Efeitos do perÃxido de hidrogÃnio sobre a germinaÃÃo e na aclimataÃÃo de plantas de milho à salinidade / Hydrogen peroxide effects on the germination and the acclimation of maize plants subjected to salinity

Franklin AragÃo Gondim

03 March 2008

AssociaÃÃo TÃcnico-CientÃfica Eng. Paulo de Frontin / nÃo hà / Este trabalho teve como objetivo avaliar os efeitos do perÃxido de hidrogÃnio (H2O2) sobre a germinaÃÃo e a aclimataÃÃo de plantas de milho ao estresse salino, estudando os mecanismos fisiolÃgicos e bioquÃmicos envolvidos. Nos experimentos, em nÃmero de trÃs, foi utilizado o hÃbrido triplo de milho (Zea mays L), o BRS 3003. No primeiro experimento, foram avaliados os efeitos do H2O2 na germinaÃÃo das sementes de milho; no segundo, foram avaliados os efeitos do prÃ-tratamento de embebiÃÃo das sementes de milho com H2O2 nas atividades das enzimas e isoenzimas antioxidativas e, no terceiro, foram avaliados os efeitos do prÃ-tratamento de sementes de milho com H2O2 sobre a aclimataÃÃo das plantas de milho à salinidade e os mecanismos possivelmente envolvidos. No primeiro experimento, o qual foi realizado em sala da germinaÃÃo, observou-se que o H2O2 na concentraÃÃo de 100 mM acelerou o processo de germinaÃÃo das sementes de milho, o mesmo nÃo ocorrendo na concentraÃÃo de 500 mM. No segundo experimento, o qual tambÃm foi realizado em sala de germinaÃÃo, observou-se que o prÃ-tratamento das sementes induziu forte aumento nas atividades das enzimas peroxidase do ascorbato (APX) e catalase (CAT), desde o tempo de embebiÃÃo de 30 h das sementes com H2O2. Jà com relaÃÃo à peroxidase do guaiacol (GPX), observou-se que a atividade dessa enzima foi menor nas sementes embebidas com H2O2 nos tempos de 12, 24, 30, 36 e 42 h, em relaÃÃo Ãquelas embebidas em Ãgua destilada (controle), porÃm, nas prÃ-tratadas por um tempo de 48 h nÃo foram observadas diferenÃas significativas entre os tratamentos. A dismutase do superÃxido (SOD), por sua vez, nÃo foi afetada pelo prÃ-tratamento das sementes, exceto no tratamento de embebiÃÃo das sementes com H2O2 por 24 h. Nas sementes, foi detectada apenas uma isoenzima de CAT e seis de SOD. O prÃ-tratamento das sementes nÃo provocou alteraÃÃes nessas isoformas, exceto com relaÃÃo à intensidade da banda de atividade da CAT visualizada no gel de poliacrilamida, que se mostrou muito superior Ãquela do controle, quando as sementes foram embebidas por 36 e 48 h com H2O2. à possÃvel que os aumentos nas atividades da APX e, especialmente, da CAT, tenham sido responsÃveis pela aceleraÃÃo do processo de germinaÃÃo. No terceiro experimento, o qual foi conduzido inicialmente em Sala de germinaÃÃo e, em seguida, em casa de vegetaÃÃo, foram utilizadas sementes de milho prÃtratadas por 36 h de embebiÃÃo em soluÃÃo de H2O2 a 100 mM ou em Ãgua destilada. Essas sementes foram postas para germinar em folhas de papel de filtro umedecidas com soluÃÃo nutritiva em presenÃa ou ausÃncia de NaCl a 80 mM em sala de germinaÃÃo. Decorridos seis dias, as plÃntulas foram transferidas para a casa de vegetaÃÃo e cultivadas hidroponicamente em presenÃa ou ausÃncia de NaCl a 80 mM, sendo feitas coletas das plantas aos 6, 11 e 16 dias de idade. Como resultado, observou-se que o prÃ-tratamento das sementes com H2O2 induziu a aclimataÃÃo das plantas à salinidade, reduzindo parcialmente os efeitos deletÃrios da salinidade na produÃÃo de matÃria e na Ãrea foliar. Esse resultado pode ser atribuÃdo, pelo menos em parte, a uma maior eficiÃncia do sistema antioxidativo das plantas oriundas de sementes prÃ-tratadas com H2O2. A CAT, que se mostrou a principal enzima eliminadora de H2O2, teve sua atividade nas folhas fortemente reduzida pela salinidade, nas plantas com seis dias de idade, sendo este efeito totalmente revertido nas plantas provenientes de sementes prÃ-tratadas com H2O2. Por outro lado, nas raÃzes das plantas submetidas ao estresse salino, a atividade da SOD foi estimulada pelo prÃ-tratamento das sementes com H2O2, nos trÃs tempos de coleta. De modo geral, a salinidade reduziu os parÃmetros fotossintÃticos (condutÃncia estomÃtica, transpiraÃÃo, fotossÃntese e concentraÃÃo interna de CO2) e o prÃ-tratamento das sementes nÃo foi capaz de reverter esse efeito. NÃo foi possÃvel estabelecer-se uma correlaÃÃo precisa entre os teores de solutos orgÃnicos e o processo de aclimataÃÃo das plantas prÃ-tratadas com H2O2 à salinidade, em termos de ajustamento osmÃtico. No entanto, os menores valores da razÃo Na+/K+ nas