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1	Tratamento do líquido gerado no beneficiamento da casca de coco verde em sistema de lodos ativados / Coconut husk liquor treatment in an activated sludge system Sousa, Othavio Luis de 24 September 2007 (has links) O principal impacto ambiental do processo de beneficiamento da casca de coco verde é a geração de resíduo líquido com elevada carga orgânica. Este trabalho teve como objetivo aplicar o sistema convencional de lodos ativados para o tratamento biológico do líquido gerado no beneficiamento da casca de coco verde, além de utilizar o teste de taxa de consumo de oxigênio (TCO) para avaliar a toxicidade do efluente ao lodo aeróbio. O reator de escala laboratorial foi inoculado com lodo proveniente de uma estação de tratamento de esgoto em escala plena. Inicialmente o sistema foi alimentado com efluente sintético contendo sacarose e nutrientes para posterior adição progressiva do resíduo líquido proveniente da reciclagem da casca de coco verde. Para o ensaio de respirometria, as composições testadas foram 25, 50, 75 e 100% de resíduo líquido em termos de carga orgânica e o teste se baseou na medição manual da TCO ao longo do tempo. Para cada composição de efluente se verificou o valor máximo de TCO, o nível de toxicidade devido ao líquido da casca de coco verde (LCCV) e a indicação de inibição permanente. O parâmetro usado nos cálculos de toxicidade e de inibição permanente foi a taxa de consumo de oxigênio específica (TCOe) máxima. Para o monitoramento do sistema de fluxo contínuo, foram empregados os parâmetros pH, índice volumétrico de lodo (IVL), oxigênio dissolvido (OD), demanda química de oxigênio (DQO), taninos totais e sólidos suspensos. O reator foi operado com carga orgânica volumétrica (COV) de 0,8 a 2,9 gDQO/L.d e tempo de detenção hidráulica (TDH) de 26,7 d. Devido à presença natural de leveduras no resíduo líquido, os testes de respirometria foram realizados com o efluente tanto esterilizado quanto in natura. Como os resultados preliminares de respirometria não foram conclusivos, optou-se por começar a adaptação do reator de fluxo contínuo com a menor porcentagem testada: 25% de resíduo líquido. Nos testes adicionais de respirometria não houve toxicidade ao lodo e a TCOe foi diretamente proporcional à concentração de resíduo líquido. A remoção média de DQO obtida durante a operação (LCCV a 100%) foi de 81% com amostra filtrada e 82% com amostra bruta. Houve diminuição significativa da concentração de taninos, de 5332 para 1206 mg/L, em média. No início da operação ocorreu o decaimento da concentração de oxigênio dissolvido (OD) no reator para valores menores que 1 mg/L em decorrência do aumento da concentração de biomassa, mas esta situação não afetou a remoção de matéria orgânica e nem a sedimentabilidade do lodo. A remoção de matéria orgânica obtida com o tratamento em escala laboratorial do LCCV mostra que o sistema convencional de lodos ativados pode ser aplicado como alternativa no tratamento biológico dos resíduos líquidos do beneficiamento da casca de coco verde, porém a demanda elevada de oxigênio pode ser um entrave na operação em escala plena. / The main disadvantage of coconut recycling is the highly pollutant wastewater generated during the process. The objectives of this study were to treat the coconut husk liquor (CHL) using a conventional activated sludge system (AS) and to use the oxygen uptake rate (OUR) test for determining the initial effluent composition of reactor feeding and for wastewater toxicity assessment. The laboratory-scale reactor was inoculated with sludge from a full-scale sewage treatment plant. Firtly the system was fed with synthetic effluent containing saccarose and nutrients which was substituted by CHL. For the OUR test the substrate compositions were 25, 50, 75 and 100% of CHL. For each substrate composition, it was verified the maximum OUR value, the toxicity level and permanent inhibition caused by CHL. The maximal specific oxygen uptake rate (SOUR) was the parameter applied for the toxicity assessment and permanent inhibition calculation. The lab-scale reactor was monitored on the basis of pH, sludge volume index, dissolved oxygen, chemical oxygen demand (COD), total tannins and suspended solids. The respirometry assays were carried out with sterilized and natural effluent because of yeast contamination in CRW. Because of the lack of conclusive results in the first respirometry test, it was chosen the lower composition for reactor adaptation beginning: CRW 25%. In the additional OUR tests it was not detected toxicity and the SOUR values were as higher as CRW concentration. After initializing the reactor adaptation with CRW 25%, the percentage changed to 30% and than increased by 10% each 2 or 3 days until the operation beginning. The mean COD removal values were 81% (filtered sample) and 82% (raw sample). The mean tannin concentration decreased from 5332 to 1206 mg/L. The organic removal and sludge settleability were not affected by the DO concentration decrease to less than 1 mg/L due to biomass increase. The organic removal obtained in the lab-scale AS treatment shows that this system can be an alternative for CHL biological treatment, even though the high oxygen demand could be a disadvantage at full-scale treatment. Activated sludge Coconut husk liquor Respirometry Tannin
