Global ETD Search

211	A multi-proxy reconstruction of paleolimnology and paleoclimatic variability using authigenic lake carbonates from Cleland Lake, British Columbia Mihindukulasooriya, Lorita Nivanthi 25 November 2014 (has links) No description available. Climate Change Freshwater Ecology Limnology Paleoclimate Science Lake productivity British Columbia Lake level reflectance spectroscopy Algae insolation phytoplankton abundance photosynthetic pigments
212	Theory of ultrafast exciton dynamics in photosynthetic antenna systems Brüggemann, Ben 13 July 2004 (has links) Die Multiexzitonen-Theorie des Anregungsenergie-Transfers in Farbstoff-Protein-Komplexen und biologischen Antennensystemen wird um den Prozess der Exziton-Exziton-Vernichtung erweitert. Um eine mikroskopische Beschreibung zu erzielen, wird eine Herangehensweise benutzt, die auf der Internen Konversion der Anregungsenergie innerhalb der Farbstoffmoleküle basiert. Diese Interne Konversion führt zu nicht strahlenden Übergängen von höheren zu niedrigeren Exziton-Mannigfaltigkeiten. Neben der Einbeziehung der Exziton-Exziton-Vernichtung beinhaltet die hier verwendete Multiexziton-Dichtematrixtheorie auch die Kopplung zu niedrig-energetischen Schwingungs-Freiheitsgraden und dem elektrischen Feld. Für den Übergang von der Zwei- zu der Einexzitonen -Mannigfaltigkeit werden exakte und genäherte Ausdrücke hergeleitet. Die erste Anwendung der erweiterten Multiexziton-Dichtematrixtheorie ist die Berechnung von ultra-schnellen differentiellen Absoptionsspektren. Um den Prozess der Exziton-Exziton-Vernichtung in intensitätsabhängigen differenziellen Absorptionsspektren näher zu untersuchen, wird diese Herangehensweise auf den B850 Ring des LH2 von rhodobacter sphaeroides angewendet. Die Bedeutung der Exziton-Exziton-Vernichtung und der Einfluss von statischer Unordnung werden detailiert diskutiert. Die Simulationen der differentiellen Absorptionsspektren mit statischer Unordnung und Orientierungsmittelung zeigen gute Übereinstimmung mit experimentellen Beobachtngen. Durch die Veröffentlichung der Strukturdaten des Photosystem I (PS1) von Synechococcus elongatus wurde es zum ersten Mal möglich, ein Exziton-Modell für die 96 Chorophyllmoleküle einzuführen, die in die Proteinmatrix dieses Antennensystems eingebettet sind. Das Ziel dabei ist, sowohl die linearen Spektren in einem weiten Temperaturbereich, als auch die zeitaufgelöste Fluoreszenz zu reproduzieren. Die Kopplungen und die Dipolmomente der Chlorophyllmoleküle wurden den Strukturdaten entnommen. Da die Energien der einzelnen Farbstoffe stark von deren unmittelbarer Umgebung abhängt, werden diese bestimmt, indem simulierte Absorption, Lineardichroismus und Zirkulardichroismus bei niedrigen Temperaturen den experimentellen Spektren angepasst werden. Nachdem einige Chlorophyllmoleküle den Zuständen mit den niedrigsten Energien zugeordnet wurden, werden die Energien mit Hilfe eines evolutionären Algorithmus angepasst. Die Qualität des PS1 Modells wird durch die Berechnung der zeitabhängigen Fluoreszenz untermauert (mit zusätzlicher inhomogener Linienbreite), die Simulationen stimmen gut mit aktuellen experimentellen Resultaten überein. Die oben erwähnten Exziton-Modelle beschreiben die jeweiligen Experimente erfolgreich. Der nächste Schritt ist, diese Modelle zu nutzen, um einen neuen Typ von Experiment vorzuschlagen, das Exciton-Steuerungs-Experiment. Auf dem Exciton-Modell des FMO Komplexes von Prosthecochloris aestuarii und dem oben erwähnten PS1 Modell von Synechococcus elongatus aufbauend wird die Bildung von exzitonischen Wellenpaketen durch Laser-Anregung studiert. Diese stellen eine kohärente Überlagerung exzitonischer Zustände dar, ähnlich der bei Schwingungs-Wellenpaketen. Um die spezielle Form des Femtosekunden-Laserpulses zu bestimmen, der zu einer räumlichen Lokalisierung der Anregungsenergie führt, wird die Theorie der optimalen Steuerung verwendet. Die Möglichkeit, solch einen lokalisierten Zielzustand zu erreichen, wird aufgezeigt, auch unter dem Einfluss von energetischer Unordnung und Exziton-Exziton Vernichtung. Ferner wird gezeigt, dass die Effizienz der Lokalisierung und die Länge des optimalen Pulses stark von der Temperatur abhängen. / The multi-exciton description of excitation energy transfer in chromophore complexes and biological light harvesting antenna systems is extended to include the exciton-exciton annihilation processes. To achieve a complete microscopic description the approach is based on intra--chromophore internal conversion processes which leads to non-radiative transitions from higher to lower lying exciton manifolds. Besides an inclusion of exciton-exciton annihilation the used multi-exciton density matrix theory also accounts for a coupling to low-frequency vibrational modes and the radiation field. Concentrating on transitions from the two- to the single-exciton manifold exact and approximate expressions for the annihilation rate are derived. A first application of the introduced extended multi-exciton density matrix theory is given by the computation of ultrafast transient absorption spectra. To elucidate the process of exciton-exciton annihilation in intensity dependent transient absorption data the approach is applied to the B850 ring of the LH2 found in rhodobacter sphaeroides. The signatures of exciton-exciton annihilation as well as the influence of static disorder are discussed in detail. The simulations of transient absorption including static disorder and orientational averaging are in good agreement with experimental data. The recently published structure of the Photosystem I (PS1) of Synechococcus elongatus made it for the first time possible to introduce an excitonic model for the 96 chlorophylls embedded in the protein matrix of that core-antenna system, as presented in this work. The challenge has been to reproduce linear frequency domain spectra in a wide temperature range as well as the time resolved fluorescence. The couplings and the dipole-moments