veis a cerca da sua efici?ncia em derivados l?cteos. Neste estudo, foram investigados os efeitos do processamento do DCSC por diferentes press?es 14, 16 e 18 MPa (35 ? 2 ?C / 10 min) no whey drink de uva, bebida a base de soro de leite e suco de uva, em compara??o ? pasteuriza??o convencional (tratamento t?rmico a 72 ?C / 15 s). Foram realizadas an?lises f?sico-quimicas de pH, acidez titul?vel, s?lidos sol?veis totais, compostos fen?licos, antocianinas, atividade antioxidante, atividade inibidora da enzima conversora de angiotensina (ECA) e compostos vol?teis. Tamb?m foramam alisados a cor, o tamanho de part?cula, reologia, estabilidade f?sica, assim como a qualidade microbiol?gica e analise sensorial das bebidas. Os resultados deste estudo evidenciaram a aus?ncia de diferen?as entre os tratamentos nas an?lises de pH, acidez titul?vel, s?lidos sol?veis, antocianinas totais e atividade de DPPH (p> 0,05). Foi observada uma rela??o direta entre press?o DCSC e atividade inibit?ria ACE, com 34,63, 38,75 e 44,31% (14, 16 e 18 MPa, respectivamente). Poucas diferen?as foram encontratdas no perfil dos compostos vol?teis. O processamento das bebidas por DCSC resultou em um produto com menor di?metro de part?cula, menor ?ndice de consist?ncia e uma redu??o no car?ter pseudopl?stico em compara??o com a bebida tratada pelo processo convencional. N?o foi observado efeito de CO2 de alta press?o nos atributos sensoriais da bebida para os n?veis estudados. Os consumidores n?o encontraram diferen?as entre as bebidas tratadas com CO2 e as bebidas tratadas termicamente. Os resultados confirmam o processamento do DCSC como uma tecnologia promissora para o tratamento n?o t?rmico de whey drink de uva disponibilizado uma bebida promotora de sa?de e bem-estar Antecedentes: Os processamentos de alimentos n?o t?rmicos s?o configurados como uma alternativa interessante para a ind?stria de alimentos devido ao aumento da reten??o de nutrientes e mudan?as sensoriais m?nimas nos produtos processados. ?mbito e abordagem: o objetivo desta revis?o ? abordar o potencial da tecnologia de di?xido de carbono supercr?tico, enfatizando o processamento de leite e l?cteos, incluindo os aspectos hist?ricos, as principais vantagens, os mecanismos de inativa??o microbiana, bem como os efeitos em alguns par?metros de qualidade dos produtos l?cteos. Principais conclus?es e conclus?es: o uso de tecnologia supercr?tica de di?xido de carbono (SC-CO2) apresenta grande potencial de aplica??o no processamento de l?cteos, uma vez que ? efetivo reduzir a carga microbiana quando comparado ao processo de pasteuriza??o, obtendo-se assim um produto com maior prateleira e melhores propriedades sensoriais com mudan?as m?nimas e ?s vezes positivas nos par?metros de qualidade intr?nseca. O efeito da tecnologia de di?xido de carbono supercr?tico (SCCD, 140, 160 e 180 bar a 35 ? 2 ?C durante 10 min) em caracter?sticas de bebidas de suco de uva foi investigado. Caracteriza??o f?sico-qu?mica (pH, acidez titul?vel, s?lidos sol?veis totais), compostos bioativos (compostos fen?licos, antocianinas, DPPH e atividade ACE) e os compostos vol?teis foram realizados. A aus?ncia de diferen?as foi encontrada entre tratamentos para pH, acidez titul?vel, s?lidos sol?veis, antocianinas totais e atividade de DPPH (p> 0,05). Foi observada uma rela??o direta entre press?o SCCD e atividade inibit?ria ACE, com 34,63, 38,75 e 44,31% (140, 160 e 180 bar, respectivamente). Atende aos compostos vol?teis, observou-se poucas diferen?as, exceto pela presen?a de cetonas. Os resultados confirmam o processamento do SCCD como uma potencial tecnologia promissora para o tratamento t?rmico convencional O uso da tecnologia supercr?tica como processo de pasteuriza??o a frio da bebida de suco de uva e soro de uva foi investigado neste estudo. Os efeitos do di?xido de carbono supercr?tico em 14, 16 e 18 MPa (35 ? 2 ?C / 10 min) nas propriedades f?sicas e sensoriais da bebida, quando comparados ? pasteuriza??o convencional (tratamento t?rmico a 72 ?C / 15 s) Foram avaliados. O processamento de CO2 de alta press?o da bebida de suco de soro de soro de leite resultou em um produto com menor di?metro de part?cula, menor ?ndice de consist?ncia e uma redu??o no car?ter pseudopl?stico em compara??o com a bebida tratada pelo processo convencional. N?o foi observado efeito de CO2 de alta press?o nos atributos sensoriais da bebida para os n?veis estudados. Os consumidores n?o encontraram diferen?as entre as bebidas tratadas com CO2 e as bebidas tratadas termicamente. Nossas descobertas sugerem o uso da tecnologia supercr?tica com di?xido de carbono como uma alternativa efetiva para a produ??o e disponibilidade de uma bebida promotora de sa?de e bem-estar