2	Tratamento do líquido gerado no beneficiamento da casca de coco verde em sistema de lodos ativados / Coconut husk liquor treatment in an activated sludge system Othavio Luis de Sousa 24 September 2007 (has links) O principal impacto ambiental do processo de beneficiamento da casca de coco verde é a geração de resíduo líquido com elevada carga orgânica. Este trabalho teve como objetivo aplicar o sistema convencional de lodos ativados para o tratamento biológico do líquido gerado no beneficiamento da casca de coco verde, além de utilizar o teste de taxa de consumo de oxigênio (TCO) para avaliar a toxicidade do efluente ao lodo aeróbio. O reator de escala laboratorial foi inoculado com lodo proveniente de uma estação de tratamento de esgoto em escala plena. Inicialmente o sistema foi alimentado com efluente sintético contendo sacarose e nutrientes para posterior adição progressiva do resíduo líquido proveniente da reciclagem da casca de coco verde. Para o ensaio de respirometria, as composições testadas foram 25, 50, 75 e 100% de resíduo líquido em termos de carga orgânica e o teste se baseou na medição manual da TCO ao longo do tempo. Para cada composição de efluente se verificou o valor máximo de TCO, o nível de toxicidade devido ao líquido da casca de coco verde (LCCV) e a indicação de inibição permanente. O parâmetro usado nos cálculos de toxicidade e de inibição permanente foi a taxa de consumo de oxigênio específica (TCOe) máxima. Para o monitoramento do sistema de fluxo contínuo, foram empregados os parâmetros pH, índice volumétrico de lodo (IVL), oxigênio dissolvido (OD), demanda química de oxigênio (DQO), taninos totais e sólidos suspensos. O reator foi operado com carga orgânica volumétrica (COV) de 0,8 a 2,9 gDQO/L.d e tempo de detenção hidráulica (TDH) de 26,7 d. Devido à presença natural de leveduras no resíduo líquido, os testes de respirometria foram realizados com o efluente tanto esterilizado quanto in natura. Como os resultados preliminares de respirometria não foram conclusivos, optou-se por começar a adaptação do reator de fluxo contínuo com a menor porcentagem testada: 25% de resíduo líquido. Nos testes adicionais de respirometria não houve toxicidade ao lodo e a TCOe foi diretamente proporcional à concentração de resíduo líquido. A remoção média de DQO obtida durante a operação (LCCV a 100%) foi de 81% com amostra filtrada e 82% com amostra bruta. Houve diminuição significativa da concentração de taninos, de 5332 para 1206 mg/L, em média. No início da operação ocorreu o decaimento da concentração de oxigênio dissolvido (OD) no reator para valores menores que 1 mg/L em decorrência do aumento da concentração de biomassa, mas esta situação não afetou a remoção de matéria orgânica e nem a sedimentabilidade do lodo. A remoção de matéria orgânica obtida com o tratamento em escala laboratorial do LCCV mostra que o sistema convencional de lodos ativados pode ser aplicado como alternativa no tratamento biológico dos resíduos líquidos do beneficiamento da casca de coco verde, porém a demanda elevada de oxigênio pode ser um entrave na operação em escala plena. / The main disadvantage of coconut recycling is the highly pollutant wastewater generated during the process. The objectives of this study were to treat the coconut husk liquor (CHL) using a conventional activated sludge system (AS) and to use the oxygen uptake rate (OUR) test for determining the initial effluent composition of reactor feeding and for wastewater toxicity assessment. The laboratory-scale reactor was inoculated with sludge from a full-scale sewage treatment plant. Firtly the system was fed with synthetic effluent containing saccarose and nutrients which was substituted by CHL. For the OUR test the substrate compositions were 25, 50, 75 and 100% of CHL. For each substrate composition, it was verified the maximum OUR value, the toxicity level and permanent inhibition caused by CHL. The maximal specific oxygen uptake rate (SOUR) was the parameter applied for the toxicity assessment and permanent inhibition calculation. The lab-scale reactor was monitored on the basis of pH, sludge volume index, dissolved oxygen, chemical oxygen demand (COD), total tannins and suspended solids. The respirometry assays were carried out with sterilized and natural effluent because of yeast contamination in CRW. Because of the lack of conclusive results in the first respirometry test, it was chosen the lower composition for reactor adaptation beginning: CRW 25%. In the additional OUR tests it was not detected toxicity and the SOUR values were as higher as CRW concentration. After initializing the reactor adaptation with CRW 25%, the percentage changed to 30% and than increased by 10% each 2 or 3 days until the operation beginning. The mean COD removal values were 81% (filtered sample) and 82% (raw sample). The mean tannin concentration decreased from 5332 to 1206 mg/L. The organic removal and sludge settleability were not affected by the DO concentration decrease to less than 1 mg/L due to biomass increase. The organic removal obtained in the lab-scale AS treatment shows that this system can be an alternative for CHL biological treatment, even though the high oxygen demand could be a disadvantage at full-scale treatment. Activated sludge Coconut husk liquor Respirometry Tannin
