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Geomicrobiology Journal Volume 32, 2015 - Issue 3-4: Geobiology of Organo- and Biofilms
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Original Articles

Influence of Different CO2 Concentrations on Microalgae Growth, α-Tocopherol Content and Fatty Acid Composition

Opayi MudimuBotanical Institute, Department of Plant Cell Physiology and Biotechnology, Christian-Albrechts-University of Kiel, Kiel, GermanyCorrespondence[email protected]
,
Nataliya RybalkaBotanical Institute, Department of Plant Cell Physiology and Biotechnology, Christian-Albrechts-University of Kiel, Kiel, Germany;Experimental Phycology and Culture Collection of Algae (SAG), Albrecht-von-Haller-Institute for Plant Sciences, Georg-August-University of Göttingen, Göttingen, Germany
,
Thorsten BauersachsInstitute of Geosciences, Department of Organic Geochemistry, Christian-Albrechts-University of Kiel, Kiel, Germany
,
Thomas FriedlExperimental Phycology and Culture Collection of Algae (SAG), Albrecht-von-Haller-Institute for Plant Sciences, Georg-August-University of Göttingen, Göttingen, Germany
&
Rüdiger SchulzBotanical Institute, Department of Plant Cell Physiology and Biotechnology, Christian-Albrechts-University of Kiel, Kiel, Germany
Pages 291-303 | Received 01 Aug 2013, Accepted 01 Jan 2014, Published online: 03 Apr 2015

