Red Light Enhances Biomass and Bioactive Compounds Through Photosynthetic Acclimation in Anabaena variabilis

dc.contributor.authorOstojic, Carol
dc.contributor.authorRobles Garrido, María
dc.contributor.authorMartín Gordillo, Lidia
dc.contributor.authorFernández, David
dc.contributor.authorGava, Riccardo
dc.contributor.authorVílchez Lobato, Carlos
dc.date.accessioned2026-07-08T11:16:43Z
dc.date.available2026-07-08T11:16:43Z
dc.date.issued2026
dc.description.abstractLight irradiance and spectral quality are key environmental factors that influence the growth, photosynthetic performance, and metabolic responses of cyanobacteria. In this study, the effects of increasing white and PAR-red light irradiances on Anabaena variabilis were evaluated in repeated-batch cultures, focusing on photosynthetic efficiency, biomass productivity, and the modulation of antioxidant systems, while cultures maintained under constant irradiance were used as control. Results showed that A. variabilis can maintain photosynthetic efficiency, as indicated by FV/FM values, within the optimal range for healthy cultures despite variations in light conditions. PAR-red light, in particular, enhanced biomass productivity and induced stronger photoacclimation responses compared to white light. Moreover, analysis of chlorophyll fluorescence (JIP parameters) revealed that photosynthetic machinery adapts to increased irradiance by modulating energy fluxes. Dissipated energy (DI0/RC) increases by 4.5-fold under increasing PAR-red light with respect to control cultures, which suggests that PAR-red light promotes thermal dissipation of excess absorbed energy at the phycobilisome level, independently of and complementarily to, the increase in light-harvesting antenna pigments (chlorophylls and phycobiliproteins), thereby reducing the net oxidative pressure in the electron transport chain. The increase in photosynthetic pigments reflects an adaptive adjustment to optimize light harvesting under red light, with a phycocyanin content of 123 mg·g−1 biomass, 30% higher than that obtained in control culture. Overall, A. variabilis demonstrated a robust capacity to acclimate increasing light irradiance and varying light quality through coordinated photoacclimation and antioxidant responses, in repeated-batch cultures. These findings highlight its physiological flexibility, which can be properly driven to maximize the production of valuable bioactive compounds, particularly phycobiliproteins such as phycocyanin, with applications in biotechnology.
dc.description.centerCIQSO
dc.description.departmentQuímica "Profesor José Carlos Vílchez Martín"
dc.description.sponsorshipThis research was funded by the Center for Technological Development and Innovation (CDTI, Spain), grant number CDTI-IDI 20211049, and the Corporación Tecnológica de Andalucía (CTA, Spain), grant number CTA 21/1061.
dc.identifier.citationOstojic, C., Robles, M., Martín-Gordillo, L., Fernández, D., Gava, R., & Vílchez, C. (2026). Red Light Enhances Biomass and Bioactive Compounds Through Photosynthetic Acclimation in Anabaena variabilis. Marine Drugs, 24(6), 221. https://doi.org/10.3390/md24060221
dc.identifier.doi10.3390/md24060221
dc.identifier.issn1660-3397 (electrónico)
dc.identifier.urihttps://hdl.handle.net/10272/28674
dc.language.isoeng
dc.publisherMDPI
dc.rightsAttribution 4.0 Internationalen
dc.rights.accessRightsopen access
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.subject.otherCyanobacteria
dc.subject.otherPAR-red light
dc.subject.otherBiomass productivity
dc.subject.otherPhotosynthesis
dc.subject.otherPhycobiliproteins
dc.subject.unesco3309.92 Bioquímica y Microbiología de Los Procesos Fermentativos
dc.subject.unesco2302.20 Química Microbiológica
dc.titleRed Light Enhances Biomass and Bioactive Compounds Through Photosynthetic Acclimation in Anabaena variabilis
dc.typejournal article
dc.type.hasVersionVoR
dspace.entity.typePublication
relation.isAuthorOfPublication9b4db91d-9014-47e4-8f13-0e343de0694d
relation.isAuthorOfPublication86053161-7797-4b67-910d-1b5b1cef5866
relation.isAuthorOfPublication.latestForDiscovery9b4db91d-9014-47e4-8f13-0e343de0694d

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