3	Ecophsiology of Growth in the Pacific White Shrimp (Litopenaeus vannamei) Walker, Scott J. 2009 May 1900 (has links) Ecophysiological responses of Litopenaeus vannamei were evaluated as functions of 1) salinity and animal size, 2) temperature and the animal's nutritive state, and 3) dissolved-oxygen concentration and animal size. Growth rate, routine metabolic rate, limiting oxygen concentration for routine metabolism, and marginal metabolic scope were determined for L. vannamei maintained and tested at salinities of 2, 10, and 28 ppt, all at 28 C. Routine metabolic rate (RMR) was not demonstrably dependent on salinity but decreased with increasing shrimp weight. Limiting oxygen concentration for routine metabolism (LOCr) was independent of shrimp weight up to 9 g; but, for larger shrimp, decreased with increasing weight. Marginal metabolic scope (MMS = RMR/LOCr) also decreased with increasing shrimp weight and was independent of salinity for shrimp weighing up to 9 g; but, like LOCr, MMS was dependent on salinity for larger shrimp. Growth rate was significantly less at 2 ppt than at 10 or 28 ppt, which gave similar growth rates. The effects of four temperatures (20, 24, 28, and 32 C) on growth, RMR, LOCr, and MMS were examined for fed and starved L. vannamei. Routine metabolic rate increased with increased temperature both for fed and starved shrimp. Marginal metabolic scope and growth appeared to be positively related and, at 20 C, seemed to induce a state of metabolic torpor. Data from the study of chronic effects of hypoxia (~2 mg O2 L-1) vs. normoxia (> 5 mg O2 L-1) on ecophysiological responses indicated that although low-DO environments can depress RMR and growth in L. vannamei, animals grown under hypoxic and normoxic conditions did not differ in their metabolic responses upon acute exposure to hypoxia, providing no evidence of acclimation to hypoxia in L. vannamei. Data from the above experiments were used to parameterize Ecophys.Shrimp, a computer simulation model of shrimp growth in time-varying environmental regimes. One unified model was able to simulate all my experiments; and, with only minimal adjustment of the model parameter MMSO, it also adequately simulated studies taken from the literature. Thus, Ecophys.Shrimp seems capable of realistically representing the ecophysiological dynamics of shrimp metabolism and growth in various culture systems. ecophysiology metabolism respirometry shrimp computer simulation model
4	Fate and Impact of Canola Oil in Aquatic Environments Under Aerobic Conditions Campo, Pablo January 2009 (has links) No description available. Environmental Engineering Canola oil Respirometry Autoxidation Toxicity
5	Padrões bioenergéticos das aranhas de teia: considerações sobre a unidade e a diversidade do fenômeno / Patterns of bioenergetic of web spiders: considerations about the unity and diversity of the phenomenon Kawamoto, Tatiana Hideko 30 March 2012 (has links) A mecanismos fisiológicos é frequentemente usada para explicar fenômenos importantes da evolução (p.e. endotermia) e ecologia (p.e. limitações fisiológicas para ocupação de determinado microhabitat) dos vertebrados. Apesar de ser uma área promissora para fornecer explicações e mecanismo que tornam hipóteses evolutivas e ecológicas mais robustas, como já é amplamente praticado no estudo dos vertebrados, ela é raramente usada nas hipóteses elencadas para explicar a megadiversidade das aranhas de teia. Por outro lado, as leis da fisiologia são baseadas fortemente em dados de vertebrados que consistem em menos de 1% da biodiversidade existente no planeta. As aranhas são o sétimo maior táxon em número de espécies e são um bom modelo para testar a validade das regras gerais propostas para os vertebrados. Com insto em mente, o presente trabalho investigou três tipos de taxa metabólica - Metabolismo Padrão, Metabolismo Espontâneo Máximo e Metabolismo Diário - em aranhas de teia. Todas estas taxas foram obtidas através de respirometria intermitente Em um primeiro experimento, usando como modelo Loxosceles, um gênero de aranhas especialmente homogêneo em sua morfologia, testou-se o efeito de sedentarismo e intensidade de construção da teia nas taxas metabólicas. Em um segundo experimento, testou-se como as taxas metabólicas se apresentariam frente a grande diversidade das aranhas do clado Orbiculariae. Os resultados mostram que: as diferenças comportamentais analisadas não