Abstract
The fresh water green microalga Chlorella zofingiensisis known to accumulate ketocarotenoids – primarily astaxanthin but also canthaxanthin – when grown under stress conditions of high light irradiance and low nitrogen. We found that salt stress can replace light stress with respect to inducing carotenoid production: cells of C. zofingiensis grown under low light irradiance and subjected to salt and low nitrogen stress accumulated higher amounts of total secondary carotenoids than those growing under high light and low nitrogen stress. Furthermore, C. zofingiensis growing under conditions of salt stress and low light accumulated higher amounts of canthaxanthin than astaxanthin. It is suggested that for canthaxanthin accumulation under salt stress, light is not a limiting factor, but for astaxanthin accumulation high light irradiance is mandatory. These results may be applied in the future for the commercial production of canthaxanthin by C. zofingiensis in systems in which light availability is poor.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Baker, R.T.M.2002 Canthaxanthin in aquafeed applications: is there any risk? Trends in Food Science and Technology 12,240–243.
Borowitzka, M.A., Huisman, J.M.& Osborn, A.1991 Culture of the astaxanthin-producing green alga Haematococcus pluvialis.1. Effect of nutrients on growth and cell type. Journal of Applied Phycolology 8, 15–19.
Brown, T.E., Richardson, F.L. & Vaughn, M.L.1967 Development of red pigmentation in Chlorococcum wimmeri (Chlorophyta:Chlorococcales).Phycologia 6,167–184.
Czygan, F.C.1964 Canthaxanthin als sekundar-Carotenoid einiger Grunalgen. Experientia 20,573–577.
Czygan, F.C. 1982 Primare und sekundare Carotenoide in chlokokkalen Algen. Archives of Hydrobiology Suppl.60,470–488.
Hagen, C., Braune, W. & Bjorn, L.O. 1994 Functional aspects of secondary carotenoids in Haematococcus lacustris (Volvocales). III.Action as a "sunshade'. Journal of Phycology 30,241–248.
Hata, N., Ogbonna. J.C., Hasegawa, Y., Taroda, H. & Tanaka, H. 2001 Production of astaxanthin by Haematococcus pluvialis in a sequential heterotrophic–photoautotrophic culture. Journal of Applied Phycology 13,395–402.
Orosa, M., Torres, E., Fidalgo, P. & Abalde, J. 2000 Production and analysis of secondary carotenoids in green algae. Journal of Applied Phycology 12,553–556.
Orosa, M., Valero, J.F., Herrero, C. & Abalde, J. 2001 Comparison of the accumulation of astaxanthin in Haematococcus pluvialis and other green microalgae under N-starvation and high light conditions. Biotechnology Letters 23,1079–1085.
Park, E.K. & Lee, C.G. 2001 Astaxanthin production by Haematococcus pluvialis under various light intensities and wavelengths. Journal of Microbiology and Biotechnology 11,1024–1030.
Paust, J. 1991 Recent progress in commercial retinoids and carotenoids. Pure and Applied Chemistry 63,45–58.
Rise, M., Cohen, E., Vishkautsan, M., Cojocaru, M., Gottlieb, H.E. & Arad (Malis), S. 1994 Accumulation of secondary carotenoids in Chlorella zo ngiensis. Journal of Plant Physiology 144,28.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pelah, D., Sintov, A. & Cohen, E. The Effect of Salt Stress on the Production of Canthaxanthin and Astaxanthin by Chlorella zofingiensis Grown Under Limited Light Intensity. World Journal of Microbiology and Biotechnology 20, 483–486 (2004). https://doi.org/10.1023/B:WIBI.0000040398.93103.21
Issue Date:
DOI: https://doi.org/10.1023/B:WIBI.0000040398.93103.21