raÃzes e, especialmente, nas folhas das plantas prÃ-tratadas e submetidas à salinidade, em relaÃÃo Ãquelas oriundas de sementes prÃ-tratadas com Ãgua (controle) e submetidas a esse mesmo tratamento, aos 16 dias de idade, pode tambÃm ter sido um fator responsÃvel, pelo menos em parte, pela aclimataÃÃo das plantas de milho à salinidade. / The aim of this work was to evaluate the effects of the hydrogen peroxide (H2O2) on germination and acclimation of maize plants subject to the saline stress, in order to better understand the physiological and biochemical mechanisms involved. In the three experiments the triple hybrid of maize (Zea mays L) BRS 3003 was used. In the first experiment, the effects of H2O2 on germination of the maize seeds were evaluated; in the second, the effects of pre-treating by soaking maize seeds in H2O2 solution on the activities of antioxidative enzymes and isoenzymes; and as, the effects of the pre-treatment of maize seeds with H2O2 on acclimation of the plants to salinity and the possible mechanisms involved with this process. In the first experiment, which was carried out in a growth room, H2O2 accelerated the germination rate of maize seeds at 100 mM, but, not at 500 mM. In the second experiment, also carried out in growth room, it was observed that the pre-treatment of the seeds induced a pronounced increase in the activities of the enzymes ascorbate peroxidase (APX) and catalase (CAT), after 30 h of soaking in H2O2. It was also observed that the activity of the Guaiacol peroxidase (GPX) was smaller in the seeds soaked in H2O2 for 12, 24, 30, 36 and 42 h, in relation to those soaked in distilled water (control). However, H2O2 treatment for 48 h showed no significant differences as compared with control. The superoxide dismutase (SOD) activity was not affected by the pre-treatment of the seeds, except for the 24 h treatment. In the seeds, it was detected only one isoform of CAT and six of SOD. The pre-treatment of the seeds did not cause great changes in those isoforms, except for the intensity of the band of activity of CAT visualized in the polyacrylamide gel, which was very superior to that of the control, when the seeds were soaked by 36 and 48 h with H2O2. The increases in the activities of APX and, especially, of CAT, could be associated with the acceleration of the germination process. In the third experiment, which was carried out initially at growth room and, later, at the glasshouse, maize seeds were pre-treated for 36 h by soaking in solution of H2O2 100 mM or in distilled water. Those seeds were germinated on filter paper moistened with nutrient solution in the presence or absence of NaCl 80 mM, in a growth room. After six days, the seedling were transferred to the glasshouse and cultivated in trays containing only nutrient solution (control treatment) or nutrient solution with NaCl at 80 mM. Plants were harvest with 6, 11 and 16 days old. The results showed the pre-treatment of the seeds with H2O2 induced acclimation of the plants to the salinity. It decreased the deleterious effects of salt stress on the growth (biomass production and leaf area) of maize. This fact was associated with a higher efficiency of the antioxidative system of plants pre-treated with H2O2. CAT was the most important among the H2O2 scavenging enzymes in leaves, but, its activity was strongly reduced by salinity in plants 6 and 11 days old, however, this effect was totally reverted in the stressed plants originated from seeds pre-treated with H2O2. On the other hand, in the roots of plants submitted to saline stress, the activity of SOD was stimulated by the pre-treatment of the seeds with H2O2, in the three periods of harvest. In general, salinity reduced the photosynthetic parameters (stomatal conductance, net CO2 assimilation rate, transpiration and intracellular CO2 concentration) and the H2O2 pre-treatment of seeds was not capable to revert that effect. In terms of osmotic adjustment, the contents of organic solutes were not positively correlated to the process of acclimation to salt stress of the plants pre-treated with H2O2 to the salinity. However, the smallest values of the Na+/K+ ratio in roots and in leaves were found for the pre-treated plants submitted to salinity, when compared to those originated from of seeds pre-treated with water (control) and submitted to that same treatment, and it may also be a responsible factor for the acclimation of the maize plants to the salinity.

