TCC - Bacharelado em Engenharia de Pesca (UAST)

URI permanente para esta coleçãohttps://arandu.ufrpe.br/handle/123456789/2938

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    Acompanhamento das atividades do Laboratório de Biotecnologia de Microalgas (LABIM/UAST)
    (2018) Oliveira, Carlos Yure Barbosa de; Dantas, Danielli Matias de Macêdo; http://lattes.cnpq.br/3422902414863662; http://lattes.cnpq.br/3825860944561089
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    Avaliação da taxa de filtração da daphnia magna cultivada em sistema autotrófico (água clara) e sistema mixotrófico (biofloco) com diferentes dietas ofertadas
    (2022-06-03) Rodrigues, Mônica de Lima; Abreu, Jéssika Lima de; http://lattes.cnpq.br/6237276943114119; http://lattes.cnpq.br/2300244354976388
    In aquaculture, the larviculture phase of fish farming is one of the main challenges faced, due to the small size of the cultured individuals and the inherent difficulties in feeding and management. The filtration rate is calculated assuming that the nutrient rate of zooplankton is proportional to the concentration of available food. It is relevant to know the filtration rate in order to know how best to produce organisms, verifying if the type of culture will interfere in the filtration rate, and to observe if there is selectivity regarding the diet offered. The culture was performed in autotrophic system, when inorganic carbon and light are used as energy sources; and mixotrophic, in the presence of organic and inorganic carbon, light, and organic compounds as energy sources. Thus, the present research aimed to know the filtration rate of Daphnia magna (cladoceran) in autotrophic and mixotrophic culture being tested different microalgae diets. The experiment was carried out with six treatments with three repetitions each, based on two factors: culture (autotrophic or mixotrophic) and diet (Chlorella vulgaris, Haematococcus pluvialis (green phase/vegetative phase) and red phase/cystic phase). The water quality variables: temperature (°C), dissolved oxygen (mg.L-1 ) and pH were measured twice a day throughout the culture. The variables analyzed for filtration rate were: filtration rate (TF), cell decay with the presence of Daphnia (K Daph ), cell decay without the presence of Daphnia (K sDaph), ratio with Daphnia (C/C0 Daph), ratio without Daphnia (C/C0 sDaph). The growth variables were: specific growth rate (SGR), doubling time (DT), maximum mean density (DMX), yield (R), and day of maximum density (DMD). As for Dissolved Oxygen, there was a significant difference only for the algae factor. However, the other variables pH and temperature showed no statistical difference, with the pH staying around 7.3 and the temperature around 29° C. As for TF, no statistical differences were found in the treatments. However, certain treatments had higher values for H. pluvialis in the cystic phase in both types of cultures and lower values for H. pluvialis in the vegetative phase. The day of maximum density (MDD) was reached on day 7 in the autotrophic culture with the diet of H. pluvialis in the green phase being fed. Thus, H. pluvialis in the green phase was found to be a well utilized food for Daphnia magna
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    Microalgas do Semiárido: florações nocivas, variabilidade sazonal e suas possíveis aplicações biotecnológicas
    (2018) Oliveira, Carlos Yure Barbosa de; Dantas, Danielli Matias de Macêdo; Olivera Gálvez, Alfredo; http://lattes.cnpq.br/7002327312102794; http://lattes.cnpq.br/3422902414863662; http://lattes.cnpq.br/3825860944561089
    Microalgae and cyanobacteria are eukaryotes and prokaryotes, respectively, photosynthetic and use atmospheric CO2, light and inorganic compounds for their growth. In addition, they produce nutritional, bioactive compounds and some species mayproduce toxins (like some species of cyanobacteria and dinoflagellates). The present study aimed to identify and isolate species from the phytoplankton community of reservoirs located in the semiarid Pernambucano and later to evaluate the biotechnological potential of microorganisms previously isolated from the center of cultureof the Laboratório de Produção de Alimento Vivo (LAPVI-UFRPE/Sede). For the collection of these organisms a network with a mesh of 20μm was used, being part of the collected material fixed in formaldehyde to 4% and the rest submitted to the culture. After the sorting of all collected material, the canonical correspondence analysis was performed to evaluate possible interactions between the abiotic parameters and the species found. The evaluation of biotechnological potential occurred by the bioremediation capacity test of Chlorella vulgarisin effluent from a biofloc system (BFT). Twenty-one taxa were recorded, most of them of the class Chlorophyceae. Among the species found, we highlight the presence of Ceratium furcoides, an exotic dinoflagellate that is found in a growing geographic expansion in Brazil. In the evaluation of bioremediation potential, the presence of Chlorella vulgaris promoted a reduction in the levels of nitrogenous and phosphate compounds of the BFT effluent of approximately, 79.2% and 48%, respectively. In addition to the removal capacity of these compounds, BFT effluent presented as potential medium for the cultivation of this microalgae.