Avaliação das comunidades planctônicas e bentônicas de microalgas em viveiros de camarão (Litopenaeus vannamei)

PEREIRA NETO, João Batista

01 November 2006

Submitted by (edna.saturno@ufrpe.br) on 2017-02-14T15:24:18Z No. of bitstreams: 1 Joao Batista Pereira Neto.pdf: 514696 bytes, checksum: 341ecc047e8402da35694f6f3fe03e7a (MD5) / Made available in DSpace on 2017-02-14T15:24:18Z (GMT). No. of bitstreams: 1 Joao Batista Pereira Neto.pdf: 514696 bytes, checksum: 341ecc047e8402da35694f6f3fe03e7a (MD5) Previous issue date: 2006-11-01 / The present study aimed to evaluate the dynamics of planktonic and benthic communities of microalgae, and establish relationships with the hydrological variables, management practices and the production data of the shrimp ponds. During one year, three Litopenaeus vannamei ponds and the affluent channel were analyzed by taking phytoplankton and benthos samples twice a week. In the ponds were recorded informations about the hydrological variables (temperature, pH, dissolved oxygen and salinity), climatic (precipitation), culture management (fertilization data) and the production data (culture time, final weight, weight gain, survival, feed conversion ratio and productivity). The density, abundance and occurrence frequency were used as parameters to evaluate the microalgae community. The Cyanobacteria dominated the plankton in all cycles, reaching the relative abundance of 80%, being the Pseudoanabaena genus the main responsible for this domination. In the benthos, the diatoms dominated with abundance over 85%. The phytoplankton reached higher densities in the ponds, whereas thephytobenthos was dominant in the affluent channel. A positive relation between the benthos diatoms and the shrimps´ growth was observed. / O presente trabalho objetivou avaliar a dinâmica das comunidades planctônica e bentônica de microalgas, procurando estabelecer relações com as variáveis hidrológicas, o manejo e os dados de produção dos viveiros de camarão. Acompanharam-se durante um ano (set/2005 – set/2006) três viveiros de cultivo do camarão marinho (Litopenaeus vannamei) e o canal de abastecimento, nos quais se coletaram quinzenalmente amostras de fitoplâncton e fitobentos. Nos viveiros foram registradas informações sobre as variáveis hidrológicas (temperatura, pH, oxigênio dissolvido e salinidade), climáticas (precipitação pluviométrica), de manejo (data de fertilização) e dados de produção dos cultivos (tempo de cultivo, peso final, ganho de peso, sobrevivência, conversão alimentar e produtividade). Utilizaram-se a densidade, a abundância e a freqüência de ocorrência como parâmetros de avaliação das microalgas. As cianobactérias dominaram o plâncton em todos os ciclos, atingindo abundância relativa superiores a 80%, sendo o gênero Pseudoanabaena o principal responsável por essa dominância. No bentos as diatomáceas dominaramcom abundância acima de 85%. O fitoplâncton obteve maiores densidades nos viveiros e o fitobentos no canal de abastecimento. Foi observada uma relação positiva das diatomáceas do bentos com o crescimento dos camarões.

Fitoplâncton

Fitobento

Microalga

Camarão marinho

Litopenaeus vannamei

Fertilização

Phytoplankton

Phytobentho

Microalgae

Shrimp ponds

Weight gain

Fertilization

Tratamento de vinhaça por processos físico-químicos de precipitação química e flotação e sua utilização como meio de cultivo para a microalga de potencial bioenergético, Chlorella vulgaris / Stillage treatment by physical-chemical processes such as chemical precipitation and flotation and its use as a culture medium for the bioenergetic potentially microalgae, Chlorella vulgaris