102

Réduction combinée en chlorure de sodium et en matière grasse animale lors de la fabrication du saucisson sec : effets sur les propriétés physicochimiques et les réactions biochimiques en lien avec la production aromatique et les attributs sensoriels / Combined salt and animal fat reductions during dry-fermented sausage manufacture : effects on physical-chemical properties and biochemical reactions related to the aromatic compound production and sensory attributes

Safa, Hassan 25 January 2016 (has links)
Du fait de problèmes de santé publique, l’industrie agroalimentaire doit réduire la quantité de sel et de matière grasse dans les aliments, et donc dans les charcuteries. Lors de la fabrication des saucissons secs, une diminution combinée des taux de sel et de matière grasse animale peut se traduire par des problèmes de stabilité microbiologique, des défauts d’arôme et de texture dus à des modifications physicochimiques et biochimiques. Dans ce contexte, les objectifs de cette thèse étaient : (1) d’étudier l’impact d’une réduction directe des teneurs en sel et en matière grasse animale sur les évolutions physicochimiques et biochimiques au sein des produits, (2) d’identifier les composés aromatiques responsables de l’arôme du saucisson sec, ainsi que leurs origines, (3) de développer de nouvelles formulations de saucissons secs à teneurs réduites en sodium et en acides gras saturés, et (4) d’étudier les transferts d’eau et sel et de développer une isotherme de sorption spécifique pour le saucisson sec. L’étude de l’effet d’une réduction directe combinée a mis en évidence la difficulté de fabriquer des saucissons secs à teneurs réduites en sel et en matière grasse animale, sans modifier les évolutions physicochimiques et biochimiques. Une identification des composés volatils odorants de saucissons secs de haut de gamme a permis de montrer que l’aromatisation par l’ail et le poivre noir pouvait être un levier technologique permettant d’améliorer la qualité aromatique des saucissons secs allégés en sel et en matière grasse animale. L’impact de l’aromatisation et d’une substitution partielle combinée du sel par le chlorure de potassium et du gras de bardière de porc par l’huile de tournesol oléique sur les propriétés physicochimiques, les réactions biochimiques et les attributs sensoriels de saucissons secs, a été étudié. Cette étude a montré le rôle important de l’aromatisation qui agit en introduisant des molécules aromatiques qui rehaussent l’acceptabilité des produits par les consommateurs, en tant qu’exhausteur de la perception du goût salé et aussi, sur les processus fermentaires qui vont conditionner l’aspect et la texture finale du produit. La substitution partielle combinée est une solution efficace pour conserver au mieux la qualité organoleptique des saucissons, en permettant, d’une part, d’éviter les défauts texturaux et sensoriels liés aux modifications physicochimiques, protéolytiques et lipolytiques générés par une réduction directe combinée, et d’autre part, d’améliorer l’arôme du produit en rehaussant les niveaux d’oxydations lipidique et protéique. L’étude des transferts d’eau et de sel a mis en évidence une migration du sel vers le cœur du saucisson, et a permis de déterminer des valeurs de diffusivité apparente de l’eau en surface de ces produits. Il a été montré qu’une forte réduction en matière grasse réduisait la diffusivité de l’eau à la surface du saucisson. Une isotherme de sorption spécifique permettant de prédire l’aw en fonction des teneurs en eau, en lipides et en sel a été construite en adaptant un modèle de Ross établi pour la gélatine salée et grasse. / Because of public health problems, the food industry must lower sodium and animal fat contents in all food products, therefore in cured meat products. During dry-fermented sausage manufacture, a combined reduction both in salt and animal fat contents may induce microbial safety problems and textural and aroma defects due to physical-chemical and biochemical changes. On account of that, this work of thesis aims (1) to investigate the impact of a direct reduction on the salt and animal fat contents on the physical-chemical and biochemical evolutions in the products, (2) to identify the aromatic compounds responsible for the aroma of dry-fermented sausage, and their origins, (3) to develop new nutritionally-improved formulations of dry-fermented sausages with less sodium and saturated fatty acids, and (4) to study the impact of lipid and sodium chloride contents on water transfers in dry-fermented sausages and to build a specific sorption isotherm curve for dry sausages. The study of the effect of a combined direct reduction highlighted