The growth and accumulation of economically important metabolites in some species of diatom algae in culture
Keywords:
diatoms, growth, pigments, lipids.Abstract
Defined growth curves of diatoms Achanthes hauckiana (D6), Navicula gastrum (D1г), Nitzshia fonticola (D1а),allocated from freshwater sources Almaty region, on two nutrient media (SAG and Cohn). It is established that the content of carotenoids of diatoms culture not differ from one another, whereas the contents of photosynthetic pigments (chlorophyll A and C) is species-specific. Maximum content of lipid characterized by a culture Nitzshia fonticola (up to 32% of dry weight), minimal (up to 18% of dry weight) – culture Achanthes hauckiana.References
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2 Gastineau R. Biodiversité, reproduction et phylogénie des diatomées bleues du genre Haslea et valorisation de leurs pigments
de type Marennine // Thèse de doctorat de l’Université du Maine, Le Mans, France, 2012. – 328 р.
3 Вассер С.П., Кондратьева Н.В., Масюк Н.П. Водоросли. Справочник. – Киев: Наук.думка, 1989. – 608 с.
4 Bentley K., Cox E.J., Bentley P.J. Nature’s batik: a computer evolution model of diatom valve morphogenesis // Journal of
nanoscience and nanotechnology. – 2005. – Vol. 5. – P. 25-34.
5 Norton T.A., Melkonian M., Andersen R.A. Algal biodiversity // Phycologia. – 1996. – Vol. 35. – P. 353-356.
6 Reinfelder J.R, Milligan A.J., Morel F.M.M. The rate of the C4 pathway in carbon accumulation and fixation in a marine
diatom // Plant Physiology. – 2004. – Vol. 135, N. 4. – P. 2106 – 2111.
7 Dugdale R. C., Wilkerson F. Nutrient limitation of new production in the sea. In: P. G. Falkowski and A. D. Woodhead [eds.]
Primary productivity and biogeochemical cycles in the sea. – Plenum Press,1992. – P. 107–122.
8 Sarthou G., Timmermans K. R., Blain S., Treguer P. Growth physiology and fate of diatoms in the ocean: A review // J. Sea
Res. – 2005. -Vol. 53. – P. 25–42.
9 Wetz M. S., Wheeler P.A. Release of dissolved organic matter by coastal diatoms // Limnol. Oceanogr. – 2007. – Vol. 52, N.
2. – P. 798–807.
10 Liu X., Duan S., Aifen L. Effects of organic carbon sources on growth, photosynthesis, and respiration of Phaeodactylum
tricornutum // J. Appl. Phycol. – 2009. – Vol. 21. – P. 239–246.
11 Sanjay K. R., Nagendra P. M. N., Anupama S. Isolation of diatom Navicula cryptocephala and characterization of oil
extracted for biodiesel production // African Journal of Environmental Science and Technology. – 2012. – Vol. 7, N. 1. – P. 41-48.
12 Fajardo A. R., Cerdбn L.E., Medina A.R. Lipid extraction from the microalga Phaeodactylum tricornutum // Eur. J. Lipid Sci.
Technol. – 2007. – Vol. 109. – P. 120–126.
13 Supriya G., Ramachandra T.V. Chronicle of Marine Diatom Culturing Techniques // Indian Journal of Fundamental and
Applied Life Sciences. – 2011. – Vol. 1, N. 3. – P. 282-294.
14 Spolaore P., Joannis-Cassan C., Duran E., Isambert A. Commercial applications of microalgae. Review // Journal of
bioscience and bioengineering. – 2006. – Vol. 101, N. 2. – P. 87-96.
15 Guillard R.R.L., Lorenzen C.J. Yellow green algae with chlorophyllide c // J. Phycol. – 1972. Vol. 11. – P. 10-14.
16 Cohn S.A., Pickett-Heaps J.D. The effects of colchicine and dinitrophenol on the in vivo rates of anaphase A and B in the
diatom Surirella // Eur.J.Cell.Biol. – 1988. – Vol. 35. – P. 523-530.
17 Jeffrey S.W., Humphrey G.F. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants,
algae and natural phytyplankton // Biochem. Pflanz. – 1975. – Vol. 167. – P. 191-194.
18 Кейтс М. Техника липидологии. – М.: Мир, 1975. – 234 с.
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Dzhokebaeva, S. A., Karpenyuk, T. A., & Orazova, S. B. (2015). The growth and accumulation of economically important metabolites in some species of diatom algae in culture. Experimental Biology, 58(2), 22–27. Retrieved from https://bb.kaznu.kz/index.php/biology/article/view/461
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