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Light acclimation and pH perturbations affect photosynthetic performance in Chlorella mass culture
Ihnken, S.; Beardall, J.; Kromkamp, J.C.; Gómez Serrano, C.; Torres, M.A.; Masojídek, J.; Malpartida, I.; Abdala, R.; Gil Jerez, C.; Malapascua, J.R.; Navarro, E.; Rico, R.M.; Peralta, E.; Ferreira Ezequil, J.P.; Lopez Figueroa, F (2014). Light acclimation and pH perturbations affect photosynthetic performance in Chlorella mass culture. Aquat. Biol. 22: 95-110. http://dx.doi.org/10.3354/ab00586
In: Aquatic Biology. Inter Research: Germany. ISSN 1864-7782; e-ISSN 1864-7790, meer
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Trefwoord |
Chlorella M.Beijerinck, 1890 [WoRMS]
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Author keywords |
Chlorella; Mass culture; pH perturbance; Chlorophyll fluorescence; Oxygen production; pH drift; Photosynthesis; Photoprotection |
Auteurs | | Top |
- Ihnken, S., meer
- Beardall, J.
- Kromkamp, J.C.
- Gómez Serrano, C.
- Torres, M.A.
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- Masojídek, J.
- Malpartida, I.
- Abdala, R.
- Gil Jerez, C.
- Malapascua, J.R.
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- Navarro, E.
- Rico, R.M.
- Peralta, E.
- Ferreira Ezequil, J.P.
- Lopez Figueroa, F
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Abstract |
Chlorella spp. are robust chlorophyte microalgal species frequently used in mass culture. The pH optimum for growth is close to neutrality; at this pH, theoretically little energy is required to maintain homeostasis. In the present study, we grew Chlorella fusca cells in an open, outdoor, thin-layer cascade photobioreactor (TLC), under ambient photon flux at the theoretically preferred pH (7.2), and let the culture pass the exponential growth phase. Using pH drift experiments, we show that an alkalization to pH 9 supported photosynthesis in the TLC. The increased photosynthetic activity under alkaline conditions was a pH-dependent effect, and not a dissolved inorganic carbon (DIC) concentration- or light intensity-dependent effect. Re-acidification (in one step or in increments) lowered gross oxygen production and increased non-photochemical quenching in short-term experiments. Gross oxygen production and electron transport rates in PSII were uncoupled during the pH perturbation experiments. Electron transport rates were only marginally affected by pH, whereas oxygen production rates decreased with acidification. Alternative electron pathways, electron donation at the plastid terminal oxidase and state-transitions are discussed as a potential explanation. Because cell material from the TLC was not operating at maximal capacity, we propose that alkalization can support photosynthesis in challenged TLC systems. |
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