Enzimas antioxidativas

estresse salino

germinaÃÃo

prÃ-tratamento de sementes com H2O2

solutos orgÃnicos e inorgÃnicos

trocas gasosas

Zea mays

Antioxidative enzymes

salt stress

germination

pre-treatment of seeds with H2O2

organic and inorganic solutes

gas exchange

Zea mays

BIOQUIMICA

Transferts d’eau et de soluté en milieu non saturé hétérogène à l’échelle d’un pilote de laboratoire : expériences et modélisations / Transfers of water and solute in unsaturated heterogeneous porous media in a laboratory scale lysimeter : experiments and modeling

Bien, Le Binh

03 July 2013

L’hétérogénéité de la zone non saturée joue un rôle important dans le transfert d’eau et de soluté car elle accentue à la fois le développement des zones de stockage temporelles et les écoulements préférentiels. Par conséquent, la validation des modèles prédictifs nécessite le développement des outils expérimentaux spécifiques afin d’observer et de quantifier les mécanismes de transport impliqués dans un système non saturé hétérogène. Cette thèse vise à étudier l’effet combiné de la vitesse d’infiltration, de la barrière capillaire et l’angle de la pente d’interface entre deux matériaux sur les processus de l’écoulement de l’eau et du transport de soluté dans un modèle physique, le lysimètre de laboratoire 1x1x1.6 m3, nommé LUGH (Lysimeter for Urban Groundwater Hydrology) et un modèle numérique 3D de ce lysimètre. Le lysimètre LUGH est rempli par un sable fin et un mélange bimodal (50 % sable fin et 50 % gravier) en deux configurations: un profil uniforme de matériau bimodal ou un profil avec deux couches avec une pente de 14o. Ces agencements figurent l’hétérogénéité structurale et texturale observée sur un des sites expérimentaux de l’OTHU (Observatoire de Terrain en Hydrologie Urbaine) : le bassin d’infiltration d’eaux pluviales Django Reinhardt géré par la ville de Lyon (France). Le lysimètre est alimenté en eau et avec un traceur inerte (bromure de potassium, KBr) sur une partie de la surface par un système d’arrosage automatique. Les effluents ont été recueillis dans quinze sorties différentes en bas du lysimètre. La forte hétérogénéité des flux des sorties et des courbes de percée souligne la mise en place des écoulements préférentiels résultant à la fois de l’effet de barrière capillaire et de l’effet de fond du lysimètre. A partir des résultats expérimentaux, la modélisation numérique à l’aide de logiciel COMSOL MultiphysicsTM a permis de mieux comprendre les mécanismes responsables de ces transferts hétérogènes. Lorsque le modèle numérique validé, un test de sensibilité a été conduit pour étudier les effets de la vitesse d’infiltration et de la pente de l’interface sur l’écoulement. Les résultats montrent que la diminution de la vitesse d’infiltration ou l’augmentation de la pente de l’interface favorisent le développement des écoulements préférentiels. Notre étude a donné également des renseignements pertinents sur le couplage entre les processus hydrodynamiques et le transfert des solutés dans les sols non saturés hétérogènes en soulignant le rôle de la géométrie des interfaces ainsi que celui des conditions aux limites comme des facteurs clés pour la quantification des écoulements préférentiels. / The heterogeneity of the unsaturated zone plays an important role in the water and solutes transfer as it accentuates both the development of stagnant zones for water and preferential flow. Therefore, the validation of predictive models requires the development of specific experimental tools to observe and quantify the transport mechanisms involved in a heterogeneous unsaturated system. The aim of this thesis is to describe the combined effect of infiltration, capillary barrier and sloping layered soil on both flow and solute transport processes in a large physical model (1x1x1.6 m3) called LUGH (Lysimeter for Urban Groundwater Hydrology) and a 3D numerical flow model. Sand and a soil composed of a bimodal sand-gravel mixture were placed in the lysimeter represent one of the commun structural and textural elements of the heterogeneity observed in the vadose zone under an infiltration basin of Lyon (France). The soil was compacted in two configurations: a uniform profile and a profile with two layers having a slope of 14°. Water and an inert tracer (KBr) were injected from the top of the lysimeter using a specific water sprinkler system and collected at 15 different outlets at the bottom. The 15 breakthrough curves obtained presented high heterogeneity, emphasising the establishment of a preferential flow resulting from both capillary barrier and soil layer dip effects. Numerical modelling led to better understanding of the mechanisms responsible for these heterogeneous transfers and it was also used to perform a sensitivity analysis of the effects of water velocity (water and solute flux fed by the sprinkler) and the slope interface. The results show that decreasing velocity and increasing the slope of the interface can lead to the development of preferential flows. In addition, the offset of the centre of gravity of the flow distribution at the output increases linearly as a function of the slope angle of the layered soil. This paper allows coupling the hydrodynamic approach with the transfer of pollutants in unsaturated heterogeneous soil and highlighting preferential flow by flow modeling.