afetam significativamente as taxas metabólicas; as taxas metabólicas não possuem sinal filogenético; e o melhor modelo é o que ajusta uma relação alometrica diferente para cada gênero em detrimento de um coeficiente exponencial da massa único para toda a amostra. As diferenças comportamentais de Loxosceles provavelmente apresentam-se na distribuição de gasto energético ao longo do dia partindo de um mesmo montante energético. Os dados de diversidade de Orbiculariae provavelmente precisam ser investigados futuramente sob o aspecto das diferenças morfológicas subjacente à diversidade do clado. / The physiological mechanisms are often applied to explain important evolutionary adaptations (e.g. endothermy) and ecology (e.g. physiological limitations to occupy a particular microhabitat) of vertebrates. Despite the fact that it improves vertebrates ecological and evolutionary hypotheses with possible processes and mechanisms, it is scarcely used to understand the megadiversity of web spiders. On the other hand, the physiological rules are based mainly on vertebrates data, an animal group that represents less than 1% of the world biodiversity. Spiders group is the seventh most diverse taxon in terms of species number on the world and are a good model to test the validity of the general rules proposed for vertebrates. Accordingly, this study investigated three types of metabolic rate - Standard Metabolism, Maximum Spontaneous Metabolism, Daily Metabolism - on web spiders. All these rates were obtained by intermittent respirometry. In the first experiment, the Loxosceles model was chosen, a genus of spider with a especially homogeneous morphology, with whom we tested the differences on metabolic rates of spiders with different sedentarity and web building expenditure. In a second experiment we tested how metabolic rates would vary under the high diversity of Orbiculariae spiders clade. The results show that: behavioral differences do not affect significantly the metabolic rates examined, metabolic rates do not have any significant phylogenetic signal and the best model is the one that adjusts a separate allometric relation for each genus at the expense of an unique allometric model for the whole sample. The behavioral differences of Loxosceles probably could be explained by the distribution of energy expenditure throughout the day under the same amount of energy. The diversity of data of Orbiculariae clade probably need to be investigated in the future under the aspect of morphological differences underlying the diversity of the clade Aranhas Bioenergética Bioenergetics Flow respirometry Respirometria intermitente Spiders
6	Characterization of Pretreatment Impacts on Properties of Waste Activated Sludge and Digestibility Kianmehr, Peiman January 2010 (has links) Technologies for pretreatment of waste activated sludges (WAS) prior to digestion are of increasing interest to wastewater treatment utilities because of their promise for improving sludge digestibility and reducing the mass of biosolids remaining after digestion. While there has been considerable study of pretreatment processes, a common approach to describing the impact of pretreatments on sludge biodegradability has not been developed. The overall objective of this study was to develop protocols that can be employed to characterize the impact of pretreatment processes on WAS digestion. Sonication and ozonation were employed as models of physical and chemical pretreatment technologies respectively. A range of physical, chemical and biological responses were evaluated to assess the impact of pretreatment on WAS properties as well as digestibility. WAS samples that were generated over a range of solids residence times (SRTs) under controlled operating conditions were employed to facilitate an assessment of the interaction between pretreatment and WAS properties on digestibility. The VS, COD and soluble TKN responses indicated that a significant fraction of the WAS solids were solublized by sonication and ozonation, however, it appeared that the types of materials which were solublized was affected by the SRT at which the WAS was generated and the level of pretreatment. The results indicated that the impact of pretreatment on biodegradability of WAS was not described by solublization values exclusively without considering the SRT of the sludge and the level and type of pretreatment. A higher level of proteinaceous materials was preferentially solublized as the result of pretreatment. Respirometry revealed that both sonication and ozonation substantially reduced the viable heterotrophs in the sludge and modestly increased the readily biodegradable fraction of COD. The ultimate yields of CH4 and NH4 in BMP tests and VFAs in BAP tests revealed that pretreatment marginally increased the ultimate digestibility of the sludges. Only a high dose of ozonation substantially increased the digestibility of the 15 day SRT sludge. However, both sonication and ozonation substantially increased the rate of hydrolysis which is typically