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2Laboratory of Integrated Environmental Research, Pskov State University, 180000 Pskov, Russia
* To whom correspondence should be addressed.
Received: April 5, 2025; Revised: May 27, 2025; Accepted: May 28, 2025
This work demonstrates, for the first time, capacity of the Chlorella sorokiniana immobilized in alginate to produce hydrogen (H2) over an extended period of time when cultivated under strictly photoautotropic conditions on complete mineral medium. In order to reduce photosynthetic activity, immobilized cells were subjected to a 30-minute pre-incubation period at high light intensity of 1000 μmol photons m−2·s−1. The ability to produce H2 was evaluated under illumination of 40 μmol/(m2·s). The culture not bubbled with argon produced H2 for 9 days; total gas yield was 0.1 mol H2/m2. In the culture under argon atmosphere, the release of H2 continued for 51 days, resulting in a total yield of 0.55 mol H2/m2. The immobilized culture was capable of H2 production at 16% O2 in the gas phase, which may be due to the effects of photoinhibition and activation of oxygen uptake pathways in mitochondria and chloroplast. Analysis of the functioning of electron-transport chain in the microalgae cells revealed decrease in the rate of electron transport, increase in the size of the PSII antenna, and development of non-photochemical quenching processes, while activity of PSII remained moderately high (Fv/Fm = 0.4-0.6). Inhibitor analysis using 10−5 M DCMU demonstrated that contribution of PSII to hydrogenase reaction increased from 30% on the first day of the experiment to 50% by the fourth day. Addition of 10−5 M DBMIB led to the 90% reduction in the rate of H2 formation on both day 1 and day 4.
KEY WORDS: green microalgae, primary reactions of photosynthesis, hydrogen photoproduction, photoinhibition, hydrogenaseDOI: 10.1134/S000629792560098X
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Copyright (C) 2025 BioProt Network All rights reserved. |
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