Environnement

Génie des eaux

Traitement des eaux

Barrière capillaire

Ecoulement préférentiel

Hétérogénéité

Lysimètre

Pente

Sol non saturé

Solutés

Transfert

Modélisation

Capillary barrier

Heterogeneity

Lysimeter

Preferential flow

Slope

Solutes

Transfer

Unsaturated soil

Modelling

628.160 72

Probing effects of organic solvents on paracetamol crystallization using in silico and orthogonal in situ methods

Chewle, Surahit

08 September 2023

This work entails efforts to understand effects of solvent choice on paracetamol crystallization. Various techniques have been developed and implemented to study aforementioned. A clear-cut, direct evidence of two-step nucleation mechanism is demonstrated using a bench top Raman spectrometer and a novel method named as OSANO. / Polymorphismus ist die Eigenschaft vieler anorganischer und insbesondere organischer Moleküle, in mehr als einer Struktur zu kristallisieren. Es ist wichtig, die Faktoren zu verstehen, die den Polymorphismus beeinflussen, da er viele physikochemische Eigenschaften wie Stabilität und Löslichkeit beeinflusst. Nahezu 80 % der vermarkteten Medikamente weisen Polymorphismus auf. In dieser Arbeit wurde der Einfluss der Wahl des organischen Lösungsmittels auf den Polymorphismus von Paracetamol untersucht und verschiedene Methoden entwickelt und angewandt, um den Einfluss genauer zu verstehen. Es wurde festgestellt, dass Ethanol viel stärker auf Paracetamol-Kristallisation als Methanol wirkt. Nichtgleichgewichts-Molekulardynamiksimulationen mit periodischer, simulierter Abkühlung (Simulated Annealing) wurden verwendet, um Vorläufer der metastabilen Zwischenprodukte im Kristallisationsprozess zu untersuchen. Es wurde festgestellt, dass die Strukturen der Bausteine der Paracetamol-Kristalle durch geometrische Wechselwirkungen zwischen Lösungsmittel und Paracetamol bestimmt werden. Die statistisch häufigsten Bausteine in der Selbstassemblierung definieren die finale Kristallstruktur. Ein speziell angefertigter akustischer Levitator hat die Proben zuverlässig gehalten, wodurch die Untersuchung des Einflusses von Lösungsmitteln ermöglicht, heterogene Keimbildung abgeschwächt und andere Umgebungsfaktoren stabilisiert wurden. Die Kristallisation wurde in diesem Aufbau mit zeitaufgelöster In-situ-Raman-Spektroskopie verfolgt und mit einer neuen Zielfunktion basierenden Methode der nichtnegativen Matrixfaktorisierung (NMF) analysiert. Orthogonale Zeitrafferfotografie wurde in Verbindung mit NMF verwendet, um eindeutige und genaue Faktoren zu erhalten, die sich auf die Spektren und Konzentrationen verschiedener Anteile der Paracetamol-Kristallisation beziehen, die als latente Komponenten in den unbehandelten Daten vorhanden sind. / Polymorphism is the property exhibited by many inorganic and organic molecules to crystallize in more than one crystal structure. There is a strong need for understanding the influencing factors on polymorphism, as it is responsible for differences in many physicochemical properties such as stability and solubility. Nearly 80 % of marketed drugs exhibit polymorphism. In this work, we took the model system of paracetamol to investigate the influence of solvent choice on its polymorphism. Different methods were developed and employed to understand the influence of small organic solvents on the crystallization of paracetamol. Non-equilibrium molecular dynamics simulations with periodic simulated annealing were used as a tool to probe the nature of precursors of the metastable intermediates occurring in the crystallization process. Using this method, it was found that the structures of the building blocks of crystals of paracetamol is governed by solvent-solute interactions. In situ Raman spectroscopy was used with a custom-made acoustic levitator to follow crystallization. This set-up is a reliable method for investigating solvent influence, attenuating heterogeneous nucleation and stabilizing other environmental factors. It was established that as a solvent, ethanol is much stronger than methanol in its effect of driving paracetamol solutions to their crystal form. The time-resolved Raman spectroscopy crystallization data was processed using a newly developed objective function based non-negative matrix factorization method (NMF). An orthogonal time-lapse photography was used in conjunction with NMF to get unique and accurate factors that pertain to the spectra and concentrations of different moieties of paracetamol crystallization existing as latent components in the untreated data.

Kristallisation

paracetamol Polymorphismus

OSANO

Faktorisierung nichtnegativer Matrizen

Crystallization

two-step nucleation

Kinetics of crystal nucleation

solvent effects on crystallization

OSANO

self-assembly of solutes in solvents

non-negative matrix factorization

ddc:540