the difficulty of manufacturing sodium-reduced fat-reduced dry sausages, without affecting the physical-chemical and biochemical evolutions. Identification of odorous volatile compounds of high quality dry sausages showed that flavouring, especially garlic and black pepper, could be a good solution for improving the aromatic quality of salt-reduced fat-reduced dry-fermented sausages. The impact of flavouring and of a combined salt and animal fat replacement by potassium chloride and oleic sunflower oil, respectively, on physical-chemical properties, biochemical reactions and sensory attributes of dry-fermented sausages was then studied. This specific study showed the crucial role played by flavouring which introduces aromatic molecules that enhance the product acceptability by consumers, which acts as an enhancer of the saltiness perception and which improves the product appearance and texture by boosting the fermentation process. Consequently, the combined partial substitution is an efficient solution to preserve at best the organoleptic quality of the products, allowing, on one hand, avoiding the textural and sensory defects related to physical-chemical, proteolytic and lipolytic modifications induced by a combined direct reduction, and on the other hand, enhancing the product aroma by increasing the levels of lipid and protein oxidations. The study on water and salt transfers highlighted a salt diffusion towards the dry sausage core, and made it possible to determine values of apparent water diffusivity at the sausage surface. We demonstrated that a strong reduction in animal fat content significantly lowered the water diffusivity value at the product surface. A specific sorption isotherm curve based on a modified Ross model was built, allowing dry-fermented sausages water activity to be calculated as a function of water, fat and salt contents.
103

Selección y mejora de ecotipos de pimiento (Capsicum sp.) para agricultura sostenible y calidad nutricional y organoléptica

Ribes Moya, Ana María 25 January 2021 (has links)
Tesis por compendio / [ES] La actual problemática medioambiental está demandando sistemas de producción más sostenibles, como los de la agricultura ecológica. Una buena alternativa para estos sistemas son las variedades tradicionales de pimiento, con rasgos de calidad característicos y de amplia variabilidad genética, fundamental en los programas de mejora, concretamente para la adaptación a la producción ecológica. En la presente tesis se ha estudiado la calidad nutricional y organoléptica del cultivo del pimiento (Capsicum sp.) en los dos estados de madurez comercial y bajo diferentes prácticas culturales (sistemas ecológico y convencional). Se han analizado los principales compuestos nutricionales de los frutos de pimiento: el ácido ascórbico, los compuestos fenólicos y los carotenoides; así como la fracción volátil, y se ha estudiado su variación en una amplia colección varietal. Adicionalmente, se ha estudiado la fertilidad biológica del suelo a través de las actividades enzimáticas de la fosfatasa alcalina y la catalasa en interacción con el cultivo del pimiento bajo los sistemas de cultivo convencional y ecológico. El estudio de la calidad nutricional mostró amplios rangos de variación según el factor genotipo, aunque el estado de maduración y el sistema de cultivo también contribuyeron a las diferencias observadas. En general, los frutos maduros presentaron niveles superiores de compuestos bioactivos, especialmente para el ácido ascórbico. Asimismo, el cultivo ecológico proporcionó, en general, niveles más altos de ácido ascórbico y compuestos fenólicos en estado maduro. La notable interacción genotipo × sistema de cultivo para el contenido en ácido ascórbico y fenoles totales, y en menor intensidad para el contenido en flavonoides individuales, permitió la selección de varias accesiones con alto rendimiento en estos compuestos, bajo condiciones de cultivo ecológico en ambos estados de maduración. Por el contrario, los efectos del sistema de cultivo y la interacción genotipo × sistema de cultivo no resultaron significativos en los niveles de carotenoides, cuya variación se debió principalmente al factor genotipo. El estudio de la composición volátil permitió encontrar amplias diferencias cuantitativas y cualitativas para este factor de calidad organoléptica en los frutos de pimiento, dependiendo principalmente del factor genético y del estado de maduración, mientras que el sistema de cultivo afectó en menor medida y significativamente a algunos compuestos volátiles individuales. Se encontraron un total de 124 y 122 volátiles en estado inmaduro y maduro, respectivamente. Los cambios en el perfil volátil