Andressa Bichara

24 October 2014

A vinhaça é um dos resíduos provenientes da indústria sucroalcooleira, sendo gerados em média 12 litros do efluente para cada litro de álcool produzido. Uma elevada carga orgânica torna a vinhaça potencial agente poluidor, podendo a disposição direta no solo representar solução ambientalmente desvantajosa para este resíduo. Diante do crescimento do setor sucroalcooleiro no Brasil e da necessidade de gestão do volumoso resíduo, este estudo avaliou duas formas de tratamentos físico-químicos da vinhaça, a precipitação química e a flotação por ar dissolvido (FAD), além de um tratamento biológico através do cultivo de microalgas no efluente do sistema FAD. Avaliou-se, adicionalmente, o potencial nutritivo do sólido separado pela FAD para aplicação como suprimento em alimentação animal. A precipitação química foi estudada variando-se pH (via adição NaOH) e tempo de reação, tendo atingido eficiências de remoção de fósforo, amônia e potássio de 31,3 ± 3,4%, 7,8 ± 4,1% e 9,7 ± 0,7%, respectivamente na faixa de pH de 8,5 a 9,5. Na FAD apenas o parâmetro dosagem apresentou significância estatística na separação dos sólidos suspensos da vinhaça. A dosagem e o percentual de recirculação foram avaliados em ensaios de clarificação e de espessamento de lodo de vinhaça. Desses ensaios obteve-se que todas as faixas de dosagens e recirculações geraram eficiências de remoção de sólidos extremamente elevadas, sendo a dosagem de 20 mg/L de polímero e 13% de recirculação adotadas como vantajosas, apresentando remoção de 98,5% da turbidez. Tal configuração gerou parâmetros de projeto de flotadores de alta eficiência, com elevadas taxas de aplicação superficial. O sólido separado na FAD apresentou interessante potencial nutritivo quando comparado bromatologicamente a produtos já utilizados como alimento para bovinos. O cultivo no efluente do sistema FAD não apresentou resultados positivos mesmo na mínima concentração testada (10% v/v de vinhaça) com relação a crescimento de Chlorella vulgaris Beijerink (1890), provavelmente pela vantagem competitiva das bactérias e possível toxicidade da vinhaça em concentrações elevadas. / The stillage is a waste from the sugar and alcohol industry, which generated on average 12 liters of effluent per liter of alcohol produced. A high organic load makes the vinasse a potential pollutant agent and a direct placement in soil represent environmentally disadvantageous solution to this residue. Given the growth of this sector in Brazil and the need for this bulky waste management, this study evaluated two forms of physicochemical treatments of vinasse: chemical precipitation and dissolved air flotation (DAF), and biological treatment through microalgae cultivation in the effluent of the FAD system. Additionally, it was assessed the nutritional potential of solid separated by FAD for application as animal food supply. Chemical precipitation was studied at varying pH (by adding NaOH) and reaction time, reaching efficiencies of phosphorus, ammonia and potassium removal of 31.3 ± 3.4%, 7.8 ± 4.1% and 9.7 ± 0.7% respectively in the pH range of 8.5 to 9.5. In FAD, only the dosage parameter showed statistical significance in the separation of suspended solids of the stillage. The dosage and the percentage of recirculation were analysed in tests of clarification and thickening sludge stillage. From these tests it was found that all dosages and recirculations ranges generated extremely high solids removal efficiencies, in wich the dosage of 20 mg/ L of polymer and 13% recirculation was adopted as advantageous, with turbidity removal about of 98.5%. Such configuration generated design parameters of high efficiency floaters, with high flow rates. The separated solid in FAD showed interesting nutritional potential when bromatologically compared to products already used as food for cattle. The cultivation in the effluent of FAD system did not show positive results even at the minimum concentration tested (10% v/v vinasse with respect to growth of Chlorella vulgaris Beijerink (1890), probably due the competitive advantage of bacterias and possible toxicity of vinasse in high concentrations.

Cultivo de microalga

FAD

Recuperação de nutrientes

Reuso de resíduos

Tratamento físico-químico

Vinhaça

FAD

Microalgae cultivation

Nutrients recovery

Physicochemical treatment

Vinasse

Wastes reuse

Síntese de ésteres etílicos de ácido graxos por transesterificação direta de biomassa de microalga marinha Chlorella minutissima / Synthesis of fatty acid ethyl esters by direct transesterification of marine microalgae biomass Chlorella minutissima

