Abstract
The large-scale cultivation of microalgae provides a wide spectrum of marketable bioproducts, profitably used in many fields, from the preparation of functional health products and feed supplement in aquaculture and animal husbandry to biofuels and green chemistry agents. The commercially successful algal biomass production requires effective strategies to maintain the process at desired productivity and stability levels. Hence, the development of effective early warning methods to timely indicate remedial actions and to undertake countermeasures is extremely important to avoid culture collapse and consequent economic losses. With the aim to develop an early warning method of algal contamination, the potentiometric E-tongue was applied to record the variations in the culture environments, over the whole growth process, of two unialgal cultures, Phaeodactylum tricornutum and a microalgal contaminant, along with those of their mixed culture. The E-tongue system ability to distinguish the cultures and to predict their growth stage, through the application of multivariate data analysis, was shown. A PLS regression method applied to the E-tongue output data allowed a good prediction of culture growth time, expressed as growth days, with R2 values in a range from 0.913 to 0.960 and RMSEP of 1.97–2.38 days. Moreover, the SIMCA and PLS-DA techniques were useful for cultures contamination monitoring. The constructed PLS-DA model properly discriminated 67% of cultures through the analysis of their growth media, i.e., environments, thus proving the potential of the E-tongue system for a real time monitoring of contamination in microalgal intensive cultivation.
Highlights
The marine unicellular diatom Phaeodactylum tricornutum Bohlin is currently recognized as one of the most promising microalgae for large-scale cultivation and biotechnology exploitation
We demonstrate that the E-tongue can be a fast and indirect tool to monitor microalgal purity and to predict the culture growth stage, opening new perspectives for the management of intensive microalgae cultivation and prospecting implementation for real time contaminant detection
As for the cultured diatom, light microscopy observations evidenced only the P. tricornutum fusiform morphotype, with no morphological transition detectable in the samples collected for culture screenings
Summary
The marine unicellular diatom Phaeodactylum tricornutum Bohlin is currently recognized as one of the most promising microalgae for large-scale cultivation and biotechnology exploitation. P. tricornutum is a model diatom, probably the most studied yet with a fully sequenced genome, 27 Mb, and functional genomics largely known, this microalga can be genetically manipulated using ALE [6] CRISP/Cas9 [7]. This species possesses a unique pleiomorphism, with four different morphotypes, oval, the most diffused in culture, fusiform, triradiate and cruciform present in natural and artificial environments, the transition of which is known to be strain-specific and mediated by environmental factors such as light, temperature, salinity and nutrient availability [8,9]
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