of the chlorophylls are extracted from the x-ray crystal structure. Since the position of the energetic levels of the chlorophylls depend on the respective surrounding their determination is achieved by fitting low temperature absorption, linear dichroism and circular dichroism at the same time. After assigning some chromophores to the red-most states, an evolutionary algorithm is used to get the best fit. The quality of the resulting PS1 model (additionally accounting for inhomogeneous line broadening) is confirmed in calculating time dependent fluorescence spectra which show a good agreement with recent experimental results. The outlined method is also applicable to other photosynthetic antenna systems. The above described exciton models successfully explain the respective measurements. In a second step, they will be used to propose a new type of experiment, the exciton control experiment. Based on an exciton model for the FMO complex of Prosthecochloris aestuarii and the proposed PS1 model of Synechococcus elongatus one studies the laser pulse formation of excitonic wavepackets, i.e. a coherent superposition of excitonic states similar to vibrational wavepackets. Optimal Control theory is used to calculate the shape of femtosecond laser pulses that leads to a spatial localization of excitation energy. The possibility to populate such a localized target state is demonstrated, even in the presence of disorder or exciton-exciton annihilation, and it is shown that the efficiency of localization as well as the length the most suited pulses strongly depend on temperature. Photosynthetische Antennensysteme Multiexziton-Dichtematrixtheorie Exziton-Exziton-Vernichtung Kontrolle exzitonischer Wellenpakete Photosystem I photosynthetic antenna systems multi-exciton density matrix theory exciton-exciton annihilation optimal control of excitonic wavepackets photosystem I 530 Physik 29 Physik, Astronomie ddc:530
213	Physiological adaptations in two ecotypes of Fucus vesiculosus and in Fucus radicans with focus on salinity Gylle, A Maria January 2011 (has links) The in origin intertidal marine brown alga Fucus vesiculosus L. grow permanently sublittoral in the brackish Bothnian Sea, side by side with the recently discovered F. radicans L. Bergström et L. Kautsky. Environmental conditions like salinity, light and temperature are clearly different between F. vesiculosus growth sites in the Bothnian Sea (4-5 practical salinity units, psu; part of the Baltic Sea) and the tidal Norwegian Sea (34-35 psu; part of the Atlantic Ocean). The general aims of this thesis were to compare physiological aspects between the marine ecotype and the brackish ecotype of F. vesiculosus as well as between the two Bothnian Sea species F. vesiculosus and F. radicans. The result in the study indicates a higher number of water soluble organic compounds in the marine ecotype of F. vesiculosus compared to the brackish ecotype. These compounds are suggested to be compatible solutes and be due to an intertidal and sublittoral adaptation, respectively; where the intertidal ecotype needs the compounds as a protection from oxygen radicals produced during high irradiation at low tide. The sublittoral ecotype might have lost the ability to synthesize these compound/compounds due to its habitat adaptation. The mannitol content is also higher in the marine ecotype compared to the brackish ecotype of F. vesiculosus and this is suggested to be due to both higher level of irradiance and higher salinity at the growth site. 77 K fluorescence emission spectra and immunoblotting of D1 and PsaA proteins indicate that both ecotypes of F. vesiculosus as well as F. radicans have an uneven ratio of photosystem II/photosystem I (PSII/PSI) with an overweight of PSI. The fluorescence emission spectrum of the Bothnian Sea ecotype of F. vesiculosus however, indicates a larger light-harvesting antenna of PSII compared to the marine ecotype of F. vesiculosus and F. radicans. Distinct differences in 77 K fluorescence emission spectra between the Bothnian Sea ecotype of F. vesiculosus and F. radicans confirm that this is a reliable method to use to separate these species. The marine ecotype of F. vesiculosus has a higher photosynthetic maximum (Pmax) compared to the brackish ecotype of F. vesiculosus and F. radicans whereas both the brackish species have similar Pmax. A reason for higher Pmax in the marine ecotype of F. vesiculosus compared to F. radicans is the greater relative amount of ribulose-1.5-bisphosphate carboxylase/oxygenase (Rubisco). The reason for higher Pmax in marine ecotype of F. vesiculosus compare to the brackish ecotype however is not due to the relative amount of Rubisco and further studies of the rate of CO2 fixation by Rubisco is recommended. Treatments of the brackish ecotype of F. vesiculosus in higher salinity than the Bothnian Sea natural water indicate that the most favourable salinity for high Pmax is 10 psu, followed by 20 psu. One part of the explanation to a high Pmax in 10 psu is a greater relative amount of PsaA protein in algae treated in 10 psu. The reason for greater amount of PsaA might be that the algae need to produce more ATP, and are able to have a higher flow of cyclic electron transport around PSI to serve a higher rate of CO2 fixation by Rubisco. However, studies of the rate of CO2 fixation by Rubisco in algae treated in similar salinities as in present study are recommended to confirm this theory. / Fucus vesiculosus L. (Blåstång) är en brunalg som i huvudsak växer i tidvattenzonen i marint vatten men arten klarar också att växa konstant under ytan i det bräckta Bottenhavet. Norska havet och den del av Bottenhavet, där algerna är insamlade i denna studie, har salthalterna 34-35 psu (praktisk salthaltsenhet) respektive 4-5 psu. F. radicans L. Bergström et L. Kautsky (Smaltång) är en nyligen upptäckt art (2005) som har utvecklats i Bottenhavet. F. radicans och Bottenhavets ekotyp av F. vesiculosus växer sida vid sida och har tidigare