Guilherme Arantes Pedro

31 July 2017

Atualmente, as microalgas têm se mostrado uma matéria prima de interesse para a produção de biocombustíveis, por ser uma fonte renovável, não poluente e por não competir em áreas de cultivos de alimentos. No entanto, há a necessidade de se explorar fatores e metodologias na produção de biodiesel de microalgas para que o processo seja viabilizado. Este estudo buscou potencializar o processo de transesterificação direta (extração e reação simultaneamente) da biomassa da microalga Chlorella minutíssima para a produção de ésteres etílicos brutos tendo em vista a produção de biodiesel. O processamento direto (in situ) investigou separadamente o uso da biomassa seca e úmida, sob os efeitos dos fatores etanol, clorofórmio e ácido como catalisador. A metodologia de Taguchi foi utilizada como planejamento de experimentos para potencializar a conversão e rendimento mássico em ésteres etílicos. A partir da biomassa seca, analisadas as razões de etanol/biomassa de 100, 50, 25 e 10 mL/g teve a maximização dos resultados utilizando 25 mL de etanol (86,16% em massa com 96% de conversão) e 50 mL de etanol (104% em massa com 88% de conversão), ambas, com 5 mL de clorofórmio e 1mL de ácido sulfúrico por grama de biomassa. Posteriormente, com a inclusão dos catalisadores ácidos HCl e H2SO4 como variável, investigou-se o a reação de transesterificação in situ a partir da biomassa úmida (84% em base seca). Ambos ácidos demonstraram não ter efeito sobre as repostas. A maximização tanto do rendimento mássico quanto da conversão (131,5% em massa com 84% de conversão), bem como produzir a maior quantidade de ésteres com a menor uso de reagentes, utiliza a concentração do ácido a 0,6 mol/L, 25 mL de etanol e proporção de 1:10 de clorofórmio. Tanto a partir da biomassa seca quanto a partir da biomassa úmida, a metodologia de Taguchi foi capaz de determinar os melhores ajustes das condições reacionais para a síntese de ésteres etílicos brutos sem a necessidade de aplicar condições reacionais limitadas pela construção ou segurança do projeto como irradiação de micro-ondas ou condições supercríticas. / Currently, microalgae are considered an interest feedstock for the biofuel production, since they correspond to a renewable and non-polluting source, not competing with food crops areas. However, there is a need to explore factors and methodologies in the production of microalgae biodiesel to enable the process. This study aimed to enhance the direct transesterification process (simultaneous extraction and reaction) of the Chlorella minutíssima microalgae for the crude ethyl esters production in order to produce biodiesel. The direct processing (in situ) was investigated separately dry and wet biomass use under the effects of ethanol, chloroform and acid as a catalyst. The Taguchi methodology (design of experiments) was used to increase conversion and ethyl esters mass yields. The ethanol ratios 100, 50, 25 and 10 mL/g were analyzed from dry biomass. The results were maximized using 25 mL of ethanol (86.16% by mass with 96% conversion) and 50 mL (104% by mass with 88% conversion) with 5 mL of chloroform and 1 mL of sulfuric acid per gram of biomass. Subsequently, with the inclusion of acid catalysts HCl and H2SO4 as a variable, the in situ transesterification reaction of wet biomass (84% on dry basis) was investigated. In both cases, the acids showed no effect on the responses. Mass yield and conversion were maximized (131.5% by mass with 84% conversion), as the highest number of esters with the lowest use of reagents, take 0.6 mol/L acid concentration, 25 mL ethanol and 1:10 chloroform ratio. Taguchi methodology was able to determine the best reaction conditions adjustments for crude ethyl esters synthesis from dry biomass and wet biomass were met without the need to apply reaction conditions limited by the construction or project safety, as microwave irradiation or supercritical conditions.

Chlorella minutíssima

Ésteres etílicos de ácido graxos

Método de Taguchi

Microalga

Transesterificação In situ

Chlorella minutíssima

Fatty acid ethyl esters

In situ transesterification

Microalgae

Taguchi Method

Desenvolvimento do processo de extração de lipídios da biomassa de microalgas marinhas / Development of the lipid extraction process from marine microalgae biomass

