ABSTRACT
Abstract Microalgae research has attracted interest worldwide and in order to advance algal biotechnology in Brazil, government has been funding several projects. In the last 10 years, two main funds were provided by the National Council of Scientific and Technological Development (CNPq) agency to researchers in Brazil, who study the potential uses of microalgae for biomass, bioproducts and biofuels production. These funded projects addressed aspects of algal strain identification, development of algal cultivation techniques, designing photobioreactors and raceway ponds, modeling harvesting and dewatering process, maximizing biomass and oil productivities, characterizing chemical composition with different extractions systems and determining physiochemical properties of biodiesel. This review presents the state of art of algal research conducted by Brazilian institutions. Special attention is given to the recent progress on microalgal cultivation, high-value products extracted from microalgae and potential biofuels production. This review may serve as a policy instrument for planning next steps for algal research in Brazil as well as for attracting attention from international researchers who work with microalgae and would like to pursue a future partnership on algal research with Brazilian research institutions.
Subject(s)
Biotechnology/methods , Biofuels , Microalgae , PhotobioreactorsABSTRACT
A dessalinização é um método de obtenção de água potável limitado pelos problemas ambientais, causados pelo resíduo gerado em seu processo. O objetivo deste estudo foi avaliar o cultivo de Chlorella sp., em meio de cultura a base de concentrado de dessalinização, e determinar os teores de proteínas e lipídeos ao longo dos ciclos de cultivo. Os cultivos foram desenvolvidos em fotobiorreatores cônicos invertidos (4L) e mantidos durante 28 dias resultando em quatro ciclos de cultivo. Para cada ciclo de cultivo, os valores de biomassa (peso seco, g L-1) resultaram em 1º ciclo, 1,55; 2º ciclo, 0,96; 3º ciclo, 0,62, e 4º ciclo em 0,42. Os teores de proteínas e lipídeos variaram entre 45,2 a 48,8% e 8,5 a 11,4%, respectivamente. O primeiro ciclo de cultivo apresentou a maior produtividade em biomassa (PB = 200 mg L-1 dia-1) e produtividade lipídica (PL = 19,6 mg L-1 dia-1), bem como o maior teor de proteínas (48,8%). O maior teor de lipídeos (11,4%) foi obtido no segundo ciclo de cultivo. Foi observado, nos quatro ciclos de cultivo, que a produtividade em biomassa está diretamente correlacionada com a produtividade lipídica, indicando que quanto maior a PB maior será a PL. Os resultados da cultura de Chlorella sp. demonstraram que é possível utilizar o concentrado de dessalinização residual como meio de cultura alternativo e obter biomassa ao longo de quatro ciclos de cultivo, sem comprometer os teores de proteínas e lipídeos na célula microalgal.
Desalination process is a method of obtaining potable drinking water which is limited by environmental problems caused by the waste generated in the process. The aim of this study was to evaluate the cultivation of Chlorella sp. in a culture medium based on residual concentrated desalination and determines the protein and lipid contents along the cultivation cycles. The cultures were developed in a reverse conical photobioreactors (4L) during 28 days resulting in four cultivation cycles. For each cultivation cycle, the value of biomass (dry weight g L-1) resulted: 1st cycle, 1.55 g; 2nd cycle, 0.96; 3rd cycle, 0.62 and 4th cycle, 0.42. The protein and lipid levels ranged from 45.2 to 48.8% and 8.5 to 11.4%, respectively. The first cultivation cycle showed the highest biomass productivity (PB = 200 mg L-1 dia-1) and lipid productivity (PL = 19.6 mg L-1 dia-1), as well as the highest protein content (48.8%). The highest lipid content (11.4%) was observed on second cultivation cycle. It was observed during the four cultivation cycles that the biomass productivity is directly correlated to lipid productivity, indicating that higher PB higher will be PL. The results from this study showed that it is possible to growth Chlorella sp. in a culture medium based on residual concentrated desalination for biomass production along the four cultivation cycles and also, without compromise the protein and lipid contents into the microalgal cell.