Laboratory System for Intensive Cultivation of Microalgae and Cyanobacteria
Currently, microalgae and cyanobacteria attract the attention of researchers as potential producers of various valuable substances. To increase the profitability of biotechnological processes using these organisms, it is necessary to select highly effective strains and choose the optimal conditions...
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| Veröffentlicht in: | Russian journal of plant physiology Jg. 70; H. 2; S. 20 |
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| Hauptverfasser: | , , , , , , , , |
| Format: | Journal Article |
| Sprache: | Englisch |
| Veröffentlicht: |
Moscow
Pleiades Publishing
01.04.2023
Springer Nature B.V |
| Schlagworte: | |
| ISSN: | 1021-4437, 1608-3407 |
| Online-Zugang: | Volltext |
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| Abstract | Currently, microalgae and cyanobacteria attract the attention of researchers as potential producers of various valuable substances. To increase the profitability of biotechnological processes using these organisms, it is necessary to select highly effective strains and choose the optimal conditions for their growth and maximum productivity. Growth optimization should be carried out, on the one hand, under intensive conditions, as close as possible to large-scale cultivation, and, on the other hand, in small volumes in order to be able to check many different parameters in parallel at minimal cost. In this paper, the authors present a description and characteristics of their laboratory system for intensive cultivation (LSIC—Laboratory System for Intensive Cultivation) with thermo-, light-, and gas regulation and the possibility of cultivation in four repetitions in eight different conditions, differing in light, temperature, and CO
2
concentration. As an example, the results of a number of experiments using the installation are also presented. |
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| AbstractList | Currently, microalgae and cyanobacteria attract the attention of researchers as potential producers of various valuable substances. To increase the profitability of biotechnological processes using these organisms, it is necessary to select highly effective strains and choose the optimal conditions for their growth and maximum productivity. Growth optimization should be carried out, on the one hand, under intensive conditions, as close as possible to large-scale cultivation, and, on the other hand, in small volumes in order to be able to check many different parameters in parallel at minimal cost. In this paper, the authors present a description and characteristics of their laboratory system for intensive cultivation (LSIC—Laboratory System for Intensive Cultivation) with thermo-, light-, and gas regulation and the possibility of cultivation in four repetitions in eight different conditions, differing in light, temperature, and CO
2
concentration. As an example, the results of a number of experiments using the installation are also presented. Currently, microalgae and cyanobacteria attract the attention of researchers as potential producers of various valuable substances. To increase the profitability of biotechnological processes using these organisms, it is necessary to select highly effective strains and choose the optimal conditions for their growth and maximum productivity. Growth optimization should be carried out, on the one hand, under intensive conditions, as close as possible to large-scale cultivation, and, on the other hand, in small volumes in order to be able to check many different parameters in parallel at minimal cost. In this paper, the authors present a description and characteristics of their laboratory system for intensive cultivation (LSIC—Laboratory System for Intensive Cultivation) with thermo-, light-, and gas regulation and the possibility of cultivation in four repetitions in eight different conditions, differing in light, temperature, and CO2 concentration. As an example, the results of a number of experiments using the installation are also presented. Currently, microalgae and cyanobacteria attract the attention of researchers as potential producers of various valuable substances. To increase the profitability of biotechnological processes using these organisms, it is necessary to select highly effective strains and choose the optimal conditions for their growth and maximum productivity. Growth optimization should be carried out, on the one hand, under intensive conditions, as close as possible to large-scale cultivation, and, on the other hand, in small volumes in order to be able to check many different parameters in parallel at minimal cost. In this paper, the authors present a description and characteristics of their laboratory system for intensive cultivation (LSIC—Laboratory System for Intensive Cultivation) with thermo-, light-, and gas regulation and the possibility of cultivation in four repetitions in eight different conditions, differing in light, temperature, and CO₂ concentration. As an example, the results of a number of experiments using the installation are also presented. |