ansetts vara samma art. Sett till hela Östersjön, så ändras ytans salthalt från 25 till 1-2 psu mellan Östersjöns gräns mot Kattegatt och norra Bottenviken. Den låga salthalten i Östersjön beror på det höga flödet av sötvatten från älvarna och på ett litet inflödet av saltvatten i inloppet vid Kattegatt. Salthaltsgradienten är korrelerad med antalet arter som minskar med minskad salthalt. Östersjön är ett artfattigt hav och de arter som finns är till stor del en blandning av söt- och saltvattenarter. Det finns bara ett fåtal arter som är helt anpassade till bräckt vatten och F. radicans är en av dem. Exempel på miljöskillnader för F. vesiculosus i Norska havet och i Bottenhavet är salthalten, tidvattnet, ljuset och temperaturen. Tidvattnet i Norska havet gör att algerna växlar mellan att vara i vattnet och på land, vilket utsätter algerna för stora ljusskillnader, snabba och stora temperaturväxlingar samt även torka. De alger som växer i Bottenhavet har däremot en jämnare och lägre temperatur, istäcke på vintern och mindre tillgång på ljus eftersom de alltid lever under vattenytan. Skillnaderna i miljön mellan växtplatserna leder till skillnader i fysiologiska anpassningar. Anledningen till att F. vesiculosus och F. radicans valdes som studieobjekt i denna avhandling är att de är viktiga nyckelarter i Bottenhavet. F. vesiculosus och F. radicans är de enda större bältesbildande alger som finns i det artfattiga ekosystemet och de används därför flitigt som mat, gömställe, parningsplats och barnkammare för t.ex. fisk. Att de är nyckelarter gör det angeläget att försöka förstå hur algerna är anpassade och hur de reagerar på miljöförändringar för att få veta hur de kan skyddas och bevaras. F. radicans inkluderades även för att se hur en naturlig art i Bottenhavet är anpassad i jämförelse med den invandrade F. vesiculosus. Marin F. vesiculosus inkluderades för att vara en artreferens från artens naturliga växtplats. Studien visar att det finns fler vattenlösliga organiska substanser (finns vissa organiska substanser som har en proteinskyddande funktion) i den marina ekotypen av of F. vesiculosus än i Bottenhavets ekotyp. Anledningen till detta föreslås vara en anpassning till att växa i tidvattenzonen. Vid lågvatten utsätts F. vesiculosus från Norska havet för starkt ljus, uttorkning, och snabba temperatur- växlingar vilket gör att den kan behöva dessa organiska substanser som skydd mot fria syreradikaler som bildas under lågvattenexponeringarna. F. vesiculosus från Bottenhavet har troligen mist förmågan att syntetisera dessa substanser på grund av anpassning till att hela tiden växa under ytan. Mängden mannitol (socker) är högre i den marina ekotypen av of F. vesiculosus än i Bottenhavets ekotyp. Detta föreslås bero på högre fotosyntetiskt maximum i F. vesiculosus från Norska havet jämfört med ekotypen från Bottenhavet. Skillnaden i fotssyntetiskt maximum är bland annat kopplat till ljus- och salthaltskillnaden på algernas växtplatser. Denna teori styrks av att både fotosyntesen och halten av mannitol ökar i Bottenhavets ekotyp när den behandlas i högre salthalt. Studien visar även att båda ekotyperna av F. vesiculosus samt F. radicans har ett ojämnt förhållande mellan fotosystem II och I (PSII och PSI) med en dominans av PSI. Denna slutsats är baserad på fluorescens emissions mätningar vid 77 K (-196 °C) och mätning av den relativa mängden D1 protein (motsvarar PSII) och PsaA protein (motsvarar PSI). F. vesiculosus från Bottenhavet visar ett emission spektrum som pekar mot en jämnare fördelning av PSII och PSI jämfört med den marina ekotypen och F. radicans. Detta stämmer dock inte med förhållandet mellan D1/PsaA som indikerar att alla tre har mer PSI än PSII. Förklaringen till avvikelsen mellan metoderna antas vara att F. vesiculosus från Bottenhavet har större ljus-infångande antennpigment än marin F. vesiculosus och F. radicans. De tydliga skillnaderna i 77 K fluorescens emission spektra mellan Bottenhavets F. vesiculosus och F. radicans visar att denna metod kan användas som säker artidentifiering. Den marina ekotypen av F. vesiculosus har högre fotosyntetiskt maximum än de båda arterna från Bottenhavet. Mätningar av den relativa mängden av enzymet Rubisco, viktigt för upptaget av koldioxid hos växter och alger, visar att mängden enzym är en sannolik förklaring till skillnaden i fotosyntetiskt maximum mellan den marina ekotypen av F. vesiculosus och F. radicans och detta är troligen en normal artskillnad. Mängden Rubisco kan dock inte förklara skillnaden i fotosyntetiskt maximum mellan de båda ekotyperna av F. vesiculosus. För att undersöka vad skillnaden mellan dessa två beror på så föreslås istället mätningar av Rubisco’s koldioxidfixeringshastighet. Det är en ökning av fotosyntetiskt maximum i Bottenhavets ekotyp av F. vesiculosus när den behandlas i högre salthalt (10, 20 och 35 psu) och det högsta fotosyntetiska maximumet uppmättes i alger som behandlats i 10 psu. Denna ökning beror inte på ökning i den relativa mängden av Rubisco. Ökningen i fotosyntesen speglas dock av en ökning av den relativa mängden PsaA. Detta antas bero på att det behövs mer energi i form av ATP och att en ökning av detta kan ske på grund av att mer PsaA kan driva den cykliska elektrontransporten i fotosyntesreaktionen. Ökat behov av ATP antas bero på en ökning av Rubisco aktiviteten men mätning av aktiviteten krävs för att bekräfta detta. Bothnian Sea brackish brown algae D1 77 K fluorescence emission Fucus vesiculosus Fucus radicans light-harvest antenna mannitol marine NMR Norwegian Sea quantum yield photosynthetic maximum capacity (Pmax) photosystem (PSI PSII) PsaA Rubisco salinity. Biology Biologi Plant physiology Växtfysiologi