con la maduración fueron evidentes y muy diversos según el genotipo. En general, el sistema de cultivo ecológico favoreció la acumulación de compuestos volátiles en ambos estados de maduración y durante el proceso de maduración. Las actividades enzimáticas fosfatasa alcalina y catalasa aumentaron durante la fase de cultivo, con actividades máximas generales en la fase intermedia, especialmente para la fosfatasa alcalina. El sistema de cultivo tuvo una mayor contribución a la variación, resultado significativo y superior para el sistema convencional en fase intermedia para ambas actividades y estando generalmente seguido del factor genotipo, significativo para la fosfatasa alcalina en fase intermedia. La interacción genotipo × sistema de cultivo permitiría seleccionar variedades, con capacidad para que los suelos acumularan mayores valores de las actividades enzimáticas fosfatasa alcalina y catalasa, en el sistema de cultivo ecológico. En definitiva, los resultados de este trabajo proporcionarán información de especial utilidad para programas de investigación en hortalizas de alto valor añadido y programas de mejora de la calidad en agricultura ecológica, así como para el control de autenticidad de variedades tradicionales. / [CA] L'actual problemàtica mediambiental està demandant sistemes de producció més sostenibles, com els de l'agricultura ecològica. Una bona alternativa per a aquests sistemes són les varietats tradicionals de pebrot, amb trets de qualitat característics i d'àmplia variabilitat genètica, fonamental en els programes de millora, concretament per a l'adaptació a la producció ecològica. En la present tesi s'ha estudiat la qualitat nutricional i organolèptica del cultiu del pebrot (Capsicum sp.) en els dos estats de maduresa comercial i sota diferents pràctiques culturals (sistemes ecològic i convencional). S'han analitzat els principals compostos nutricionals dels fruits de pebrot: l'àcid ascòrbic, els compostos fenòlics i els carotenoides; així com la fracció volàtil, i s'ha estudiat la seva variació en una àmplia col·lecció varietal. Addicionalment, s'ha estudiat la fertilitat biològica de terra a través de les activitats enzimàtiques de la fosfatasa alcalina i la catalasa en interacció amb el cultiu del pebrot sota els sistemes de cultiu convencional i ecològic. L'estudi de la qualitat nutricional mostrar amplis rangs de variació segons el factor genotip, encara que l'estat de maduració i el sistema de cultiu també van contribuir a les diferències observades. En general, els fruits madurs van presentar nivells superiors de compostos bioactius, especialment per a l'àcid ascòrbic. Així mateix, el cultiu ecològic va proporcionar, en general, nivells més alts d'àcid ascòrbic i compostos fenòlics en estat madur. La notable interacció genotip × sistema de cultiu per al contingut en àcid ascòrbic i fenols totals, i en menor intensitat per al contingut en flavonoides individuals, va permetre la selecció de diverses accessions amb alt rendiment en aquests compostos, sota condicions de cultiu ecològic en els dos estats de maduració. Per contra, els efectes de el sistema de cultiu i la interacció genotip × sistema de cultiu no van resultar significatius en els nivells de carotenoides, la variació es va deure principalment al factor genotip. L'estudi de la composició volàtil va permetre trobar àmplies diferències quantitatives i qualitatives per aquest factor de qualitat organolèptica en els fruits de pebrot, depenent principalment del factor genètic i de l'estat de maduració, mentre que el sistema de cultiu va afectar en menor mesura i significativament a alguns compostos volàtils individuals. Es van trobar un total de 124 i 122 volàtils en estat immadur i madur, respectivament. Els canvis en el perfil volàtil amb la maduració van ser evidents i molt diversos segons el genotip. En general, el sistema de cultiu ecològic va afavorir l'acumulació de compostos volàtils en els dos estats de maduració i durant el procés de maduració. Les activitats enzimàtiques fosfatasa alcalina i catalasa van augmentar durant la fase de cultiu, amb activitats màximes generals en la fase intermèdia, especialment per a la fosfatasa alcalina. El sistema de cultiu va tenir una major contribució a la variació, resultat significatiu i superior per al sistema convencional en fase intermèdia per a ambdues activitats i estant generalment seguit del factor genotip, significatiu per a la fosfatasa alcalina en fase intermèdia. La interacció genotip × sistema de cultiu permetria seleccionar varietats, amb capacitat perquè els sòls acumulessin grans valors de les activitats enzimàtiques fosfatasa alcalina i catalasa, en el sistema de cultiu ecològic. En