Savienne Maria Fiorentini Elerbrock Zorn

31 July 2017

O presente trabalho avaliou a influência de quatro fatores no processo de extração dos lipídios da biomassa de três microalgas marinhas: Chlorella minutíssima, Dunaliella salina e Nannochloropsis gaditana. Estes fatores foram: a umidade da biomassa, a proporção entre os solventes, o volume total de solventes e o tempo de ultrassom, estabelecidos em três diferentes níveis e verificados simultaneamente em diferentes combinações, em um arranjo ortogonal de Taguchi. O objetivo primeiro deste estudo simultâneo foi encontrar o ajuste fornecedor da maior porcentagem de lipídios. Três diferentes níveis de umidade foram investigados na biomassa: 64%, 72% e 80%. A extração de lipídios da biomassa microalgal com elevado teor de umidade permite grande economia de tempo e energia, que seriam consumidos no processo de secagem, caso o processo de extração exigisse somente biomassa seca. Quanto à proporção entre os solventes e ao volume total de solventes, buscou-se encontrar as quantidades ideais de cada um dos solventes empregados: clorofórmio, metanol e água, que contribuem para a lise celular e o sequestro mais eficiente dos lipídios. A quarta variável, o tempo de ultrassom, foi verificado por ser um catalisador do processo de lise celular. O estudo dessas variáveis visou não somente melhorar a eficácia da extração, mas economizar tempo de processo e energia. O processo compreendeu a hidratação controlada da biomassa, seguido da extração propriamente dita, onde um sistema ternário formou-se com a separação posterior em duas fases distintas, com os lipídios dissolvidos na fase orgânica. Além de determinar a melhor condição de extração, este trabalho verificou o potencial do material lipídico das três espécies à conversão em ésteres de etila, visando a produção de biodiesel e a composição em ácidos graxos, avaliando seu potencial à aplicação nutracêutica, como fonte de ácidos graxos essenciais. A melhor condição de extração resultou de uma biomassa com 64% de umidade, proporção de 5,7 de clorofórmio para 3,0 de metanol e 1,0 de água em um volume total de 33 mL de solventes por grama de biomassa; tempos de ultrassom de 50 ou 70 minutos mostraram-se adequados para obtenção dos maiores teores lipídicos. O material lipídico extraído das três espécies revelou-se promissor como matéria-prima para a produção de biodiesel, com conversões de até 94,5%, via catálise ácida, após um tempo de reação de 5 horas a 80ºC e também rico em ácidos graxos essenciais, principalmente os ácidos linoleico e ?-linolênico. A composição em ácidos graxos das três espécies foi comparada com outras espécies do mesmo gênero, e diferentes meios de cultivo, mostrando a influência do cultivo sem injeção de dióxido de carbono, que favorece a síntese de ácidos graxos poli-insaturados. O método de Taguchi foi o diferencial por permitir a avaliação conjunta de todas as variáveis, contribuindo para encontrar os melhores ajustes em menor tempo, ressaltando o ineditismo deste trabalho de pesquisa. / This work aimed to study four factors that influence in the process of lipids extraction in the biomass from three marine microalgae species: Chlorella minutíssima, Dunaliella salina and Nannochloropsis gaditana. These factors were: biomass\' moisture, solvents\' ratio, solvents\' total volume and ultrasonic time, which were set at three different levels and observed simultaneously in a Taguchi orthogonal arrangement. The first objective of this study was to find the simultaneous adjustment provider of higher percentage of lipids. Three different humidity levels were investigated in biomass: 64%, 72% and 80%. The extraction of lipids of microalgal biomass with high moisture content allows great savings of time and energy that would be consumed in the drying process before the extraction if only dry biomass was demanded. Regarding the proportion between solvents and the total volume of solvents, we looked for to find the optimal amounts of each of the employed solvent: chloroform, methanol and water, which contribute to cell lysis and more efficient lipids sequestration. The fourth variable as a catalyst cellular lysis process, ultrasound time was checked. The method comprised controlled hydration of the biomass followed by extraction, where a ternary system formed with subsequent separation into two phases, with lipids dissolved in the organic phase. Besides determining the best extraction condition, this work had as objective verifying the potential of the lipid material to conversion into ethyl esters, aiming at the production of biodiesel and the composition of fatty acids, evaluating its potential for nutraceutical application as a source of essential fatty acids. The best extraction condition employed 64% humidity biomass, ratio of 5,7/3/1 chloroform/methanol/water, 33 mL solvents/gram, ultrasound times of 50 or 70 minutes were adequate to obtain the highest lipid contents. The lipid material extracted from the three species proved promising as raw material for biodiesel production, with conversions up to 94.5%, via acid catalysis, after a reaction time of 5 hours at 80ºC and also rich in essential fatty acids, especially linoleic and ?-linolenic acids. The fatty acid composition of the three species was compared to other species of the same genus and different culture media, showing the influence of the culture without injection of carbon dioxide, which favors the synthesis of polyunsaturated fatty acids. Taguchi method was the differential for allowing the joint evaluation of all the variables, contributing to find the best adjustments in a shorter time, highlighting the novelty of this research work.

Ácidos graxos essenciais

Chlorella minutissima

Dunaliella salina

Extração

Lipídios

Microalgas marinhas

Nannochloropsis gaditana

Taguchi

Chlorella minutissima

Dunaliella salina

Essential fatty acids

Extraction

Lipids

Marine microalgae

Nannochloropsis gaditana

Taguchi

Avaliação do cultivo de Spirulina platensis utilizando simultaneamente nitrato de potássio e cloreto de amônio como fontes de nitrogênio / Evaluation of Spirulina platensis cultivation using simultaneously potassium nitrate and ammonium chloride as nitrogen sources.