214	Analyse radiative des photobioréacteurs / Radiative analysis of photobioreactors Dauchet, Jérémi 07 December 2012 (has links) L'ingénierie de la photosynthèse est une voie prometteuse en vue de produire à la fois des vecteurs énergétiques et des molécules plateformes pour palier la raréfaction des ressources fossiles. Le défi à relever est de taille car il faut réussir à mettre au point des procédés solaires de production de biomasse à constante de temps courte (quelques jours), là où une centaine de millions d'années a été nécessaire à la formation du pétrole. Cet objectif pourrait être atteint en cultivant des micro-organismes photosynthétiques dans des photobioréacteurs dont les performances cinétiques en surface et en volume seraient optimales. Une telle optimisation nécessite avant tout une analyse fine des transferts radiatifs au sein du procédé. L'analyse radiative des photobioréacteurs qui est ici proposée s'ouvre sur la détermination des propriétés d'absorption et de diffusion des suspensions de micro-organismes photosynthétiques, à partir de leurs caractéristiques morphologiques, métaboliques et structurales. Une chaîne de modélisation est construite, mise en oeuvre et validée expérimentalement pour des micro-organismes de formes simples ; à terme, la démarche développée pourra directement être étendue à des formes plus complexes. Puis, l'analyse du transfert radiatif en diffusion multiple est introduite et illustrée par différentes approximations qui apparaissent pertinentes pour une conceptualisation des photobioréacteurs, menant ainsi à la construction d'un intuitif nécessaire à leur optimisation. Enfin, la méthode de Monte Carlo est mise en oeuvre afin de résoudre rigoureusement la diffusion multiple en géométries complexes (géométries qui découlent d'une conception optimisée du procédé) et afin de calculer les performances cinétiques à l'échelle du photobioréacteur. Ce dernier calcul utilise une avancée méthodologique qui permet de traiter facilement le couplage non-linéaire du transfert radiatif à la cinétique locale de la photosynthèse (et qui laisse entrevoir de nombreuses autres applications dans d'autres domaines de la physique du transport). Ces outils de simulation mettent à profit les développements les plus récents autour de la méthode de Monte Carlo, tant sur le plan informatique (grâce à une implémentation dans l'environnement de développement EDStar) que sur le plan algorithmique : formulation intégrale, algorithmes à zéro-variance, calcul de sensibilités (le calcul des sensibilités aux paramètres géométriques est ici abordé d'une manière originale qui permet de simplifier significativement sa mise en oeuvre, pour un ensemble de configurations académiques testées). Les perspectives de ce travail seront d'utiliser les outils d'analyse développés durant cette thèse afin d'alimenter une réflexion sur l'intensification des photobioréacteurs, et d'étendre la démarche proposée à l'étude des systèmes photoréactifs dans leur ensemble. / Photosynthesis engineering is a promising mean to produce both energy carriers and fine chemicals in order to remedy the growing scarcity of fossil fuels. This is a challenging task since it implies to design process for solar biomass production associated with short time constant (few days), while oil formation took hundred million of years. This aim could be achieved by cultivating photosynthetic microorganisms in photobioreactors with optimal surface and volume kinetic performances. Above all, such an optimization necessitate a careful radiative study of the process. A radiative analysis of photobioreactors is here proposed that starts with the determination of the absorption and scattering properties of photosynthetic microorganisms suspensions, from the knowledge their morphological, metabolic and structural features. A model is constructed, implemented and validated for microorganisms with simple shapes ; the extension of this approach for the treatment of complex shapes will eventually be straightforward. Then, multiple scattering radiative transfer analysis is introduced and illustrated through different approximations that are relevant for the conceptualization of photobioreactors, leading to the construction of physical pictures that are necessary for the optimization of the process. Finally, the Monte Carlo method is implemented in order to rigorously solve multiple scattering in complex geometries (geometries that correspond to an optimized design of the process) and in order to calculate the kinetic performances of the reactor. In this trend, we develop a novel methodological development that simplies the treatment of the non-linear coupling between radiative transfer and the local kinetic of photosynthesis. These simulation tools also benefit from the most recent developments in the field of the Monte Carlo method : integral formulation, zero-variance algorithms, sensitivity evaluation (a specific approach for the evaluation of sensitivities to geometrical parameters is here developed and shown to correspond to a simple implementation in the case of a set of academic configurations that are tested). Perspectives of this work will be to take advantage of the developed analysis tools in order to stimulate the reflexion regarding photobioreactor intensification, and to extend the proposed approach to the study of photoreactive systems engineering in general. Photobioréacteurs Micro-organismes photosynthétiques Propriétés radiatives Transfert radiatif Diffusion multiple Géométrie complexe Méthode de Monte Carlo Analyse de sensibilité Couplage cinétique Photobioreactors Photosynthetic microorganisms Radiative properties Radiative transfer Multiple scattering Complex geometry Monte Carlo method Sensitivity analysis Kinetic coupling
215	Fotosyntéza, produkce a růst rostlin při časově proměnné ozářenosti / Photosynthesis, production and growth of plants under temporal light hererogeneity KUBÁSEK, Jiří January 2014 (has links) In this Ph.D. thesis I am dealing with the effect of dynamic irradiance on (i) photosynthesis, growth and bundle sheath leakiness (for CO2) of C4 plants and (ii) bryophyte photosynthesis. Part of this thesis is literature review on broader aspects of the dynamic light effects on photosynthetic and growth processes in plants.
