Cultivo da Salicornia ramosissima da Ilha dos Puxadoiros®

O estágio realizado teve como premissa principal perceber o comportamento da planta face ao seu crescimento em altura da própria planta e em número em função de diferentes épocas de sementeira, e de condições de cultivo, nomeadamente de tipos de solo. O trabalho realizado inclui todo o processo desde a apanha, preparação das sementes e dos campos, e a sementeira propriamente dita. Foi acompanhado o crescimento das plantas em 3 alturas diferentes, por contagem do número de plantas e do comprimento das plantas aéreas. Igualmente foram realizadas análises da granulometria dos solos. Determinaram-se os metais pesados nos solos e nas plantas, assim como os açúcares após a hidrólise e derivatização das amostras liofilizadas, tanto da raíz como da parte aérea. Foi possível concluir que a planta nasce com maior abundância em solos franco-siltosos do que em solos franco-arenosos, onde o seu crescimento é muito pobre ou mesmo nulo. Os valores de cádmio e chumbo encontram-se a níveis adequados para o consumo humano. Coloca-se a hipótese da existência de arabinoglucoronoxilanas como constituinte da raiz desta planta.

Optimization of heterotrophic feeding of the soft coral Sarcophyton cf. glaucum

Heterotrophic feeding has an important role in the processes of growth and reproduction of mixotrophic corals. The soft coral Sarcophyton cf. glaucum is a good candidate for aquaculture due to its economic interest for the marine aquarium trade and for the bioprospection of marine natural products. The lack of information on heterotrophic feeding of this species with preserved microalgae conducted to development of this work. The present study aimed to evaluate the effect of the conservation processes of microalgae in its suitability as heterotrophic feeding for the mixotrophic coral S. cf. glaucum. Additionally, we aimed to identify the most suitable freeze-dried microalgae species and cell density to be employed in the culture of this mixotrophic coral species. Two experiments were performed: in the first experiment the microalgae Nannochloropsis oculata was supplied to coral fragments in three different preservation forms (live paste, frozen and freeze-dried) at the concentration of 106 cell mL-1; in the second experiment three different microalgae species (Nannochloropsis oculata, Isochrysis galbana and Phaeodactylum tricornutum) were tested in two different amounts: 7.33 mg L-1 (corresponding to the concentration of 106 cell mL-1 of Nannochloropsis oculata) and 3.66 mg L-1. Growth rate, survival, organic weight and photobiology of coral fragments, as well as water quality in culture tanks, were evaluated in both experiments. Preserved forms of microalgae did not demonstrated differences in growth rate, organic weight and survival rate of coral fragments, but affected water quality. Freeze-dried microalgae seems to be a good feed supply for coral aquaculture, as it has the best results and it has the higher shell-life time and the lower associated costs. Between the species evaluated in second experiment, Isochrysis galbana promoted higher specific growth rate and higher percentage of organic weight in the coral fragments; additionally the culture tanks supplied with this microalgae species also presented a better water quality in the end of the experiment.

