Microalgae

A. Richmond, CRC Handbook of Microalgae Mass Culture, CRC Press, Boca Raton, Fla., 1986. 

A. M. Hill and D. A. Feinberg, Fuel Products from Microalgae, SERI/TP-231-2348, Solar Energy Research Institute, Golden, Colo., 1984. 

Biological phenomena displayed by marine microalgae and related bioactive saturated 0-heterocycles 98YGK651. 

Megharaj M, Singleton I, McClure NC. 1998. Effect of pentachlorophenol pollution towards microalgae and microbial activities in soil from a former timber processing facility. Bull Environ Contam Toxicol 61 108-115. 

Oxygen evolution rate of photosynthetic microalga Haematococcus pluvialis depending on light intensity and quality... 

E. W. Becker, Microalgae for Human and Animal Consumption, In M. A. Borowitzka and L. J. Borowitzka (eds.), Microalgal Biotechnology, Cambridge University press, Cambridge, 1998. 

Effect of superficial gas velocity on growth of the green microalga Haematococcus pluvialis in airlift photobioreactor... 

In a similar way, microalgal biomass on the sediment surface can be estimated by measuring the chlorophyll contents in benthic microalgae, which are single-celled microscopic plants that inhabit the top 0 to 3 cm of a sediment surface and are sometimes referred to as microphytobenthos. These organisms are the primary food resources of benthic grazers such as shellfish and numerous finfish species. 

Mendes, R.L. et al.. Supercritical carbon dioxide extraction of compounds with pharmaceutical importance from microalgae, Inorg. Chim. Acta, 356, 328, 2003. 

Hejazi, M.A. et al.. Selective extraction of carotenoids from the microalga Dunaliella salina with retention of viability, Biotechnol Bioeng., 79, 29, 2002. 

Hejazi, M.A., Kleinegris, D., and Wijffels, R.H., Mechanism of extraction of P-carotene from microalga Dunaliellea salina in two-phase bioreactors, Biotechnol. Bioeng., 88, 593, 2004. 

Chen, F. et al.. Isolation and purification of the bioactive carotenoid zeaxanthin from the microalga Microcystis aeruginosa by high-speed counter-current chromatography, J. Chromatogr, 1064, 183, 2005. 

Dufosse, L. et ah. Microorganisms and microalgae as sources of pigments for food use a scientific oddity or an industrial reality Trends Food Sci. Technol, 16, 389, 2005. 

P-Carotene from Dunaliella Microalga Salty but Effective.402... 

Pigments from Microalgae and Microorganisms Sources of Food Colorants 401... 

FIGURE 5.4.2 Cultivation of microalgae and utilization as natural pigments. 

Other applications — P-carotene is used in various pet foods as both a colorant and a precursor to vitamin A. It can be applied to an array of animal foods designed for dogs, cats, fish, and birds. The antioxidant and precursory vitamin A properties increase the appeal and application of P-carotene in pet foods. Additionally, P-carotene is an important carotenoid that may assist in improving the color of birds, fish, and crustaceans. Dunaliella salina can serve as a source of algal feed for fish and crustaceans. The microalgae provide carotenoids that are essential for flesh coloring, particularly of salmon and crustaceans. 

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