Mayla Santos Rodrigues

19 May 2008

Spirulina (Arthrospira) platensis (Cyanophyceae) é uma cianobactéria de grande potencial econômico para a produção de proteínas, principalmente. A utilização simultânea de duas fontes de nitrogênio no cultivo deste microrganismo pode aumentar a quantidade final de biomassa produzida e possibilitar resultados interessantes do ponto de vista de processo de produção. Esta pesquisa teve como principal objetivo verificar o efeito da adição de nitrato de potássio (KNO3) em cultivos de S. platensis realizados com cloreto de amônio (NH4Cl). Através da utilização de planejamento fatorial completo (22 mais configuração estrela), foram verificadas proporções de concentrações iniciais de KNO3 e totais de NH4Cl que variaram de 5,10 a 24,9 mmol · L-1. Foram realizados oito cultivos experimentais e seis cultivos de ponto central, com a utilização de processo descontínuo alimentado e vazões exponencialmente crescentes de adição do sal de amônio. As variáveis independentes (quantidade das fontes de nitrogênio) foram avaliadas simultaneamente através de metodologia de superfície de resposta (regressão multivariável) quanto a sua influência nas variáveis dependentes: concentração celular máxima (Xm), expressa em massa seca por litro de meio, produtividade em células (PX) e fator de conversão de nitrogênio em células (YX/N). A otimização dos cultivos em relação à concentração celular resultou nos seguintes valores: KNO3 = 15,4 mmol · L-1 e NH4Cl = 14,1 mmol · L-1, com Xm esperado de 4450 mg · L-1. O maior valor de concentração celular obtido sob essas condições foi de 4327 mg · L-1, valor este equivalente ao obtido em cultivo de referência para KNO3 (KNO3 = 25,4 mmol · L-1; 4318 mg · L-1) e superior ao obtido em cultivo de referência para NH4Cl (NH4Cl = 21,5 mmol · L-1; 2125 mg · L-1). Concluiu-se que a adição de KNO3 em cultivos com NH4Cl contribuiu para que não houvesse deficiência de nitrogênio no decorrer dos cultivos, proporcionando maiores valores finais de biomassa, com maior conteúdo de clorofila, lipídios e proteínas. A utilização de NH4Cl permitiu a redução dos custos com o meio de cultura, tornando cultivos com associação de tais fontes de nitrogênio uma alternativa vantajosa para a produção desta cianobactéria. / Spirulina (Arthrospira) platensis (Cyanophyceae) is a cyanobacterium which has a great economic potential to protein production, particularly. The simultaneous use of two nitrogen sources can increase the final amount of produced biomass and provide interesting results from the production process point of view. This research had as main goal to evaluate the effect of potassium nitrate (KNO3) addition to S. platensis cultures performed with ammonium chloride (NH4Cl). Through the use of full factorial design (22 plus star configuration), proportions of initial KNO3 and total NH4Cl concentrations, which varied from 5.10 to 24.9 mmol · L-1, were validated. Eight experimental cultures and six central point cultures were carried out using fed-batch process and exponentially-increasing ammonium salt feeding rates. The independent variables (nitrogen sources amount) were simultaneously assessed by response surface methodology (multivariable regression) as to their influence on dependent variables: maximum cell concentration (Xm), expressed in dry mass per liter of medium, cell productivity (PX) and conversion yield of nitrogen to biomass (YX/N). The cultures optimization regarding cell concentration resulted in the following values: KNO3 = 15.4 mmol · L-1 and NH4Cl = 14.1 mmol · L-1, with an expected Xm of 4450 mg · L-1. The highest cell concentration value obtained under these conditions was 4327 mg · L-1, which is comparable to the cell concentration obtained in KNO3 reference culture (KNO3 = 25.4 mmol · L-1; 4318 mg · L-1) and superior to the one obtained in NH4Cl reference culture (NH4Cl = 21.5 mmol · L-1; 2125 mg · L-1). It was drawn that the addition of KNO3 to NH4Cl cultures contributed to avoid nitrogen deficiency during cultivation, providing higher final biomass values with higher chlorophyll, lipid and protein contents. The utilization of NH4Cl allowed the reduction of culture medium costs, turning cultures developed with such nitrogen sources association into an advantageous alternative to the production of this cyanobacterium.

Spirulina platensis

Bioprocessos

Biotecnologia

Energia de biomassa

Fermentação

Fontes de nitrogênio

Microalgas

Processo descontínuo alimentado

Spirulina platensis

Bioprocess

Biotechnology

Fed-batch process

Fermentation

Microalgae

Nitrogen sources

Réponses physiologiques et biochimiques à une limitation nutritive en phosphore ou en azote sur la réorientation métabolique des lipides polaires chez différentes espèces de microalgues marines / Physiological and biochemical responses to a phosphorus or nitrogen limitation on the metabolic reorientation of polar lipids in different marine microalgal species