Materials and concepts for CO2 lean ironmaking by pyroelectrolysis

The main purpose of this PhD thesis was to provide convincing demonstration for a breakthrough concept of pyroelectrolysis at laboratory scale. One attempted to identify fundamental objections and/or the most critical constraints, to propose workable concepts for the overall process and for feasible electrodes, and to establish the main requirements on a clearer basis. The main effort was dedicated to studying suitable anode materials to be developed for large scale industrial units with molten silicate electrolyte. This concept relies on consumable anodes based on iron oxides, and a liquid Fe cathode, separated from the refractory materials by a freeze lining (solid) layer. In addition, one assessed an alternative concept of pyroelectrolysis with electron blocking membranes, and developed a prototype at small laboratory scale. The main composition of the molten electrolyte was based on a magnesium aluminosilicate composition, with minimum liquidus temperature, and with different additions of iron oxide. One studied the dynamics of devitrification of these melts, crystallization of iron oxides or other phases, and Fe2+/Fe3+ redox changes under laser zone melting, at different pulling rates. These studies were intended to provide guidelines for dissolution of raw materials (iron oxides) in the molten electrolyte, to assess compatibility with magnetite based consumable anodes, and to account for thermal gradients or insufficient thermal management in large scale cells. Several laboratory scale prototype cells were used to demonstrate the concept of pyroelectrolysis with electron blocking, and to identify the most critical issues and challenges. Operation with and without electron blocking provided useful information on transport properties of the molten electrolyte (i.e., ionic and electronic conductivities), their expected dependence on anodic and cathodic overpotentials, limitations in faradaic efficiency, and onset of side electrochemical reactions. The concept of consumable anodes was based on magnetite and derived spinel compositions, for their expected redox stability at high temperatures, even under oxidising conditions. Spinel compositions were designed for prospective gains in refractoriness and redox stability in wider ranges of conditions (T, pO2 and anodic overpotentials), without excessive penalty for electrical conductivity, thermomechanical stability or other requirements. Composition changes were also mainly based on components of the molten aluminosilicate melt, to avoid undue contamination and to minimize the dissolution rate of consumable anodes. Additional changes in composition were intended for prospective pyroelectrolysis of Fe alloys, with additions of different elements (Cr, Mn, Ni, Ti).

Efeito do exercício físico associado à microcorrente abdominal na reabilitação cardiovascular em contexto domiciliário

Introdução: O aumento da gordura abdominal e o sedentarismo contribuem para o risco de doença cardiovascular. A utilização de corrente elétrica de baixa intensidade (microcorrente) na região abdominal, associado ao exercício físico, parece ser um método inovador no aumento da taxa lipolítica dos adipócitos abdominais. Objetivos: Analisar os efeitos da utilização da microcorrente associada a um programa de exercícios em indivíduos saudáveis e com doença arterial coronária na gordura abdominal, e ainda, analisar os efeitos de um programa de exercício físico específico realizado no domicílio em indivíduos com doença arterial coronária, na fase de manutenção da reabilitação cardiovascular, na capacidade cardiorrespiratória. Métodos: Foram conduzidos três estudos: Estudo 1, em indivíduos saudáveis, durante 5 semanas (n=42), distribuídos aleatoriamente por quatro grupos experimentais (realizavam microcorrente e exercício físico: grupo 1- frequência 25 a 10Hz, elétrodos transcutâneos, exercício físico após; grupo 2- frequência 25 a 50Hz, elétrodos trancutâneos, exercício físico após; grupo 3- frequência 25 a 10Hz, elétrodos percutâneos e exercício físico após; grupo 4- frequência 25 a 10Hz, elétrodos transcutâneos e exercício físico realizado em simultâneo) e placebo (realizavam apenas exercício físico), onde foram avaliadas medidas de gordura abdominal; Estudo 2, em indivíduos saudáveis, durante uma sessão de microcorrente e exercício físico (n=83), distribuídos aleatoriamente por grupo experimental (realizavam microcorrente e exercício físico) e grupo placebo (realizavam exercício físico), onde foram avaliadas a atividade lipolítica (níveis de glicerol) e a oxidação de ácidos gordos (estimada pelo VO2 e VCO2); Estudo 3, em indivíduos após um ano de evento de síndrome coronária aguda (n=44), distribuídos aleatoriamente em dois grupos experimentais (grupo 1- exercício físico no domicílio; grupo 2- microcorrente e exercício físico no domicílio) e um grupo controlo (cuidados habituais), durante 8 semanas, sendo avaliados a gordura abdominal, o colesterol, a capacidade cardiorrespiratória, os hábitos de atividade física e alimentares e a qualidade de vida. Resultados: No estudo 1, após 5 semanas de intervenção de microcorrente e exercício físico, verificou-se uma redução das medidas de gordura abdominal (p<0,05); No estudo 2 observou-se que uma sessão de microcorrente associada ao exercício físico aumentou a taxa lipolítica, através da medição de glicerol (p<0,05), sem alterações significativas na oxidação de ácidos gordos, durante o exercício. No estudo 3, após as 8 semanas de aplicação de microcorrente associada a um programa de exercícios específicos no domicílio ocorreu uma diminuição significativa na gordura subcutânea (p<0,05). O programa de exercício físico de reabilitação cardiovascular no domicílio, per se, aumentou a capacidade cardiorrespiratória, na fase de manutenção (p<0,05). Não se verificaram alterações do colesterol total, dos hábitos alimentares, da atividade física e da qualidade de vida entre os três grupos. Conclusão: A utilização da microcorrente associada ao exercício físico parece ser um meio coadjuvante ao programa de exercícios, na redução do tecido adiposo abdominal em indivíduos saudáveis e em indivíduos após 1 ano de enfarte agudo do miocárdio. O programa de Reabilitação Cardiovascular no domicílio, em fase de manutenção, demonstrou melhoria da capacidade cardiorrespiratória.

