Long‐term adaptive response to high‐frequency light signals in the unicellular photosynthetic eukaryote <i>Dunaliella salina</i>

Combe, Charlotte; Hartmann, Philipp; Rabouille, Sophie; Talec, Amélie; Bernard, Olivier; Sciandra, Antoine

doi:10.1002/bit.25526

Cited by 35 publications

(34 citation statements)

References 63 publications

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“…5 of the Supporting Information. The transition between asymptotic kinetics for various light efficiencies are correctly described by our model with a unique time constant τ = 0.3 s. Similar behaviors and time constants can be found in the literature for other photosynthetic biomass with the same orders of magnitude and frequencies , , , , resp. for Dunaliella, Phaeodactylum, Nanochloropsis, Chlamydomonas , and Chlorella .…”

Section: Resultssupporting

confidence: 80%

“…This effect is usually called flashing light effect (FLE) , . Its experimental quantification has been investigated , either by controlling the culture medium flow rate from enlightened to dark zones or directly by temporally managing the light energy transmitted to the microalgae , , . These results prove that some inertia exists in the response of algae to light variation: it cannot be assumed that the growth rate is a function of the local light intensity only.…”

Section: Introductionmentioning

confidence: 99%

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How Mixing and Light Heterogeneity Impact the Overall Growth Rate in Photobioreactors

et al. 2019

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The microalgae growth rate in photobioreactors responds with inertia to light stimuli. Here, light variations experienced by the algae are accessed through a coupling of an irradiance field calculation and a Lagrangian particle tracking. The response of algae to fluctuating light is then described by a relaxation model involving a single time constant, the value of which is identified from published data. The overall growth rate is calculated as the sum of individual growth rates of all particles. Instantaneous adaptation and full integration asymptotic behaviors are recovered whilst a finite time constant reveals that the overall growth rate is dependent both on mixing and light distribution. This methodology thus quantitatively relates the design parameters to the photobioreactor performance.

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Section: Resultssupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

How Mixing and Light Heterogeneity Impact the Overall Growth Rate in Photobioreactors

et al. 2019

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“…The actual pool size of glycerol however could be a reflection of multiple survival strategies under high light intensity since glycerol can also be used for membrane (triglyceride) regeneration, or stored in the form of starch. In some lipid-storing green algae (Combe et al., 2015, Yilancioglu et al., 2014) oxidative stress either caused by nitrogen depletion or by exposure to excess light or by application of exogenous H 2 O 2 is correlated with an increase in triglycerides content (but also see (Ben-Amotz et al., 1985)). Glycerol can also serve as a biocompatible solute or chemical chaperone to assist in refolding damaged proteins (Lamitina et al., 2006).…”

Section: Discussionmentioning

confidence: 99%

The influence of photoperiod and light intensity on the growth and photosynthesis of Dunaliella salina (chlorophyta) CCAP 19/30

Ibrahim

Harvey

2016

Plant Physiology and Biochemistry

131

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The green microalga Dunaliella salina survives in a wide range of salinities via mechanisms involving glycerol synthesis and degradation and is exploited for large amounts of nutraceutical carotenoids produced under stressed conditions. In this study, D. salina CCAP 19/30 was cultured in varying photoperiods and light intensities to study the relationship of light with different growth measurement parameters, with cellular contents of glycerol, starch and carotenoids, and with photosynthesis and respiration. Results show CCAP 19/30 regulated cell volume when growing under light/dark cycles: cell volume increased in the light and decreased in the dark, and these changes corresponded to changes in cellular glycerol content. The decrease in cell volume in the dark was independent of cell division and biological clock and was regulated by the photoperiod of the light/dark cycle. When the light intensity was increased to above 1000 μmol photons m−2 s−1, cells displayed evidence of photodamage. However, these cells also maintained the maximum level of photosynthesis efficiency and respiration possible, and the growth rate increased as light intensity increased. Significantly, the intracellular glycerol content also increased, >2-fold compared to the content in light intensity of 500 μmol photons m−2 s−1, but there was no commensurate increase in the pool size of carotenoids. These data suggest that in CCAP 19/30 glycerol stabilized the photosynthetic apparatus for maximum performance in high light intensities, a role normally attributed to carotenoids.

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“…Microalgen foto-acclimatiseren aan het beschikbare licht om hun lichtverzamelende efficiëntie aan te passen (Combe et al, 2015). Dit gebeurt door fysieke aanpassingen van het fotosynthese systeem binnen 1 celgroeicyclus.…”

Section: Pigmentenunclassified

Productie van zoutwateralgen voor toepassingen in food (en feed) deelrapport I : Werkpakketten 1&2 van project Foodgrade productie van zoutwateralgen: deelrapport I: Achtergrondinformatie zoutwateralgen: selectie van soorten en omgevingsomstandigheden

Elissen

WIede

2018

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Stichting Wageningen Research. Alle rechten voorbehouden. Niets uit deze uitgave mag worden verveelvoudigd, opgeslagen in een geautomatiseerd gegevensbestand, of openbaar gemaakt, in enige vorm of op enige wijze, hetzij elektronisch, mechanisch, door fotokopieën, opnamen of enige andere manier zonder voorafgaande schriftelijke toestemming van Stichting Wageningen Research. Stichting Wageningen Research is niet aansprakelijk voor eventuele schadelijke gevolgen die kunnen ontstaan bij gebruik van gegevens uit deze uitgave. Dit project werd medegefinancierd door het ministerie van Economische Zaken, het

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Long‐term adaptive response to high‐frequency light signals in the unicellular photosynthetic eukaryote Dunaliella salina

Cited by 35 publications

References 63 publications

How Mixing and Light Heterogeneity Impact the Overall Growth Rate in Photobioreactors

How Mixing and Light Heterogeneity Impact the Overall Growth Rate in Photobioreactors

The influence of photoperiod and light intensity on the growth and photosynthesis of Dunaliella salina (chlorophyta) CCAP 19/30

Productie van zoutwateralgen voor toepassingen in food (en feed) deelrapport I : Werkpakketten 1&2 van project Foodgrade productie van zoutwateralgen: deelrapport I: Achtergrondinformatie zoutwateralgen: selectie van soorten en omgevingsomstandigheden

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