216	CARACTERIZAÇÃO FISIOLÓGICA DE GENÓTIPOS DE BATATA (Solanum tuberosum L.) E SUA EFICIÊNCIA DE USO E RESPOSTA QUANTO AO FÓSFORO / PHYSIOLOGICAL CHARACTERIZATION potato genotypes (Solanum tuberosum L.) AND THEIR EFFICIENCY OF USE AND ANSWER AS TO MATCH Uliana, Suzi Cerezer 14 March 2013 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / Phosphorus (P) is one of the macronutrient that most limits crop production, especially of that potato, a crop that is highly responsive to soil fertility. The deficiency of this nutrient occurs in more than half of the world's arable land. This work aimed to study the effect of two contrasting levels of P in potato genotypes through physiological (growth, chlorophyll a fluorescence, photosynthetic pigments) and biochemical parameters (acid phosphatase activity, phosphorus content in tissues), as well as determinate the efficiency and response index to P. The experiment was conducted hydroponically in a greenhouse, using sand as substrate. The treatments consisted of four potato genotypes SMIC148-A (C), SMIF212-2 (M), SMIG145-1 (O) and SMIJ319-7 (S) and two levels of phosphorus (P), 5% P and 50% (2,32 e 23,23 mg L-1) P of the standard solution. Evaluations were performed at 18, 39 and 62 days after transplanting (DAT). The low level of P was responsible for reductions in tuber yield and production of shoot and root, as decreases in the number of leaves and fresh and dry weight of these parts of the plant were found. The activity of the acid phosphatase enzyme was higher on 5% of P in root and lower in the fourth leaf at initial period of cultivation. The concentration of soluble phosphorus (Pi) and total P content in the tissue, were generally lower at the lower phosphorus level that at the highest level. The concentration of the photosynthetic pigments has been generally kept similar between levels. The Fv/Fm and Fv/Fo ratios as well as a transport rate of electrons (ETR1500) for some genotypes had reductions on 5% P. On the basis of P use and response efficiency indexes, genotypes SMIC148-A (C) and SMIF212-2 (M) were classified into NENR and genotypes SMIJ319-7(S) and SMIG145-1 (O) ER. Keywords: Solanum tuberosum, P use efficiency, P response efficiency, acid phosphatase, phosphorus content, a chlorophyll fluorescence, photosynthetic pigments. / O fósforo (P) é um dos macronutrientes que mais limita a produção agrícola, especialmente a produção de batata, que é uma cultura altamente responsiva à fertilidade do solo. A deficiência deste nutriente ocorre em mais da metade dos solos agricultáveis do mundo. Este estudo teve como objetivo estudar o efeito de níveis contrastantes de P em genótipos de batata através de parâmetros fisiológicos (crescimento, fluorescência da clorofila a, pigmentos fotossintéticos) e bioquímicos (atividade da fosfatase ácida, teor de fósforo nos tecidos), bem como a determinação de índices de eficiência e resposta ao P. O experimento foi conduzido em casa de vegetação, em sistema hidropônico em areia. Os tratamentos utilizados constaram de quatro genótipos de batata, SMIC148-A (C), SMIF212-2 (M), SMIG145-1 (O) e SMIJ319-7 (S) e dois níveis de fósforo (P), 5% de P e 50% (2,32 e 23,23 mg L-1, respectivamente) de P da solução padrão. As avaliações foram realizadas aos 18, 39 e 62 dias após o transplantio (DAT). O baixo nível de P foi responsável por reduções na produção de tubérculos bem como na produção de parte aérea e raiz, pois se verificou decréscimos no número de folhas e na massa fresca e seca destas partes da planta. A atividade da enzima fosfatase ácida foi maior em 5% de P em raiz e menor na quarta folha em período inicial de cultivo. A concentração de fósforo solúvel (Pi) bem como o conteúdo de P total no tecido, foram em geral menores no menor nível de P que no maior nível. A concentração de pigmentos fotossintéticos de maneira geral foi mantida em baixo P. As razões Fv/Fm e Fv/Fo, bem como a taxa de transporte de elétrons (ETR1500) para alguns genótipos tiveram reduções em 5% de P. A partir de índices de eficiência de uso e resposta ao P o genótipos SMIC148-A (C) e SMIF212-2 (M) foram classificados em NENR e os genótipos SMIJ319-7(S) e SMIG145-1 (O) em ER. Solanum tuberosum Eficiência de uso ao P Eficiência de resposta ao P Fosfatase ácida Conteúdo de fósforo Fluorescência da clorofila a Pigmentos fotossintéticos Solanum tuberosum P use efficiency P response efficiency Acid phosphatase Phosphorus content A chlorophyll fluorescence Photosynthetic pigments CNPQ::CIENCIAS BIOLOGICAS