| ArticleNumber | 20 |
| Author | Starikov, A. Yu Sinetova, M. A. Zorina, A. A. Gabel, B. V. Gabrielyan, D. A. Bobrovnikova, L. A. Gabrielyan, A. K. Bedbenov, V. S. Los, D. A. |
| Author_xml | – sequence: 1 givenname: D. A. surname: Gabrielyan fullname: Gabrielyan, D. A. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 2 givenname: M. A. surname: Sinetova fullname: Sinetova, M. A. email: maria.sinetova@mail.ru organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 3 givenname: A. K. surname: Gabrielyan fullname: Gabrielyan, A. K. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 4 givenname: L. A. surname: Bobrovnikova fullname: Bobrovnikova, L. A. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 5 givenname: V. S. surname: Bedbenov fullname: Bedbenov, V. S. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 6 givenname: A. Yu surname: Starikov fullname: Starikov, A. Yu organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 7 givenname: A. A. surname: Zorina fullname: Zorina, A. A. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 8 givenname: B. V. surname: Gabel fullname: Gabel, B. V. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences – sequence: 9 givenname: D. A. surname: Los fullname: Los, D. A. organization: Timiryazev Institute of Plant Physiology, Russian Academy of Sciences |
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| Cites_doi | 10.1134/S0003683820070030 10.3389/fmicb.2017.02541 10.3390/md12063487 10.1515/green-2013-0018 10.1002/ejlt.201100264 10.1134/S0026893314030212 10.3390/life9030067 10.1023/A:1010266116747 10.1263/jbb.101.87 10.1007/s00449-022-02711-1 10.1007/bf00218450 10.1039/C6MB00551A 10.1038/s41598-018-36831-0 10.3389/fbioe.2021.697354 10.5507/fot.2012.007 10.1007/s11101-022-09819-y |
| ContentType | Journal Article |
| Copyright | Pleiades Publishing, Ltd. 2023. ISSN 1021-4437, Russian Journal of Plant Physiology, 2023, Vol. 70:20. © Pleiades Publishing, Ltd., 2023. Russian Text © The Author(s), 2023, published in Fiziologiya Rastenii, 2023, Vol. 70, No. 2, pp. 202–213. Pleiades Publishing, Ltd. 2023. |
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| References | Tsygankov (CR7) 2001; 37 CR3 Golmakani, Rezaei, Mazidi, Razavi (CR18) 2012; 114 CR9 Zorina, Bedbenov, Novikova, Panichkin, Los (CR4) 2014; 48 Nowicka-Krawczyk, Mühlsteinová, Hauer (CR13) 2019; 9 CR10 Mahajan, Kamat (CR17) 1995; 43 Sinetova, Los (CR5) 2016; 12 Sinetova, Sidorov, Starikov, Voronkov, Medvedeva, Krivova, Pakholkova, Bachin, Bedbenov, Gabrielyan, Zayadan, Bolatkhan, Los (CR12) 2020; 56 Furmaniak, Misztak, Franczuk, Wilmotte, Waleron, Waleron (CR14) 2017; 8 Benner, Meier, Pfeffer, Kruger, Oropeza Vargas, Weuster-Botz (CR8) 2022; 45 Spolaore, Joannis-Cassan, Duran, Isambert (CR1) 2006; 101 Liu, Sun, Gerken, Liu, Jiang, Chen (CR16) 2014; 12 Fučíková, Lewis (CR15) 2012; 12 Fuchs, Arnold, Garbe, Deimel, Lorenzen, Masri, Mehlmer, Weuster-Botz, Bruck (CR11) 2021; 9 Chisti (CR2) 2013; 3 Mironov, Sinetova, Shumskaya, Los (CR6) 2019; 9 M.A. Furmaniak (8554_CR14) 2017; 8 G. Mahajan (8554_CR17) 1995; 43 8554_CR9 M.T. Golmakani (8554_CR18) 2012; 114 P. Benner (8554_CR8) 2022; 45 8554_CR3 M.A. Sinetova (8554_CR12) 2020; 56 8554_CR10 P. Nowicka-Krawczyk (8554_CR13) 2019; 9 J. Liu (8554_CR16) 2014; 12 P. Spolaore (8554_CR1) 2006; 101 A.A. Zorina (8554_CR4) 2014; 48 A.A. Tsygankov (8554_CR7) 2001; 37 Y. Chisti (8554_CR2) 2013; 3 M.A. Sinetova (8554_CR5) 2016; 12 K.S. Mironov (8554_CR6) 2019; 9 K. Fučíková (8554_CR15) 2012; 12 T. Fuchs (8554_CR11) 2021; 9 |
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| SubjectTerms | Algae Aquatic microorganisms Biomedical and Life Sciences Biotechnology Carbon dioxide Carbon dioxide concentration Cultivation Cyanobacteria Economics Heat Laboratories Life Sciences Light emitting diodes Lighting systems Microalgae Optimization Plant Physiology Plant Sciences Productivity profitability Proteomics Research Papers Temperature |
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