the rate limiting process in WAS digestion. The BMP test was not a useful test to evaluate the rate of methane generation due to inhibition of methanogens in the early days of BMP test for pretreated sludges. The comparison between VFA and ammonia responses in day 10 of BAP test and ultimate values of these responses after 60 days in BMP test revealed linear relationships between these responses. According to these relationships, a set of models were introduced in this study. The models can be employed to predict the ultimate methane and ammonia generation using soluble COD, VFA or ammonia responses in day 10 of BAP tests. The BAP test was determined to be a shorter test (10 days) than the BMP (55 to 60 days) test and could provide information on the rates of hydrolysis and acidification/ammonification processes. Characterization of biodegradable and non-biodegradable material in WAS samples was conducted using a simplified ADM1 model. The characterization also revealed that proteins are a substantial fraction of biodegradable materials. The estimated ammonia, VFA and methane values from the stoichiometric model were similar to the corresponding values from the experiments. This supported the validity of the simplified model for all sludges employed in this study. Civil Engineering
7	Characterization of Pretreatment Impacts on Properties of Waste Activated Sludge and Digestibility Kianmehr, Peiman January 2010 (has links) Technologies for pretreatment of waste activated sludges (WAS) prior to digestion are of increasing interest to wastewater treatment utilities because of their promise for improving sludge digestibility and reducing the mass of biosolids remaining after digestion. While there has been considerable study of pretreatment processes, a common approach to describing the impact of pretreatments on sludge biodegradability has not been developed. The overall objective of this study was to develop protocols that can be employed to characterize the impact of pretreatment processes on WAS digestion. Sonication and ozonation were employed as models of physical and chemical pretreatment technologies respectively. A range of physical, chemical and biological responses were evaluated to assess the impact of pretreatment on WAS properties as well as digestibility. WAS samples that were generated over a range of solids residence times (SRTs) under controlled operating conditions were employed to facilitate an assessment of the interaction between pretreatment and WAS properties on digestibility. The VS, COD and soluble TKN responses indicated that a significant fraction of the WAS solids were solublized by sonication and ozonation, however, it appeared that the types of materials which were solublized was affected by the SRT at which the WAS was generated and the level of pretreatment. The results indicated that the impact of pretreatment on biodegradability of WAS was not described by solublization values exclusively without considering the SRT of the sludge and the level and type of pretreatment. A higher level of proteinaceous materials was preferentially solublized as the result of pretreatment. Respirometry revealed that both sonication and ozonation substantially reduced the viable heterotrophs in the sludge and modestly increased the readily biodegradable fraction of COD. The ultimate yields of CH4 and NH4 in BMP tests and VFAs in BAP tests revealed that pretreatment marginally increased the ultimate digestibility of the sludges. Only a high dose of ozonation substantially increased the digestibility of the 15 day SRT sludge. However, both sonication and ozonation substantially increased the rate of hydrolysis which is typically the rate limiting process in WAS digestion. The BMP test was not a useful test to evaluate the rate of methane generation due to inhibition of methanogens in the early days of BMP test for pretreated sludges. The comparison between VFA and ammonia responses in day 10 of BAP test and ultimate values of these responses after 60 days in BMP test revealed linear relationships between these responses. According to these relationships, a set of models were introduced in this study. The models can be employed to predict the ultimate methane and ammonia generation using soluble COD, VFA or ammonia responses in day 10 of BAP tests. The BAP test was determined to be a shorter test (10 days) than the BMP (55 to 60 days) test and could provide information on the rates of hydrolysis and acidification/ammonification processes. Characterization of biodegradable and non-biodegradable material in WAS samples was conducted using a simplified ADM1 model. The characterization also revealed that proteins are a substantial fraction of biodegradable materials. The estimated ammonia, VFA and methane values from the stoichiometric model were similar to the corresponding values from the experiments. This supported the validity of the simplified model for all sludges employed in this study. Civil Engineering