217	Comportamento vegetativo, fisiológico e produtivo na cultura do meloeiro sob salinidade. / Vegetative, physiological and productive behavior in the melon culture under salinity. SOUSA, Valéria Fernandes de Oliveira 21 May 2018 (has links) Submitted by Deyse Queiroz (deysequeirozz@hotmail.com) on 2018-05-21T18:41:56Z No. of bitstreams: 1 VALÉRIA FERNANDES DE OLIVEIRA SOUSA - DISSERTAÇÃO PPGHT-2017.pdf: 2027743 bytes, checksum: 6ca8150b959fb0703c67f3a12bf50521 (MD5) / Made available in DSpace on 2018-05-21T18:41:56Z (GMT). No. of bitstreams: 1 VALÉRIA FERNANDES DE OLIVEIRA SOUSA - DISSERTAÇÃO PPGHT-2017.pdf: 2027743 bytes, checksum: 6ca8150b959fb0703c67f3a12bf50521 (MD5) Previous issue date: 2017-09-25 / O cultivo do meloeiro exerce importância social e econômica à Região Nordeste por levar rentabilidade de produtores. Os estresses abióticos são responsáveis pela perda de produção agrícola no mundo inteiro especialmente nas regiões semiáridas, sendo que a salinidade da água e do solo afeta o desenvolvimento e a produção de espécies hortícolas, logo a seleção de cultivares de meloeiro tolerante à salinidade é relevante para a exploração da cultura. Nesse sentido, o estudo teve como objetivo estudar a influência da salinidade da água e solo nos mecanismos fisiológicos envolvidos com o crescimento, eficiência fotossintética e produção de cultivares de meloeiro. O experimento foi realizado em dois ensaios em ambiente de casa de vegetação na Universidade Federal de Campina Grande, Centro de Ciências e Tecnologia Agroalimentar, Pombal-PB. No primeiro ensaio foi feita seleção de cultivares tolerantes ao estresse salino, testando-se seis cultivares de meloeiro, durante a produção de mudas, com delineamento em blocos casualizados em esquema fatorial 6x5, seis cultivares (Natal, Solares, Goldex, Mandacaru, Iracema e Amarelo Ouro) e cinco concentrações salinas na água de irrigação (0,3; 1,1; 1,9; 2,7; 3,5 dS m -1 CE) com quatro repetições. Foram aferidas mensurações biométricas, fisiológicas e fitomassa. O aumento da salinidade inibiu o desenvolvimento fenológico, aparato fotossintético e acúmulo de massa seca das mudas de meloeiro. As cultivares Natal, Iracema e Goldex foram as mais adaptadas, enquanto que Mandacaru, Solares e Amarelo Ouro as mais sensíveis às condições salinas na produção de mudas. Posteriormente foi realizado o segundo ensaio com o delineamento em blocos cazualizados em esquema fatorial 3x5, três cultivares (Iracema, Goldex e Natal) e cinco concentrações salinas no solo (0,3; 1,3; 2,3; 3,3; 4,3 dS m-1 CE), em quatro repetições para avaliação da biometria, fisiologia e produção. O experimento foi conduzido em vasos de 20 L em sistema tutorado. Os níveis de salinidade do estrato de saturação do solo foram obtidos a partir da dissolução do cloreto de sódio (NaCl), calculado conforme os tratamentos, considerando a salinidade incial do solo (0,3 dS m-1 ), o peso de solo por vaso (20 kg) e a porcentagem de saturação (23%). Nas condições em que o trabalho foi conduzido conclui-se que o aumento da salinidade da água de irrigação inibiu o desenvolvimento com danos fisiológicos as cultivares de meloeiro, mas, dentre as cultivares a Natal revelou maior tolerância aos sais e superou as demais em produtividade. / The cultivation of the melon exerts social and economic importance to the Northeast Region for increasing profitability of producers. Abiotic stresses are responsible for the loss of agricultural production worldwide, especially in semi-arid regions, where salinity of water and soil affects the development and production of horticultural species, so the selection of salinity-tolerant melon cultivars is relevant for the exploitation of culture. In this sense, the study aimed to study the influence of salinity of water and soil on the physiological mechanisms involved with growth, photosynthetic efficiency and production of melon cultivars. The experiment was carried out in two greenhouse experiments at the Federal University of Campina Grande, Agro-Food Science and Technology Center, Pombal-PB. In the first trial, a selection of cultivars tolerant to saline stress was carried out, six cultivars of melon were tested during the production of seedlings, with a randomized block design in a 6x5 factorial scheme, six cultivars (Natal, Solares, Goldex, Mandacaru, Iracema and ) And five saline concentrations in irrigation water (0.3, 1.1, 1.9, 2.7, 3.5 dS m -1 EC) with four replications. Biometric, physiological and phytomass measurements were measured. The increase in salinity inhibited the phenological development, photosynthetic apparatus and accumulation of dry mass of the melon seedlings. The cultivars Natal, Iracema and Goldex were the most adapted, while Mandacaru, Solares and Amarelo Ouro the most sensitive to salt conditions in the production of seedlings. The second experiment was carried out with a 3x5 factorial design, three cultivars (Iracema, Goldex and Natal) and five saline concentrations in the soil (0.3, 1.3, 2.3, 3.3, 4,3 dS m-1 EC), in four replicates for evaluation of biometry, physiology and production. The experiment was conducted in 20 L pots under tutorship. The salinity levels of the soil saturation stratum were obtained from the dissolution of sodium chloride (NaCl), calculated according to the treatments, considering the initial salinity of the soil (0.3 dS m-1 ), the soil weight (20 kg) and the saturation percentage (23%). In the conditions under which the work was carried out, it was concluded that the increase in the salinity of the irrigation water inhibited the development with physiological damages of the melon cultivars, but, among the cultivars at Natal, it showed higher tolerance to the salts and exceeded the others in productivity. Seleção de cultivares de meloeiro. Eficiência fotossintética . Selection of melon cultivars. Photosynthetic efficiency. Salt concentrations in irrigation water.
