Light Acclimation of the Colonial Green Alga Botryococcus braunii Strain Showa

In contrast to single cellular species, detailed information is lacking on the processes of photosynthetic acclimation for colonial algae, although these algae are important for biofuel production, ecosystem biodiversity, and wastewater treatment. To investigate differences between single cellular a...

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Bibliographic Details
Published in:Plant physiology (Bethesda) 2019-03, Vol.179 (3), p.1132-1143
Main Authors: van den Berg, Tomas E, Chukhutsina, Volha U, van Amerongen, Herbert, Croce, Roberta, van Oort, Bart
Format: Article
Language:English
Subjects:
Acclimatization
Biofysica
Biophysics
Chlorophyta - physiology
Chlorophyta - radiation effects
EPS
Kinetics
Laboratorium voor Biofysica
Photosynthesis
Sunlight
VLAG
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Summary:In contrast to single cellular species, detailed information is lacking on the processes of photosynthetic acclimation for colonial algae, although these algae are important for biofuel production, ecosystem biodiversity, and wastewater treatment. To investigate differences between single cellular and colonial species, we studied the regulation of photosynthesis and photoprotection during photoacclimation for the colonial green alga and made a comparison with the properties of the single cellular species We show that shares some high-light (HL) photoacclimation strategies with and other frequently studied green algae: decreased chlorophyll content, increased free carotenoid content, and increased nonphotochemical quenching (NPQ). Additionally, has unique HL photoacclimation strategies, related to its colonial form: strong internal shading by an increase of the colony size and the accumulation of extracellular echinenone (a ketocarotenoid). HL colonies are larger and more spatially heterogenous than low-light colonies. Compared with surface cells, cells deeper inside the colony have increased pigmentation and larger photosystem II antenna size. The core of the largest of the HL colonies does not contain living cells. In contrast with , but similar to other biofilm-forming algae, NPQ capacity is substantial in low light. In HL, NPQ amplitude increases, but kinetics are unchanged. We discuss possible causes of the different acclimation responses of and Knowledge of the specific photoacclimation processes for this colonial green alga further extends the view of the diversity of photoacclimation strategies in photosynthetic organisms.
ISSN:0032-0889
1532-2548
DOI:10.1104/pp.18.01499