The Effects of Recycled Media on Culture Growth and Hormone Profiles in Heterotrophic Euglena gracilis

Abstract

The rapid expansion of the worldwide population has caused an urgent need for the development of new, more environment-conscious, food sources. In this context, algae, such as Euglena, are of interest thanks to their capacity to naturally produce essential nutrients such as proteins and oils commonly found in animals and plant sources. While these processes are currently being investigated, underlying measures affecting growth of Euglena gracilis like hormonal influences and growth stress like nutrient deprivation are poorly understood. From this vantage point, this thesis seeks to understand the role of phytohormones cytokinin (CKs) and abscisic acid (ABA) in complex mechanisms underlying heterotrophic growth of Euglena gracilis under recycled, organic media conditions with no supplementation. Hormone profiles were quantified by HPLC-ESI-MS/MS and compared to culture growth dynamics of pH, weight accumulation, glucose content, cell count and morphology. It was expected that ABA acted as an inhibitory hormone and this was confirmed by its higher levels when CKs where low and vice versa. Contrastingly, it was expected that CKs stimulated growth, in which this was shown not to be the case. Interestingly, it was revealed that both hormone groups increase with increasing recycling. Other key findings include: E. gracilis synthesizes CKs via the tRNA-degradation pathway and is cZ and iP dominated, recycling E. gracilis medium is viable for growth, however, the percentage (25% or less) is crucial to cell viability and markedly no ABA was detected in E. gracilis pellet fractions from recycled media. Therefore, this data revealed that recycled media has a striking influence on physiological aspects of growth and illustrated unique changes in hormone profiles of which could be manipulated to help the food industry.

Author Keywords: cytokinin, endogenous hormones, Euglena gracilis, heterotrophic, large scale microalgae cultivation, recycled medium

    Item Description
    Type
    Contributors
    Thesis advisor (ths): Emery, Neil
    Degree committee member (dgc): Balch, Gordon
    Degree committee member (dgc): Gueguen, Celine
    Degree granting institution (dgg): Trent University
    Date Issued
    2020
    Date (Unspecified)
    2020
    Place Published
    Peterborough, ON
    Language
    Extent
    120 pages
    Rights
    Copyright is held by the author, with all rights reserved, unless otherwise noted.
    Local Identifier
    TC-OPET-10785
    Publisher
    Trent University
    Degree
    Master of Science (M.Sc.): Environmental and Life Sciences