218	Estresse oxidativo em plantas micropropagadas de pitcairnia albiflos herb. (bromeliaceae) durante a aclimatização e sob estresse hídrico Braga, Virgínia Fernandes 20 April 2011 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-07-20T19:32:21Z No. of bitstreams: 1 virginiafernandesbraga.pdf: 2075207 bytes, checksum: 720e5dba0516d172aec1843372dcecc2 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-07-22T15:25:58Z (GMT) No. of bitstreams: 1 virginiafernandesbraga.pdf: 2075207 bytes, checksum: 720e5dba0516d172aec1843372dcecc2 (MD5) / Made available in DSpace on 2016-07-22T15:25:58Z (GMT). No. of bitstreams: 1 virginiafernandesbraga.pdf: 2075207 bytes, checksum: 720e5dba0516d172aec1843372dcecc2 (MD5) Previous issue date: 2011-04-20 / Pitcairnia albiflos Herb. (Bromeliaceae) atualmente se encontra na lista de espécies ameaçadas de extinção. Essa espécie é endêmica dos afloramentos rochosos do município do Rio de Janeiro, RJ, e vem sofrendo com o pisoteio de alpinistas, queimadas, invasão de gramíneas exóticas e extrativismo vegetal. A micropropagação pode ser utilizada como alternativa às condições de risco em que as populações dessa espécie se encontram submetidas, visando à recomposição de populações ameaçadas em ambiente natural, assim como o abastecimento do mercado consumidor. A etapa final da micropropagação é a aclimatização, período em que as plantas ficam mais susceptíveis e sofrem com o estresse oxidativo devido às mudanças nas condições ambientais. No presente trabalho foram avaliadas as atividades enzimáticas antioxidativas da CAT, SOD, POD, PPO e o conteúdo de prolina, além dos teores de pigmentos fotossintéticos em plantas de Pitcairnia albiflos cultivados in vitro, em meios de cultura contendo duas concentrações de sacarose (15 ou 30 g L-1), tampas não vedadas que permitiam trocas gasosas e frascos vedados com tampas e filme plástico de PVC, que impediam a ventilação. Sob essas condições, as plantas foram cultivadas em meios contendo GA3 ou ANA. Após o período de crescimento in vitro, as plantas foram transferidas para condições ex vitro em casa de vegetação. As análises supra-citadas e a determinação dos teores de carboidratos solúveis totais, sacarose, amido, açúcares redutores, conteúdo relativo de água e suculência também foram realizadas nas plantas previamente cultivadas in vitro com 15 ou 30 g L-1 de sacarose e GA3 em tubos com tampas vedadas, após submissão das mesmas a estresse hídrico durante 24, 38 ou 52 dias. Após o período de estresse hídrico, as plantas foram reidratadas durante 34 dias sob irrigação periódica em casa de vegetação. Nos tecidos cultivados in vitro percebeu-se o surgimento de características de hiperidricidade nas plantas cultivadas com 15 g L-1 de sacarose, GA3 e tubos com tampas vedadas, o que foi evidenciado pelo menor acúmulo de prolina, aumento das atividades das enzimas antioxidantes e menor acúmulo de pigmentos fotossintetizantes. Na condição ex vitro, as plantas cultivadas anteriormente em meio de cultura contendo 15 g L-1 de sacarose apresentaram maior atividade das enzimas antioxidantes não havendo, em alguns casos, diferenças significativas em comparação com a concentração mais elevada de sacarose. Nessa condição o acúmulo de prolina foi menor, o que é indicativo de maior estresse oxidativo nessas plantas durante a aclimatização. Durante o estresse hídrico houve queda na atividade de todas as enzimas estudadas, embora essa queda tenha sido mais acentuada para as plantas que inicialmente foram cultivadas com 15 g L-1 de vi sacarose. O acúmulo de prolina aumentou com o prolongamento do estresse hídrico, sendo maior nas plantas que foram cultivadas in vitro com 30 g L-1 de sacarose. Não houve diferenças significativas no conteúdo de pigmentos fotossintetizantes e nas suas relações para nenhuma das concentrações de sacarose, exceto para os carotenóides totais, que apresentaram aumento significativo ao longo do período de estresse hídrico para as plantas previamente cultivadas com a menor concentração de sacarose. Os conteúdos de carboidratos solúveis totais e sacarose aumentaram com o prolongamento do estresse, sendo mais acentuados na concentração de 30 g L-1 de sacarose. Os conteúdos de amido, o conteúdo relativo de água e a suculência apresentaram redução com o aumento do estresse hídrico. Após a reidratação, todas as plantas mostraram capacidade de recuperação, apresentando valores próximos aos dos controles para todas as variáveis analisadas. Ressalta-se, todavia, que as plantas tratadas com 30 g L-1 de sacarose tiveram melhor recuperação quando comparadas com aquelas que foram tratadas com 15 g L-1 de sacarose. Em função dos resultados obtidos, é possível concluir que a concentração de sacarose utilizada in vitro apresenta influência no processo de aclimatização ex vitro e também, posteriormente, no campo, na capacidade de recuperação das plantas à seca quando elas são submetidas a estresse hídrico. As plantas cultivadas in vitro com 15 g L-1 de sacarose se mostraram mais sensíveis à seca e, possivelmente, não sobreviveriam caso fossem transferidas dos tubos de ensaio diretamente para o campo. As plantas cultivadas in vitro com 30 g L-1 de sacarose aparentemente eram mais resistentes ao processo de aclimatização ex vitro, apresentando maiores chances de sobrevivência em campo, maior tolerância à seca e maior capacidade de recuperação após períodos prolongados de estresse hídrico. / Pitcairnia albiflos Herb. (Bromeliaceae) is currently in the list of endangered species. This species is endemic of the inselbergs of the city of Rio de Janeiro, RJ, and has been suffering with the mountaineer’s trampling, wildfires, invasion of exotic grasses and plant extraction. The micropropagation can be used as an alternative to the risk conditions under which populations of this species are submitted, aiming at the recomposition of endangered populations in the natural environment, as well as the supply of the consumer market. The final stage of the micropropagation is the acclimatization, period in which the plants become more susceptible and suffer from oxidative stress due to the changes in the environmental conditions. In the present study it were evaluated the antioxidative enzymatic activities of CAT, SOD, POD, PPO and proline content, besides the levels of photosynthetic pigments in plants of Pitcairnia albiflos grown in vitro in culture mediums containing two sucrose concentrations (15 or 30 g L-1). Part was covered with unsealed lids that allowed gas exchanges and part was kept in sealed flasks with lids and PVC plastic film, that didn’t allow the ventilation. Under these conditions, the plants were cultivated in culture mediums containing GA3 or NAA. After the in vitro growth period, the plants were transferred to ex vitro conditions at a greenhouse. The above mentioned analyses and the determination of total soluble carbohydrate levels, sucrose, starch, reducer sugars, relative water content and succulence were also performed on the plants previously grown in vitro with 15 or 30 g L-1 of sucrose and GA3 in tubes with sealed lids, after the submission of these to water stress during 24, 38 or 52 days. After the water stress period, the plants were rehydrated for 34 days under regular irrigation at the greenhouse. In the in vitro cultivated tissues it was noted the emergence of hyperhydricity characteristics in the plants grown with 15 g L-1 of sucrose, GA3 and tubes with sealed lids, which was evidenced by the lowest proline accumulation, the