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Different harvesting of marine microalgae
2014 International Renewable and Sustainable Energy Conference (IRSEC), 2014This research shows the comparison of different techniques for harvesting of microalga Pavlova Lutheri. The chosen techniques are the most used; all of them are compared with the aim to chose the most effective for this microalga.
Angeles Cancela +3 more
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2018
The marine environment accounts for most of the biodiversity on our planet, while offering a huge potential for the benefit and wellbeing of mankind. Its extensive resources already constitute the basis of many economic activities – but many more are expected in coming years. This book covers current knowledge on uses of marine algae to obtain bulk and
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The marine environment accounts for most of the biodiversity on our planet, while offering a huge potential for the benefit and wellbeing of mankind. Its extensive resources already constitute the basis of many economic activities – but many more are expected in coming years. This book covers current knowledge on uses of marine algae to obtain bulk and
openaire +1 more source
Methane production from marine microalgae Isochrysis galbana
Bioresource Technology, 2014Methane production from marine microalgae Isochrysis galbana was assessed before and after mechanical and chemical pretreatments. Mechanical pretreatment resulted in a 61.7% increase in soluble Chemical Oxygen Demand. Different hydrolysis conditions were evaluated by varying temperature - T, sulfuric acid concentration - AC and biomass suspension ...
Nathalia O, Santos +3 more
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Light sensing and responses in marine microalgae
Current Opinion in Plant Biology, 2017Marine eukaryotic phytoplankton are major contributors to global primary production. To adapt and thrive in the oceans, phytoplankton relies on a variety of light-regulated responses and light-acclimation capacities probably driven by sophisticated photoregulatory mechanisms.
Jaubert, Marianne +3 more
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Saccharification of Marine Microalgae Using Marine Bacteria for Ethanol Production
Applied Biochemistry and Biotechnology, 2003The saccharification of marine microalgae using amylase from marine bacteria in saline conditions was investigated. An amylase-producing bacterium, Pseudoalterimonas undina NKMB 0074 was isolated and identified. The green microalga NKG 120701 was determined to have the highest concentration of intracellular carbohydrate and was found from our algal ...
Mitsufumi, Matsumoto +4 more
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Biological Toxins from Marine and Freshwater Microalgae
2015A review of toxins produced by marine and freshwater microalgae is reported.
AS Delia +5 more
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Harmful Australian Marine Microalgae
Algal blooms have the potential to wipe out fish farms virtually overnight. Contamination of seafoods with algal toxins can poison human consumers of fish and shellfish. During the past two decades, globally there have been significant increases in economic loss and human health impact due to harmful algal blooms.openaire +1 more source
Medicinal Effects of Peptides from Marine Microalgae
2011Nowadays, there are numerous commercial applications of microalgae, and they have been used to enhance the nutritional value of food and animal feed owing to their chemical composition. They are cultivated as a source of highly nutritional and valuable source.
Se-Kwon, Kim, Kyong-Hwa, Kang
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Marine Microalgae/Cyanobacteria–Invertebrate Symbiosis
2010Photosymbiotic associations between unicellular algae, cyanobacteria, and invertebrates such as corals, sea anemones, bivalves, sponges, foraminiferans, flatworms, and hydra, are found in seawater and freshwater (Muscatine, 1971; review by Trench, 1992; Stat et al., 2006; Venn et al., 2008; Table 1).
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