Screening and optimisation of hydrogen production by newly isolated nitrogen-fixing cyanobacterial strains |
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| Affiliation: | 1. Faculty of Biology and Biotechnology, Al-Farabi Kazakh National University, Al-Farabi 71, Almaty 050038, Kazakhstan;2. Department of Chemical and Biochemical Engineering, Institute of Geology and Oil-Gas Business Institute Named after K. Turyssov, Satbayev University, Almaty 050043, Kazakhstan;3. K.A. Timiryazev Institute of Plant Physiology, Russian Academy of Sciences, Botanicheskaya Str. 35, Moscow 127276, Russia;4. Department of Biological Sciences, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia;5. Department of Physics, Graduate School of Science, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan;6. Faculty of Engineering and Natural Sciences, Bahcesehir University, Istanbul 34353, Turkey;1. Schools of New Energy and Materials, Southwest Petroleum University, Chengdu 610500, China;2. WW8-Materials Simulation, Department of Materials Science, Friedrich-Alexander-Universität Erlangen-Nürnberg, Dr. Mack Strasse 77, 90762 Fürth, Germany;1. Key Laboratory of Low-grade Energy Utilization Technologies and Systems, Chongqing University, Ministry of Education, Chongqing 400044, China;2. Institute of Engineering Thermophysics, School of Energy and Power Engineering, Chongqing University, Chongqing 400044, China;1. Key Laboratory of Carbon Materials of Zhejiang Province, College of Chemistry and Materials Engineering, Wenzhou University, Wenzhou, 325035, China;2. Institute of New Materials and Industrial Technology, Wenzhou University, Wenzhou, 325035, China;3. Zhejiang Province Key Lab of Leather Engineering, Wenzhou Key Lab of Advanced Energy Storage and Conversion, Wenzhou University, Wenzhou, China;1. School of Mechanical Engineering, Tianjin University, Tianjin, 300350, China;2. Key Laboratory of Efficient Utilization of Low and Medium Grade Energy of Ministry of Education, Tianjin University, Tianjin, 300350, China;3. Tianjin Key Lab of Refrigeration Technology, Tianjin University of Commerce, Tianjin, 300134, China |
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| Abstract: | Recently, there has been a propensity to postpone dealing with the world's climate concerns until later, resulting in a 1.5 °C rise in temperature over the last century. Therefore, interest in biologically derived, inexhaustible energy sources based on solar energy is growing. Cyanobacteria have the potential to produce clean, renewable fuels in the form of hydrogen (H2) gas, derived from solar energy and water. The current study reports the screening 11 cyanobacterial strains isolated from rice paddies and hotsprings for efficient H2 producers. According to our findings, H2 concentrations in the species ranged from 3.6 to 48.9 μmol mg?1 Chl a h?1. H2 production by isolated species was shown to have a 2% positive influence on oxygen (O2) and carbon dioxide (CO2) concentrations and a 2% negative effect on all nitrogen gas (N2) concentrations. It was discovered that at high CO2 concentrations, photosynthesis is enhanced but H2 production is suppressed. Anabaena variabilis BTA-1047 was found to be the most active H2-producing species, with an H2 production activity of 21.3 μmol mg?1 Chl a h?1. Moreover, a 1% O2: 2% CO2 gas mixture doubled the strain activity of H2 production. The findings of the study called into the question the notion that only an anaerobic environment is required for H2 production by N2-fixing cyanobacterial species and explored whether H2 productivity can be increased by stimulating the micro-anaerobic environment with a carbon source. |
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| Keywords: | Biohydrogen Isolation Filamentous cyanobacteria Nitrogenase Hydrogenase ATP"} {"#name":"keyword" "$":{"id":"kwrd0040"} "$$":[{"#name":"text" "_":"adenosine triphosphate chlorophyll carbon dioxide hydrogen hydrogenase water nitrogen nitrogenase oxygen OD"} {"#name":"keyword" "$":{"id":"kwrd0130"} "$$":[{"#name":"text" "_":"optical density PSII"} {"#name":"keyword" "$":{"id":"kwrd0140"} "$$":[{"#name":"text" "_":"photosystem II |
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