Huang, Bing

28 November 2018

Les bétaïne lipides (BL) sont des lipides polaires qui se distinguent des phospholipides (PL)par l’absence de phosphore (P). La réorientation métabolique induite par une limitation en P chez des microalgues produisant des BL (Tisochrysis lutea et Diacronema lutheri, Haptophytes) ou en produisant peu (Phaeodactylum tricornutum, Bacillariophyte) a été comparée à celle induite par une limitation en azote (N). Le devenir et le flux de carbone dans différentes voies de biosynthèse ont été étudiés par une approche pluridisciplinaire.La limitation nutritive en P ou en N affecte différemment le métabolisme du carbone selon les espèces microalgales. La limitation en P réduit fortement l’activité photosynthétique et la respiration chez P. tricornutum et T. lutea. Par conséquent, l’accumulation de carbone est plus élevée que sous limitation en N chez ces deux espèces. Les deux limitations stimulent en particulier la synthèse des lipides neutres et / ou des glucides. Le remplacement des PL par les BL a été observé chez P. tricornutum en condition de limitation en P. Ce résultat est en accord avec une augmentation de la transcription du gène codant la bétaïne lipide synthase. En revanche, cette limitation ne modifie pas les teneurs en BL rapportées au carbone chez T. lutea et D. lutheri. La composition en acides gras des différentes classes lipidiques est modifiée selon l’espèce microalgale et l’élément nutritif limitant. Une attention particulière a été portée aux acides gras de la série oméga-3, notamment l’acide eicosapentaénoïque (EPA, 20:5 ω3) et l’acide docosahexaénoïque (DHA, 22:6 ω3) dont les proportions varient en fonction de l’élément limitant,de l’espèce et de la classe lipidique. L’augmentation de la production des lipides neutres et / ou des lipides polaires, notamment des bétaïne lipides, riches en DHA et/ou EPA induite par un stress nutritif laisse envisager une valorisation de ces molécules d’intérêt dans différents domaines dont la nutrition et la santé. / Betaine lipids (BL) are P-free polar lipids, conversely to phospholipids (PL). The metabolic reorientation induced by phosphorus (P) limitation in microalgae producing BL (Tisochrysis lutea and Diacronema lutheri, Haptophyta) or producing low levels of BL (Phaeodactylum tricornutum, Bacillariophyta) was compared to that induced by nitrogen (N) limitation. The carbon destiny and flow in different biosynthetic pathways were studied with a multidisciplinary approach. P or N limitation differently affected carbon metabolism according to microalgal species. P limitation highly decreased photosynthetic activity and respiration of P. tricornutum and T. lutea. Consequently, carbon accumulation was higher than under N limitation in these two species. Both limitations stimulated the synthesis of neutral lipids and / or carbohydrates. Replacement of PL by BL was observed in P. tricornutum under P limitation. This result is in agreement with a transcription increase of the gene encoding BL synthase. On the other hand, this limitation did not modify BL contents in reference with carbon in T. lutea or D. lutheri. Fatty acid composition of the different lipid classes was modified according to the microalgal species and the limiting nutrient. Particular attention was paid to the fatty acids of the omega-3 series, notably eicosapentaenoic acid (EPA, 20:5 ω3) and docosahexaenoic acid (DHA, 22:6 ω3), the proportions of which vary according to the limiting element, species and lipid class. The increase in the production of neutral lipids and / or polar lipids, especially betaine lipids, rich in DHA and / or EPA induced by nutritive stress suggests a valorization of these molecules of interest in various areas including nutrition and health.

Microalgues marines

Bétaïne lipides

Triacylglycérols

Limitation en phosphore

Lipides polaires

Acides gras oméga-3

Marine microalgae

Betaine lipids

Triacylglycerols

Phosphorus limitation

Polar lipids

Omega- 3 fatty acids

579.8

Otimização do cultivo da microalga Haematococcus pluvialis em sistema mixotrófico e potencial uso na alimentação do camarão Macrobrachium amazonicum /