8	Effects of Heat Transfer Fluid from District Heating Networks on Activated Sludge : A respirometric analysis using a dilution series to assess disruption of biological treatment processes in wastewater treatment facilities Bergseije, Victor January 2014 (has links) District heating has a long standing tradition in Sweden and today it is the most common way of producing and transporting heat. A District heating system (DH system) is divided into three parts: a production facility, distribution network (DH network) and one more heat stations. The heat produced in the facilities is distributed to the customers via a heat transfer medium, usually water (DH water), in piping networks that make up the DH network. The heat is transferred to the customers via the heat exchanger at which point they can use it as heated tap water or for heating purposes. The DH networks are often constructed in steel as it is cheap and a relatively resistant material. However it has the disadvantages of corrosion and expansions when it is exposed high temperatures which lead to damages in the DH network resulting in loss of the DH water, this is an unavoidable occurrence in any DH network. This results in addition of pollutants by leakages into the DH network or with the water that is used to compensate for the losses. The pollutants cause further corrosion, leading to metal contamination, and more damages on the DH network meaning there is a continuous degradation. Therefore various treatments are used to clean and ascertain an acceptable chemical environment in the DH systems. These treatments are effective but not at a level which is required so many chemicals are used to enhance the treatment of the water. Some of these are known to be toxic to humans and water ecosystems. As leakages are abundant and often end up in the WWTPs of the concerned municipality, which often have troubles with disturbances of the biological treatment, it was decided that an assessment of the toxic effects that DH water pose on activated sludge was to be investigated. This was done by testing water from two DH networks, Växjö and Kalmar, on the same activated sludge obtained from Tegelviken WWTP in Kalmar. A respirometric bioassay approach established by the Organization for Economic Co-operation and Development (OECD), OECD standard 209; OECD Guidelines for the Testing of Chemicals was used with changes made to exposure and measuring time as this decrease the risk of misinterpretation of the results. A dilution series using different concentrations (6.25%, 25% and 100%) of DH water was tested and compered to a blank control samples containing only activated sludge. Assessment of toxicity on total oxidation, oxidation carbon and oxidation of nitrogen was made. To get some idea of what might cause toxic effect samples of the waters was sent to outside laboratories for analyses of metals. The result from the bioassay and metal analysis was used to formulate risk factors associated with a DH water spill and exposure to WWTPs. It was found that both DH waters have a significant inhibition on nitrification in WWTPs. The DH water from Kalmar exhibited similar toxicity dynamics, roughly 20% inhibition, despite large differences in concentration. The DH water from Växjö showed a negative correlation between an increase in concentration of DH water and toxicity, 74% for the lowest concentration and 11% for the highest. The metal analysis concluded that there was no abundance of metal contamination which led to the inference that toxicity is probably caused by the chemicals used for treatment. This poses a great risk for the Baltic Ocean as many WWTPs release their treated water directly into water courses with a short detention time before reaching the sea. activated sludge respirometry district heating industrial waste water
9	The Role of Internal Convection in Respiratory Gas Transfer in Larval Zebrafish Hughes, Malcolm 20 July 2018 (has links) Purely diffusive O2 transport typically is insufficient to sustain aerobic metabolism in most multicellular organisms. In small animals, however, a high surface-to-volume ratio may allow passive diffusion alone to supply sufficient O2 transfer. The purpose of this thesis was to explore the impacts of internal convection on the exchange of respiratory gases in a small complex organism, the larval zebrafish (Danio rerio). Thus, I tested the hypothesis that internal convection is required for the normal transfer of the respiratory gases O2 and CO2 and maintenance of resting aerobic metabolic rate. Use of morpholino knockdown of the VEGF-A and TNNT2 proteins allowed examination of two independent models lacking internal convection. Using micro-respirometry, I demonstrated that loss of internal convection reduces resting rates of O2 consumption and CO2 excretion in larvae at 4 days post fertilization. I also used the scanning micro-optrode technique to demonstrate that acute loss of internal convection resulted in reduced rates of cutaneous O2 flux, a trait that was reversed upon the restoration of internal convection. Finally, I demonstrated that in larval zebrafish, loss of internal convection resulted in decreased hypoxic performance and loss or severe reduction of the hypoxic cardiorespiratory responses. The results from these experiments showed that internal convection is i) required to maintain resting rates of respiratory gas transfer in the larval zebrafish, ii) important in facilitating the hypoxic cardiorespiratory responses in larval zebrafish and iii) augments O2 extraction capacity in the face of progressive hypoxia. Convection Diffusion Oxygen Zebrafish Pcrit Respirometry VEGF TNNT2 SMOT