definitiva, els resultats d'aquest treball proporcionaran informació d'especial utilitat per a programes d'investigació en hortalisses d'alt valor afegit i programes de millora de la qualitat en agricultura ecològica, així com per al control d'autenticitat de varietats tradicionals. / [EN] The current environmental problem is demanding more sustainable production systems, such as organic farming. A good alternative for these systems are the traditional varieties of pepper, with characteristic quality traits and wide genetic variability, essential in breeding programs, specifically for adaptation to organic production. In this thesis, the nutritional and organoleptic quality of the pepper crop (Capsicum sp.) at the two ripening stages and under different cultural practices (ecological and conventional systems) has been studied. The main nutritional compounds of pepper fruits have been analysed: ascorbic acid, phenolic compounds and carotenoids; as well as the volatile fraction, and its variation has been studied in a wide varietal collection. Additionally, the biological fertility of the soil has been studied through the enzymatic activities of alkaline phosphatase and catalase in interaction with pepper cultivation under conventional and ecological growing systems. The study of nutritional quality showed wide ranges of variation according to the genotype factor, although the ripening stage and the growing system also contributed to the differences observed. In general, fully ripe fruits presented higher levels of bioactive compounds, especially for ascorbic acid. Also, organic farming provided, in general, higher levels of ascorbic acid and phenolic compounds at the fully ripe stage. The remarkable genotype × growing system interaction for the content of ascorbic acid and total phenolics, and to a lesser extent for the content of individual flavonoids, allowed the selection of several accessions with high yield in these compounds, under organic farming conditions at both ripening stages. On the contrary, the effects of the growing system and the genotype × growing system interaction were not significant in carotenoid levels, whose variation was mainly due to the genotype factor. The study of the volatile composition allowed to find wide quantitative and qualitative differences for this organoleptic quality factor in pepper fruits, depending mainly on the genetic factor and the ripening stage, while the growing system affected to a lesser extent and significantly some individual volatile compounds. A total of 124 and 122 volatiles were found at unripe and fully ripe stages, respectively. The changes in the volatile profile with ripening were evident and very diverse depending on the genotype. In general, the organic growing system favoured the accumulation of volatile compounds at both ripening stages and during the ripening process. Alkaline phosphatase and catalase enzymatic activities increased during the growing phase, with overall peak activities in the intermediate phase, especially for alkaline phosphatase. The growing system had a greater contribution to variation, a significant and superior result for the conventional system in the intermediate phase for both activities and being generally followed by the genotype factor, significant for alkaline phosphatase in the intermediate phase. The genotype × growing system interaction would allow the selection of varieties, with the capacity for soils to accumulate higher values of the enzymatic activities alkaline phosphatase and catalase, in the organic growing system. In conclusion, the results of this work will provide information of special use for research programs in vegetables with high added value and quality breeding programs in organic farming, as well as for the authenticity control of traditional varieties. / Authors thank seeds providers included in Table 1, like P.W. Bosland, S. Lanteri, François Jourdan, I. Ruiz de Galarreta and the different Regulatory Boards of the PDOs and GPIs included in this study. Authors also thank LA UNIÓ for the availability of experimental fields and the technical support from Manuel Figueroa, Rafael Hurtado, Antonio Muñoz and Ricard Ballester in the trials. Finally, the advice of Prof. Jaime Prohens in statistical procedures is also thanked. / Ribes Moya, AM. (2020). Selección y mejora de ecotipos de pimiento (Capsicum sp.) para agricultura sostenible y calidad nutricional y organoléptica [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/159886 / Compendio
104

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 (has links)
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.

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