Scardoeli-Truzzi, Bruno

January 2019

Orientador: Lucia Helena Sipauba Tavares / Resumo: A microalga Haematococcus pluvialis apresenta elevado interesse biotecnológico e comercial devido sua capacidade de síntese de compostos de alto valor e composição nutricional rica em proteínas, aminoácidos e outros compostos. Dentre os entraves em sua produção comercial, a obtenção de elevada biomassa tem sido o foco de diversas pesquisa que buscam otimizar o cultivo desta espécie. O cultivo mixotrófico é uma ferramenta que pode auxiliar na obtenção de elevadas produtividades, no entanto a fonte de carbono utilizada nestes cultivos deve ser adequada e disponibilizada de forma correta para completa absorção. O melaço de cana de açúcar é uma fonte de carbono rica em sacarose e nutrientes podendo ser empregado no cultivo de H. pluvialis, no entanto, requer pré-tratamento antes de seu uso. A hidrólise auxilia na redução das moléculas de sacarose em glicose e frutose, aumentando a disponibilidade de carbono e facilitando sua assimilação. Comparado ao melaço in natura, a hidrolise do melaço demonstrou melhores resultados aumentando a produtividade e alta composição bioquímica. Outra ferramenta importante utilizada na otimização dos cultivos algais em condições mixotróficas é o uso de ciclos de luz, uma vez que a luminosidade está relacionada diretamente ao metabolismo algal auxiliando na assimilação dos nutrientes e do carbono. O período de iluminação fornecida varia de espécie para espécie, podendo ou não ser necessário. Neste estudo e para estas condições de cultivo, foram obser... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The Haematococcus pluvialis microalgae displays high biotechnological and commercial interest due to its capacity to synthesize high nutritional value in protein, amino acids and other compounds. Besides the difficulties in commercial production, the obtaining of high biomass amounts has been the objective of several researches which seek to optimize the production of this species. The mixotrophic culture is a tool which may improve the obtention of higher productivity. However, the carbon source for the cultures have to be adequate and has to be in an available form in order to be completely absorbed. The cane molasse is a carbon source rich in saccharose and nutrients and might be employed in H. pluvialis culture. Nevertheless, it requires a pre-treatment for its use. The hydrolysis promotes the reduction of saccharose molecules into glycose and fructose, improving the carbon availability and assimilation. In comparison to in natura molasses, the hydrolysis improved the results by increasing productivity. Light cycle is another important tool for algae culture in mixotrophic conditions, since light is directly related to the algae metabolism, which improves the carbon and nutrients assimilation. The light interval varies according to species and may or may not be necessary to be employed. In this study, an increase in biomass and biochemical composition was observed when H. pluvialis was exposed to light cycles. The best results were obtained with a 20:4 hours cycle (light/... (Complete abstract click electronic access below) / Doutor

Cultivo de microalgas

Composição bioquímica

Biomassa algal

Dietas alimentares

Crustáceos

Espécie nativa

Microalgae growth

Biochemical composition

Algal biomass

Food diets

Crustáceo - Evolução.

Native species

Experimental Studies on the Regulation of Pigment Dynamics in Phytoplankton and Copepods by Dissolved Inorganic Nutrients

Van Nieuwerburgh, Lies

January 2004

<p>This thesis examines the role of dissolved inorganic nutrients in generating changes in phytoplankton community and pigment composition and if such changes can affect the production of the antioxidant astaxanthin in the ecosystem via pelagic copepods. The background of my studies is the possible relationship between eutrophication and a reproductive disturbance in Baltic populations of Atlantic salmon (M74), which is associated with astaxanthin and thiamine deficiencies and oxidative stress. In the southern Baltic Sea, changes in nutrient loads correlate with observed trends of flagellates replacing diatoms in the phytoplankton. Copepods are the main producers of astaxanthin and a major link between phytoplankton and higher trophic levels. In laboratory and field experiments in the Baltic Sea proper and the Norwegian Sea, I show that astaxanthin synthesis in copepods is fast and depends on pigment composition of the phytoplankton diet. Among single-species diets, a diatom and a green algal cyst yielded the highest astaxanthin levels in copepods, and another diatom species, a green alga and a cyanobacterium the lowest. In nutrient-generated phytoplankton blooms in mesocosms, copepods grazing on diverse communities dominated by weakly silicified diatoms produced more astaxanthin compared with copepods grazing on communities dominated by strongly silicified diatoms. This suggests that diatoms invested in defence mechanisms and escaped grazing at surplus Si. A nutrient-starved diatom culture subjected to intraspecific competition exhibited decreased pigment levels, increased thiamine levels and increased oxidative stress. </p><p>My results suggest that diatoms are beneficial for astaxanthin and thiamine production compared to other phytoplankton groups, but not under all circumstances. Copepod growth and development also responded to inorganic nutrient availability and affected total astaxanthin production per volume seawater, with highest production when the copepods grazed on diatoms. From an ecosystem perspective, increased N and P loads seem to promote high astaxanthin production, but not when diatoms disappear completely.</p>

Biology

Astaxanthin

Baltic Sea

carotenoids

diatoms

eutrophication

food web

mesocosms

microalgae

M74 syndrome

oxidative stress

phytoplankton blooms

zooplankton

Biologi

Biology

Biologi

Artificial Leaf for Biofuel Production and Harvesting: Transport Phenomena and Energy Conversion