References

  • Abd El-Baky HH, El Baz FK, El-Baroty GS. 2004. Production of Antioxidant by the Green Alga Dunaliella salina. Inter J Agri Biol 6(1):49–57.
  • Arp G, Bissett A, Brinkmann N, Cousin S, Beer DD, Friedl T, Mohr KI, Neu TR, Reimer A, Shiraishi F, Stackebrandt E, Zippel B. 2010. Tufa-forming biofilms of German karstwater streams: microorganisms, exopolymers, hydrochemistry and calcification. Geol Soc Spec Publ 336(1):83–118.
  • Backasch N, Schulz-Friedrich R, Appel J. 2005. Influences on tocopherol biosynthesis in the cyanobacterium Synechocystis sp. PCC 6803. J Plant Physiol 162(7):758–766.
  • Bandarra MN, Pereira PA, Batista I, Vilela MH. 2003. Fatty acids, sterols and a-tocopherol in Isochrysis galbana. J Food Lip 10(1):25–34.
  • Borodyanski G, Kirzhner F, Armon R. 2011. Biosystem for cleaning flue gases of power plants. Provisional patent, U.S. Patent.
  • Canakci M, Van Gerpen J. 2001. Biodiesel production from oil and fats with high free fatty acids. Trans ASAE 44(6), 1429–1436.
  • Chisti Y. 2007. Biodiesel from microalgae. Biotechnol Advan 25:294–306.
  • Chisti Y. 2008. Biodiesel from microalgae beats bioethanol. Trends Biotechnol 26:126–131.
  • Chiu S, Kao C, Tsai M, Ong S, Chen C, Lin C. 2009. Lipid accumulation and CO2 utilization of Nannochloropsis oculata in response to CO2 aeration. Bioresour Technol 100:833–838.
  • Davis BC, Kris-Etherton PM. 2003. Achieving optimal essential fatty acid status in vegetarians: current knowledge and practical implications. Amer J Clin Nutr 78:640–646.
  • Del Campo JA, Garcia-Gonzalez M, Guerrero MG. 2007. Outdoor cultivation of microalgae for carotinoid production: current state and perspectives. Appl Microbiol Biotechnol 74:1163–1174.
  • Durmaz Y. 2007. Vitamin E (α-tocopherol) production by the marine microalgae Nannochloropsis oculata (Eustigmatophyceae) in nitrogen limitation. Aquaculture 272:717–722.
  • Griffiths MJ, Harrison STL. 2009. Lipid productivity as a key characteristic for choosing algal species for biodiesel production. J Appl Phycol 21(5):493–507.
  • Hallmann C, Rüdrich J, Enseleit M, Friedl T, Hoppert M. 2011. Microbial diversity on a marble monument: a case study. Environ Earth Sci 63:1701–1711.
  • Hanagata N, Takeuchi T, Fukuju Y, Barnes DJ, Karube I. 1992. Tolerance of microalgae to high CO2 and high temperature. Phytochemistry 31(10):3345–3348.
  • Harris EH. 2009. The Chlamydomonas Sourcebook: Volume 1: Introduction to Chlamydomonas and its Laboratory Use, 2nd ed. Oxford, UK: Academic Press, p444.
  • Hoffmann M, Marxen K, Schulz R, Vanselow KH. 2010. TFA and EPA productivities of nannochloropsis salina influenced by temperature and nitrate stimuli in turbidostatic controlled experiments. Mar Drugs 8(9):2526–2545.
  • Horrobin DF, Manku MS. 1983. How do polyunsatured fatty acids lower plasma cholesterol levels? Lipids 18(8):558–562.
  • Huntley ME, Redalje DG. 2007. CO2 mitigation and renewable oil from photosynthetic microbes: A new appraisal. Mitig Adapt Strateg Glob Chg 12(4):573–608.
  • Ishihara K, Murata M, Kaneniwa M, Saito H, Komatsu W, Shinohara K. 2000. Purification of Stearidonic acid (18:4(n-3)) and Hexadecatetraenoic acid (16:4(n-3)) from algal fatty acid with lipase and medium pressure liquid chromatography. Biosci Biotechnol Biochem 64(11):2454–2457.
  • Jacob-Lopes E, Scoparo CHG, Franco TT. 2008. Rates of CO2 removal by Aphanothece microscopica Nägeli in tubular photobioreactors. Chem Eng Proc 47:1365–1373.
  • Karsten U, Friedl T, Schumann R, Hoyer K, Lembcke S. 2005. Mycosporine amino acids and phylogenies in green algae: Prasiola and its relatives from the trebouxiophyceae (Chlorophyta). J Phycol 41:557–566.
  • Lang I, Hodac L, Friedl T, Feussner I. 2011. Fatty acid profiles and their distribution patterns in microalgae: a comprehensive analysis of more than 2000 strains from the SAG culture collection. BMC Plant Biol 11(1):124–140.
  • Maeda K, Owada M, Kimura N, Omata K, Karube I. 1995. CO2 fixation from the flue gas on coal-fired thermal power plant by microalgae. Energy Convers Manage 36:717–720.
  • Miao X, Wu Q. 2006. Biodiesel production from heterotrophic microalgal oil. Bioresour Technol 97(6):841–846.
  • Murakami M, Ikenouchi M. 1997. The biological CO2 fixation and utilization project by rite (2) – screening and breeding of microalgae with high capability in fixing CO2. Energy Convers Manage 38:493–497.
  • Ogbonna JC, Ichige E, Tanaka H. 2002. Regulating the ratio of photoautotrophic to heterotrophic metabolic activities in photoheterotrophic culture of Euglena gracilis and its application to α-tocopherol production. Biotechnol Lett 24(12):953–958.
  • Patz JA, Campbell-Lendrum D, Holloway T, Foley JA. 2005. Impact of regional climate change on human health. Nature 438(17):310–317.
  • Pires-Cavalcantes KMS, Alencar DB, Sousa MB, Sampaio AH, Saker-Sampaio S. 2011. Seasonal changes of α-tocopherol in green marin algae (Caulerpa genus). J Food Sci 76(5):775–781.
  • Pratoomyot J, Srivilas P, Noiraksar T. 2005. Fatty acids composition of 10 microalgal species. Songklanakarin J Sci Technol 27(6):1179–1187.
  • Pulz O, Gross W. 2004. Valuable products from biotechnology of microalgae. Appl Microbiol Biotechnol 65(6):635–648.
  • Radwan SS. 1991. Sources of C-20-Polyunsaturated fatty acids for biotechnological use. Appl Microbiol Biotechnol 35:421–430.
  • Sasaki K, Watanabe M, Tanaka T. 2002. Biosynthesis, biotechnological production and applications of 5-aminolevulinic acid. Appl Microbiol Biotechnol 58:23–29.
  • Shiraishi F, Bissett A, Beer DD, Reimer A, Arp G. 2008. Photosynthesis, respiration and exopolymer calcium-binding in biofilm calcification (Westerhöfer and Deinschwanger Creek, Germany). Geomicrobiol J 25(2):83–94.
  • Solovchenko A, Khozin-Goldberg I. 2013. High-CO2 tolerance in microalgae: possible mechanisms and implications for biotechnology and bioremediation. Biotechnol Lett 35:1745–1752.
  • Spolaore P, Joannis-Cassan C, Duran E, Isambert A. 2006. Commercial applications of microalgae. J Biosci Bioeng 101:87–96.
  • Starr RC, Zeikus JA. 1993. UTEX-the culture collection of algae at the University of Texas at Austin. J Phycol Suppl 29:1–106.
  • Takagi M, Watanabe K, Yamaberi K, Yoshida T. 2000. Limited feeding of potassium nitrate for intracellular lipid and triglyceride accumulation of Nannochloropsis sp. UTEX LB 1999. Appl Microbiol Biotechnol 54:112–117.
  • Timmermann A, Oberhuber J, Bacher A, Esch M, Latif M, Roeckner E. 1999. Increased El Nino frequency in a climate model forced by future greenhouse warming. Nature 398: 694–697.
  • Tsuzuki M, Ohnuma E, Sato N, Takaku T, Kawaguchi A. 1990. Effects of CO2 concentration during growth on fatty acid composition in microalgae. Plant Physiol 93(3):851–856.
  • Vismara R, Vestri S, Kusmic C, Brarsanti L, Gualtieri P. 2003. Natural vitamin E enrichment of Artema salina fed freshwater and marine microalgae. J Appl Phycol 15:75–80.
  • Viso AC, Marty JC. 1993. Fatty acids from 28 marine microalgae. Phytochemistry 34:1521–1533.
  • Wang B, Li Y, Wu N, Lan CQ. 2008. CO2 biomitigation using microalgae. Appl Microbiol Biotechnol 79(5): 707–718.
  • Wehr JD, Sheath RG. 2003. Freshwater habitats of algae. Freshwater Algae of North America: Ecology and Classification. New York: Elsevier, p11–58.
  • Xu H, Miao X, Wu Q. 2006. High quality biodiesel production from a microalga Chlorella protothecoides by heterotrophic growth in fermenters. J Biotechnol 126(4):499–507.
  • Yoo C, Choi GG, Kim SC, Oh HM. 2013. Ettlia sp. YC001 showing high growth rate and lipid content under high CO2. Bioresour Technol 127:482–488.
  • Yoo C, Jun SY, Lee JY, Ahn CY, Oh HM. 2010. Selection of microalgae for lipid production under high levels carbon dioxide. Bioresour Technol 101:71–74.

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