10	Padrões bioenergéticos das aranhas de teia: considerações sobre a unidade e a diversidade do fenômeno / Patterns of bioenergetic of web spiders: considerations about the unity and diversity of the phenomenon Tatiana Hideko Kawamoto 30 March 2012 (has links) A mecanismos fisiológicos é frequentemente usada para explicar fenômenos importantes da evolução (p.e. endotermia) e ecologia (p.e. limitações fisiológicas para ocupação de determinado microhabitat) dos vertebrados. Apesar de ser uma área promissora para fornecer explicações e mecanismo que tornam hipóteses evolutivas e ecológicas mais robustas, como já é amplamente praticado no estudo dos vertebrados, ela é raramente usada nas hipóteses elencadas para explicar a megadiversidade das aranhas de teia. Por outro lado, as leis da fisiologia são baseadas fortemente em dados de vertebrados que consistem em menos de 1% da biodiversidade existente no planeta. As aranhas são o sétimo maior táxon em número de espécies e são um bom modelo para testar a validade das regras gerais propostas para os vertebrados. Com insto em mente, o presente trabalho investigou três tipos de taxa metabólica - Metabolismo Padrão, Metabolismo Espontâneo Máximo e Metabolismo Diário - em aranhas de teia. Todas estas taxas foram obtidas através de respirometria intermitente Em um primeiro experimento, usando como modelo Loxosceles, um gênero de aranhas especialmente homogêneo em sua morfologia, testou-se o efeito de sedentarismo e intensidade de construção da teia nas taxas metabólicas. Em um segundo experimento, testou-se como as taxas metabólicas se apresentariam frente a grande diversidade das aranhas do clado Orbiculariae. Os resultados mostram que: as diferenças comportamentais analisadas não afetam significativamente as taxas metabólicas; as taxas metabólicas não possuem sinal filogenético; e o melhor modelo é o que ajusta uma relação alometrica diferente para cada gênero em detrimento de um coeficiente exponencial da massa único para toda a amostra. As diferenças comportamentais de Loxosceles provavelmente apresentam-se na distribuição de gasto energético ao longo do dia partindo de um mesmo montante energético. Os dados de diversidade de Orbiculariae provavelmente precisam ser investigados futuramente sob o aspecto das diferenças morfológicas subjacente à diversidade do clado. / The physiological mechanisms are often applied to explain important evolutionary adaptations (e.g. endothermy) and ecology (e.g. physiological limitations to occupy a particular microhabitat) of vertebrates. Despite the fact that it improves vertebrates ecological and evolutionary hypotheses with possible processes and mechanisms, it is scarcely used to understand the megadiversity of web spiders. On the other hand, the physiological rules are based mainly on vertebrates data, an animal group that represents less than 1% of the world biodiversity. Spiders group is the seventh most diverse taxon in terms of species number on the world and are a good model to test the validity of the general rules proposed for vertebrates. Accordingly, this study investigated three types of metabolic rate - Standard Metabolism, Maximum Spontaneous Metabolism, Daily Metabolism - on web spiders. All these rates were obtained by intermittent respirometry. In the first experiment, the Loxosceles model was chosen, a genus of spider with a especially homogeneous morphology, with whom we tested the differences on metabolic rates of spiders with different sedentarity and web building expenditure. In a second experiment we tested how metabolic rates would vary under the high diversity of Orbiculariae spiders clade. The results show that: behavioral differences do not affect significantly the metabolic rates examined, metabolic rates do not have any significant phylogenetic signal and the best model is the one that adjusts a separate allometric relation for each genus at the expense of an unique allometric model for the whole sample. The behavioral differences of Loxosceles probably could be explained by the distribution of energy expenditure throughout the day under the same amount of energy. The diversity of data of Orbiculariae clade probably need to be investigated in the future under the aspect of morphological differences underlying the diversity of the clade Aranhas Bioenergética Respirometria intermitente Bioenergetics Flow respirometry Spiders

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