Murphy, Thomas Eugene

16 October 2013

Microalgae cultivation has received much research attention in recent decades due to its high photosynthetic productivity and ability to produce biofuel feedstocks as well as high value compounds for the health food, cosmetics, and agriculture markets. Microalgae are conventionally grown in open pond raceways or closed photobioreactors. Due to the high water contents of these cultivation systems, they require large energy inputs for pumping and mixing the dilute culture, as well as concentrating and dewatering the resultant biomass. The energy required to operate these systems is generally greater than the energy contained in the resultant biomass, which precludes their use in sustainable biofuel production. To address this challenge, we designed a novel photobioreactor inspired by higher plants. In this synthetic leaf system, a modified transpiration mechanism is used which delivers water and nutrients to photosynthetic cells that grow as a biofilm on a porous, wicking substrate. Nutrient medium flow through the reactor is driven by evaporation, thereby eliminating the need for a pump. This dissertation outlines the design, construction, operation, and modeling of such a synthetic leaf system for energy positive biofuel production. First, a scaled down synthetic leaf reactor was operated alongside a conventional stirred tank photobioreactor. It was demonstrated that the synthetic leaf system required only 4% the working water volume as the conventional reactor, and showed growth rates as high as four times that of the conventional reactor. However, inefficiencies in the synthetic leaf system were identified and attributed to light and nutrient limitation of growth in the biofilm. To address these issues, a modeling study was performed with the aim of balancing the fluxes of photons and nutrients in the synthetic leaf environment. The vascular nutrient medium transport system was also modeled, enabling calculation of nutrient delivery rates as a function of environmental parameters and material properties of the porous membrane. These models were validated using an experimental setup in which the nutrient delivery rate, growth rate, and photosynthetic yield were measured for single synthetic leaves. The synthetic leaf system was shown to be competitive with existing technologies in terms of biomass productivity, while requiring zero energy for nutrient and gas delivery to the microorganisms. Future studies should focus on utilizing the synthetic leaf system for passive harvesting of secreted products in addition to passive nutrient delivery. / text

Synthetic leaf

Biofuel

Microalgae

Evaporation

Porous media

Porous Substrate Bioreactors

Light transfer

Radiation transfer

Biofilm modeling

Multispectral imaging

Nutrient delivery

Mass transfer

Synechococcus

Anabaena

Experimental Studies on the Regulation of Pigment Dynamics in Phytoplankton and Copepods by Dissolved Inorganic Nutrients

Van Nieuwerburgh, Lies

January 2004

This thesis examines the role of dissolved inorganic nutrients in generating changes in phytoplankton community and pigment composition and if such changes can affect the production of the antioxidant astaxanthin in the ecosystem via pelagic copepods. The background of my studies is the possible relationship between eutrophication and a reproductive disturbance in Baltic populations of Atlantic salmon (M74), which is associated with astaxanthin and thiamine deficiencies and oxidative stress. In the southern Baltic Sea, changes in nutrient loads correlate with observed trends of flagellates replacing diatoms in the phytoplankton. Copepods are the main producers of astaxanthin and a major link between phytoplankton and higher trophic levels. In laboratory and field experiments in the Baltic Sea proper and the Norwegian Sea, I show that astaxanthin synthesis in copepods is fast and depends on pigment composition of the phytoplankton diet. Among single-species diets, a diatom and a green algal cyst yielded the highest astaxanthin levels in copepods, and another diatom species, a green alga and a cyanobacterium the lowest. In nutrient-generated phytoplankton blooms in mesocosms, copepods grazing on diverse communities dominated by weakly silicified diatoms produced more astaxanthin compared with copepods grazing on communities dominated by strongly silicified diatoms. This suggests that diatoms invested in defence mechanisms and escaped grazing at surplus Si. A nutrient-starved diatom culture subjected to intraspecific competition exhibited decreased pigment levels, increased thiamine levels and increased oxidative stress. My results suggest that diatoms are beneficial for astaxanthin and thiamine production compared to other phytoplankton groups, but not under all circumstances. Copepod growth and development also responded to inorganic nutrient availability and affected total astaxanthin production per volume seawater, with highest production when the copepods grazed on diatoms. From an ecosystem perspective, increased N and P loads seem to promote high astaxanthin production, but not when diatoms disappear completely.

Biology

Astaxanthin

Baltic Sea

carotenoids

diatoms

eutrophication

food web

mesocosms

microalgae

M74 syndrome

oxidative stress

phytoplankton blooms

zooplankton

Biologi

Biology

Biologi