Impact of natural and/or chemical stressors on the freeze-tolerant and euryhaline enchytraeid, Enchytraeus albidus

Rapid climatic changes are taking place in Arctic, subarctic and cold temperate regions, where predictions point to an increase in freeze-thaw events, changes in precipitation, evaporation and salinity patterns. Climate change may therefore result in large impacts in ecosystem functioning and dynamics, especially in the presence of contaminants due to intense anthropogenic activities. Even though multiple stress approaches have received increasing interest in the last decades, the number of such studies is limited. In particular, knowledge on the effect of freezethaw events and salinity fluctuations on ecotoxicology of soil invertebrates is lacking, especially important when considering supralittoral species. Therefore, the aim of this thesis was to investigate the effects of low temperature and salinity fluctuations, singly and in combination with contaminants, in the freeze-tolerant and euryhaline enchytraeid Enchytraeus albidus. The assessment of population level endpoints (survival and reproduction), along with physiological and biochemical parameters such as levels of cryoprotectants, ice/water content, oxidative stress biomarkers, cellular energy allocation, and tissue concentration of chemicals (when applied), provided new and valuable knowledge on the effects of selected physical and chemical stressors in E. albidus, and allowed the understanding of adjustments in the primary response mechanisms that enable worms to maintain homeostasis and survival in harsh environments such as polar and temperate-cold regions. The presence of moderate levels of salinity significantly increased freeze-tolerance (mainly evaluated as survival, cryoprotection and ice fraction) and reproduction of E. albidus. Moreover, it contributed to the readjustments of cryoprotectant levels, restoration of antioxidant levels and changed singnificantly the effect and uptake of chemicals (copper cadmium, carbendazim and 4-nonylphenol). Temperature fluctuations (simulated as daily freeze-thaw cycles, between -2ºC and -4ºC) caused substancial negative effect on survival of worms previsouly exposed to non-lethal concentrations of 4-nonylphenol, as compared with constant freezing (-4ºC) and control temperature (2ºC). The decrease in cryoprotectants, increase in energy consumption and the highest concentration of 4-nonylphenol in the tissues have highlighted the high energy requirements and level of toxicity experienced by worms exposed to the combined effect of contaminants and freezing-thawing events. The findings reported on this thesis demonstrate that natural (physical) and chemical stressors, singly or in combination, may alter the dynamics of E. albidus, affecting not only their survival and reproduction (and consequent presence/distribution) but also their physiological and biochemical adaptations. These alterations may lead to severe consequences for the functioning of the ecosystems along the Arctic, subarctic and cold temperate regions, where they play an important role for decomposition of dead organic matter. This thesis provides a scientific basis for improving the setting of safety factors for natural soil ecosystems, and to underline the integration of similar investigations in ecotoxicology, and eventually in risk assessment of contaminants.