Biomedical Engineering Reference
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Gouveia, L., and Empis, J. (2003). Relative stabilities of microalgal carotenoids in microalgal
extracts, biomass and fish feed: Effect of storage conditions.
Innovative Food Science
and Emerging Technology,
4: 227-233.
Griffiths, M.J., and Harrison, T.L. (2009). Lipid productivity as a key characteristic for
choosing algal species for biodiesel production.
Journal of Applied Phycology,
21:
493-507.
Guerin, M., Huntley, M.E., and Olaizola, M. (2003). Haematococcus astaxanthin: Applications
for human health and nutrition.
Trends Biotechnology,
21: 210-216.
Hende, S.V.D., Vervaeren, H., and Boon, N. (2012). Flue gas compounds and microalgae:
Bio-chemical interactions leading to biotechnological opportunities
. Bioresource
Technology,
30(6): 1405-1424.
Higuera-Ciapara, I., Felix-Valenzuela, L., and Goycoolea, F.M. (2006). Astaxanthin: A review
of its chemistry and applications.
Critical Reviews in Food Science and Nutrition,
46:
185-196.
Ho, S.H., Chen, C.Y., Yeh, K.L., Chen, W.M., Lin, C.Y., and Chang, J.S. (2010). Characterization
of photosynthetic carbon dioxide fixation ability of indigenous
Scenedesmus obliquus
isolates.
Biochemical Engineering Journal,
53(1):
57-62.
Hu, Q.H. (2004). Industrial production of microalgal cell-mass and secondary products-major
industrial species.
Arthrospira
(
Spirulina
)
platensis
sp. In Richmond, A., Ed.
Handbook
of Microalgal Culture.
Biotechnology and Applied Phycology.
Oxford: Blackwell
Science, pp. 254-272.
Humphrey, A.M. (2004). Chlorophyll as a colour and functional ingredient.
Journal of Food
Science,
69: 422-425.
Hussein, G., Sankawa, U., Goto, H., Masumoto, K., and Watanabe, H. (2006). Astaxanthin, a
carotenoid with potential in human health and nutrition.
Journal of Natural Products,
69: 443-449.
Intergovernmental Panel on Climate Change [IPCC] (2007).
Observed changes in climate and
their effect.
Climate Change 2007: Synthesis Report
, pp. 30.
Iwamoto, H. (2004). Industrial production of microalgal cell mass and secondary products-
major industrial species. In Richmond, A., Ed.
Handbook of Microalgal Culture.
Biotechnology and Applied Phycology
, Oxford: Blackwell Science,
pp. 270-281.
Johnson, E., Krinsky, N., and Russel, R. (1996). Serum response of all-
trans
and 9-
cis
isomers
of β-carotene in humans.
Journal of the American College of Nutrition,
15: 620-624.
Kamath, S.B., Srikanta, M., Shylaja, M.D., Sarada, R., and Ravishankar, G.A. (2008). Ulcer
preventive and antioxidant properties of astaxanthin from
H. pluvialis.
European
Journal of Pharmacology,
500: 387-395.
Krinsky, N.I., and Johnson, E.J. (2005). Carotenoid actions and their relation to health and
disease.
Molecular Aspects of Medicine,
26: 459-516.
Kumar, A., Ergas, S., Yuan, X., Sahu, A., Zhang, Q., Dewulf, J., Malcata, F.X., and Langenhove,
H.V. (2010). Enhanced CO
2
fixation and biofuel production via microalgae: Recent
developments and future directions.
Trends in Biotechnology,
28: 371-380.
Lam, K.M., and Lee, T.K. (2011). Microalgae biofuels: A critical review of issues, problems
and the way forward.
Biotechnology Advances
, doi: 10.1016/j.biotechadv.2011.11.008.
Li, Q., and Du, W., (2008). Perspectives of microbial oils for biodiesel production.
Applied
Microbiology and Biotechnology,
80(5): 749-756.
Liu, J., Huang, J., Fan, K. W., Jiang, Y., Zhong, Y., Sun, Z., and Chen, F. (2010). Production
potential of
Chlorella zofingienesis
as a feedstock for biodiesel.
Bioresource Technology,
101: 8658-8663.
Lorenz, R.T., and Cysewski, G.R. (2000). Commercial potential for
Haematococcus
microal-
gae as a natural source of astaxanthin.
Trends in Biotechnology,
18: 160-167.
Margalith, P.Z. (1999). Production of ketocarotenoids by microalgae
. Applied Microbiology
and Biotechnology,
51: 431-438.
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