increased in the antioxidative enzymatic activities and the lowest accumulation of photosynthetic pigments. In the ex vitro condition, the plants previously grown in culture mediums containing 15 g L-1 of sucrose presented larger antioxidative enzymatic activities, which did not show, in some cases, significant differences compared with the largest concentration of sucrose. In this condition, the proline accumulation was lower, which is an indicative of larger oxidative stress in these plants during acclimatization. During the water stress, there was a fall in the activity of all studied enzymes, although that fall had been more evident in the plants that were initially cultivated with 15 g L-1 of sucrose. The proline accumulation increased with the extension of the water stress, being larger in the plants grown in vitro with 30 g L-1 of sucrose. There were no viii significant differences in the content of photosynthetic pigments and in their relation with any sucrose concentrations, except for total carotenoids, which significantly increased over the period of water stress for the plants previously grown with the lowest concentration of sucrose. The contents of total soluble carbohydrates and sucrose increased with the extension of the stress, being more accentuated in the 30 g L-1 of sucrose concentration. The contents of starch, the relative content of water and succulence presented a reduction with the increase of water stress. After the rehydration, all plants showed recovery capacity, presenting values close to those from the control groups for all the analyzed variables. It should be noted, however, that the plants treated with 30 g L-1 of sucrose had better recovery compared with those that were treated with 15 g L-1 of sucrose. According to the obtained results, it is possible to conclude that the concentration of sucrose used in vitro presents influence on the process of ex vitro acclimatization and also, later in the field, in the recovery capacity of the plants to drought when they are submitted to water stress. The plants grown in vitro with 15 g L-1 of sucrose were more sensitive to drought and, possibly, would not survive if they were transferred from the test tubes directly to the field. The plants grown in vitro with 30 g L-1 of sucrose were apparently more resistant to the ex vitro acclimatization process, presenting greater survival chances in the field, larger drought tolerance and larger recovery capacity after extended periods of water stress. CNPQ::CIENCIAS BIOLOGICAS::ECOLOGIA Aclimatização Estresse oxidativo Bromeliaceae Catalase Superóxido dismutase Peroxidase Prolina Polifenol oxidase Carboidratos Pigmentos fotossintetéticos Pitcairnia albiflos Acclimatization Oxidative stress Bromeliaceae Catalase Superoxide dismutase Peroxidase Polyphenol oxidase Proline Carbohydrates Photosynthetic pigments Pitcairnia albiflos
219	Light-Use Efficiency of Coral-Reef Communities: A Sensitivity Analysis Using an Optically Based Model of Reef Productivity and Calcification Perez, Denise 01 August 2013 (has links) Biogeochemical processes of reefs have been studied for over fifty years, however, information is still lacking on several fundamental reef processes. This lack of information has been limited essentially by techniques that cannot repeatedly sample large spatial areas. These limitations can be reduced with the use of an optical model to estimate biogeochemical processes. This project applied Monteith's light-use efficiency model to coral reef communities for determining photosynthetic and calcification efficiency of light. Gross primary production and net calcification were pooled from the peer-reviewed literature to calculate efficiency. Process efficiency was then compared across functional types of reef communities (i.e., coral, algae/seagrasses, mixed, and sand), and by year, location, season, and depth. Photosynthetic efficiency was calculated from 19 studies, showing an average of 0.039 mol O2 mol-1 photons. Photosynthetic efficiency differed significantly for mixed communities between studies, and for algae/seagrass communities among depths. Calcification efficiency averaged at 0.007 mol CaCO3 mol-1 photons. Significant differences were found in calcification efficiency of algae/seagrasses and mixed reef communities among studies and localities. Additionally, calcification efficiency of algae/seagrasses varied significantly in accordance with depth. Future use of the light-use efficiency model will require determining the efficiency of each functional type to estimate gross production and calcification. Additionally, further investigation of the light-use efficiency model will require long-term measurements of APAR, which is the fraction of incident light absorbed, and the incorporation of environmental parameters that reduce efficiency. reef biogeochemistry coral reef light – use efficiency gross production calcification primary productivity radiative transfer model down-welling irradiance photosynthetic efficiency calcification efficiency absorptance functional convergence hypothesis photosynthesis optical model Marine Biology
220	Modélisation statistique et dynamique de la composition de la graine de tournesol (Helianthus annuus L.) sous l’influence de facteurs agronomiques et environnementaux / Statistical and dynamic modeling of sunflower (Helianthus annuus L.) grain composition under agronomic and environmental factors effects Andrianasolo, Fety Nambinina 14 November 2014 (has links) Pour répondre à la demande mondiale croissante en huile et en protéines, le tournesol apparaît comme une culture très compétitive grâce à la diversification de ses débouchés et son attractivité environnementale et nutritionnelle. Pourtant, les teneurs en huile et protéines sont soumises à des effets génotypiques et environnementaux qui les rendent fluctuantes et difficilement prédictibles. Nous argumentons qu’une meilleure connaissance des effets les plus importants et leurs interactions devrait permettre de mieux prédire ces teneurs. Deux approches de modélisation ont été développées. Dans la première, trois modèles statistiques ont été construits puis comparés à un modèle simple existant. L’approche dynamique est basée sur l’analyse des relations source-puits au champ et en serre (2011 et 2012) pendant le remplissage. Les performances et domaines de validité des deux types de modélisation sont comparés. / Considering the growing global demand for oil and protein, sunflower appears as a highly competitive crop, thanks to the diversification of its markets and environmental attractiveness and health. Yet the protein and oil contents are submitted to genotypic and environmental effects that make them fluctuating and hardly predictable. We argue that a better knowledge of most important effects and their interactions should permit to improve prediction. Two modeling approaches are proposed: statistical one, where we compared three types of statistical models with a simple existing one. The dynamic approach is based on source-sink relationships analysis (field and greenhouse experiments in 2011 and 2012) during grain filling. Performances of both modeling types and their validity domain are compared. Activité photosynthétique Huile Modélisation dynamique Modélisation statistique Protéines Régulation des flux transpiratoires Source-Puits Stress hydrique Photosynthetic activity Oil Dynamic modeling Statistical modeling Proteins Transpiration rate regulation Source-Sink Water stress

Search results