Changes in photosynthesis, growth and biomass composition in outdoor Chlorella g120 culture during the metabolic shift from heterotrophic to phototrophic cultivation regime

Up to now, scarce information has been available regarding major photobiochemical changes that accompany the metabolic shift from heterotrophy to phototrophy in microalgae cells. In the present trials the trophic conversion from heterotrophic to phototrophic growth regime was studied in the microalg...

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Detalles Bibliográficos
Otros Autores: Masojídek, Jirí, Ranglova, Karolína, Rearte, Tomás Agustín, Celis Plá, Paula S.M, Torzillo, Giuseppe, Silva Benavides, Ana Margarita, Neori, Amir, Gómez Serrano, Cintia
Formato: Artículo
Lenguaje:Inglés
Materias:
CHLOROHYLL FLUORESCENCE
MICROALGAE
PHOTOSYNTHESIS
PHYSIOLOGY
THIN LAYER CASCADE
TROPHIC CONVERSION
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2021masojidek.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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245 1 |a Changes in photosynthesis, growth and biomass composition in outdoor Chlorella g120 culture during the metabolic shift from heterotrophic to phototrophic cultivation regime 
520 |a Up to now, scarce information has been available regarding major photobiochemical changes that accompany the metabolic shift from heterotrophy to phototrophy in microalgae cells. In the present trials the trophic conversion from heterotrophic to phototrophic growth regime was studied in the microalga Chlorella vulgaris g120 grown in outdoor thin-layer cascades. The crucial question was whether Chlorella g120 can undergo the photoacclimation of its photosynthetic apparatus under natural irradiance. As for comparison the phototrophic strain Chlorella vulgaris R-117 was cultured in parallel. Various in-situ and ex-situ monitoring techniques namely oxygen production and chlorophyll fluorescence were tested to characterize physiological response of the Chlorella g120 culture during photoacclimation and correlate it with growth. We show that Chlorella g120 can undergo the metabolic shift from heterotrophic to phototrophic growth regime, but its conversion is. A rather high respiration rate was interpreted as a strategy to dissipate the unused light energy. Chlorella g120 was found as the strain characterized by a small-antenna size strain (low chlorophyll/cell ratio minor to 1%) which should be favorable for light utilization in dense cultures. The high carotenoid/chlorophyll ratio (= 0.63) may be of interest from biotechnological point of view for carotenoid (namely lutein) production. The build-up of dissolved oxygen (DO) concentration and high electron transport rate measured in-situ indicated high photosynthetic activity of outdoor microalgae cultures. These variables are usable on-line as reliable markers as they reflect the physiological status of microalgae culture. Highly productive cultures, like Chlorella R-117 have high photosynthesis which is inevitably accompanied by the build-up on high DO gradients. To maintain high biomass production in such strains we have to find an interplay among photosynthetic activity, gradients of DO concentration, biomass density and culture layer thickness that can secure high growth rate (and productivity). 
650 |2 Agrovoc  |9 26 
653 |a CHLOROHYLL FLUORESCENCE 
653 |a MICROALGAE 
653 |a PHOTOSYNTHESIS 
653 |a PHYSIOLOGY 
653 |a THIN LAYER CASCADE 
653 |a TROPHIC CONVERSION 
700 1 |a Masojídek, Jirí  |u Czech Academy of Sciences. Institute of Microbiology. Centre ALGATECH. Laboratory of Algal Biotechnology. Trebon, Czech Republic.  |u University of South Bohemia. Faculty of Science. Ceske Budejovice, Czech Republic.  |9 73575 
700 1 |a Ranglova, Karolína  |u Czech Academy of Sciences. Institute of Microbiology. Centre ALGATECH. Laboratory of Algal Biotechnology. Trebon, Czech Republic.  |u University of South Bohemia. Faculty of Agriculture. Ceske Budejovice, Czech Republic.  |9 73971 
700 1 |9 31229  |a Rearte, Tomás Agustín  |u Universidad de Buenos Aires. Facultad de Agronomía. Departamento de Recursos Naturales y Ambiente.Cátedra de Química Analítica. Buenos Aires, Argentina.  |u CONICET - Consejo Nacional de Investigaciones Científicas y Tecnológicas. Universidad de Buenos Aires. Buenos Aires, Argentina. 
700 1 |a Celis Plá, Paula S.M.  |u University of Playa Ancha. Center of Advanced Studies. Laboratory of Aquatic Environmental Research (LACER). Viña del Mar, Chile.  |u Universidad de Playa Ancha. HUB-AMBIENTAL UPLA. Vicerrectoría de Investigación Postgrado e Innovación. Valparaíso, Chile.  |9 73573 
700 1 |a Torzillo, Giuseppe  |u Institute of Bioeconomy, Sesto Fiorentino CNR. Firenze, Italy.  |9 73576 
700 1 |a Silva Benavides, Ana Margarita  |u Universidad de Costa Rica. Centro de Investigación en Ciencias del Mar y Limnología. Escuela de Biologia, CIMAR. San Pedro, Costa Rica.  |9 73578 
700 1 |a Neori, Amir  |u University of Haifa. Marine Biology Department. Charney School of Marine Sciences. Morris Kahn Marine Research Station. Israel.  |u The Interuniversity Institute for Marine Sciences. Eilat, Israel.  |9 73574 
700 1 |a Gómez Serrano, Cintia  |u University of Almería. Department of Chemical Engineering. Almería, Spain.  |9 73577 
773 |t Algal Research  |g Vol.61, no.3 (2021), p.221-230, grafs., tbls. 
856 |f 2021masojidek  |i en reservorio  |q application/pdf  |u http://ri.agro.uba.ar/files/intranet/articulo/2021masojidek.pdf  |x ARTI202206 
856 |u http://www.elsevier.com  |z LINK AL EDITOR 
942 |c ARTICULO 
942 |c ENLINEA 
976 |a AAG 

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