98 results on '"EFFECT of light on algae"'
Search Results
2. Enhancement of CO2 biofixation and lipid production by Chlorella vulgaris using coloured polypropylene film.
- Author
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Znad, Hussein, Al Ketife, Ahmed M.D., and Judd, Simon
- Subjects
CHLORELLA vulgaris ,EFFECT of light on algae ,LIPID synthesis - Abstract
Chlorella vulgaris was cultivated with light at different wavelengths (λ
max ) and irradiation intensities (I) by applying a coloured tape (CT) as a simple, inexpensive light filter. C. vulgaris was cultivated in a standard medium using blue (CTB ), green (CTG ), red (CTR ), yellow (CTY ) and white (CTW ) CT to filter the light, as well the unfiltered light (U). The influence of λmax and I on specific growth rate (μ), nutrient removal efficiency (% RE of total nitrogen, TN, and phosphorus, TP), CO2 fixation rate (RC) and lipid productivity (Plipid ) were evaluated. The highest biomass concentration Xmax of 2.26 g L−1 was measured for CTW with corresponding μ, TN and TP RE, RC and Plipid values of 0.95 d−1 , 92% and 100%, 0.67 g L−1 d−1 and 83.6 mg L−1 d−1 , respectively. The normalised μ and Plipid for U were significantly lower than in CTW of 33–50% and 75%, respectively. The corresponding non-normalised parameter values for CTB were significantly lower at 0.45 d−1 , 0.18 g L−1 , 15% and 37%, 0.03 g L−1 d−1 and 1.2 mg L−1 d−1 . Results suggest a significant impact of I and λmax , with up to a 50% increase in growth and nutrient RE from optimising these parameters. [ABSTRACT FROM AUTHOR]- Published
- 2019
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3. A semi-mechanistic model describing the influence of light and temperature on the respiration and photosynthetic growth of Chlorella vulgaris.
- Author
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Manhaeghe, Dave, Michels, Siemon, Rousseau, Diederik P.L., and Van Hulle, Stijn W.H.
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CHLORELLA vulgaris , *EFFECT of light on algae , *ALGAL growth , *RESPIROMETERS , *ACQUISITION of data - Abstract
Graphical abstract Highlights • Microalgae respiration increases due to photoinhibition and heat stress. • An empirical model was developed in order to describe this influence. • Five light-temperature models adopted from literature were compared. • Only one model described the complete range of experiments. • A previously developed model, upgraded with both models, was successfully validated. Abstract The influence of light and temperature on microalgae kinetics has been assessed extensively and many models have been developed. However, limited attention has been paid to the influence of light and temperature on microalgae respiration and growth under conditions inducing (strong) photoinhibition and no clear consensus has been made on which model to use. Based on experimental data collected using a combined respirometer-titrimeter, a previously developed microalgae model (Decostere et al., 2016b) was first extended with a respiration process (r = r min + δ μ). It was found that the dark respiration (r min) was depending on both light and temperature and increased at conditions inducing photoinhibition and heat stress. Furthermore, out of five models describing the influence of light and temperature on the microalgae growth rate, the model of Dermoun et al. (1992) was determined to be the best suited model. [ABSTRACT FROM AUTHOR]
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- 2019
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4. Effects of incident light intensity and light path length on cell growth and oil accumulation in Botryococcus braunii (Chlorophyta).
- Author
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Wang, Shi‐Kai, Guo, Chen, Wu, Wei, Sui, Kun‐Yan, and Liu, Chun‐Zhao
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EFFECT of light on algae , *BOTRYOCOCCUS braunii , *ALGAL growth , *FATTY acids , *HYDROCARBONS , *CELL growth , *LIGHT intensity , *MONOUNSATURATED fatty acids - Abstract
Botryococcus braunii was cultured in different light path length under different incident light intensity to investigate the effect of light on alga growth as well as hydrocarbon and fatty acid accumulation. Results indicated that longer light path length required higher incident light intensity in order to meet the light requirement of algal growth and hydrocarbon accumulation during the course of cultivation. However, hydrocarbon profile was only affected by the incident light intensity and not influenced by the light path length. High incident light intensity enhanced the accumulation of hydrocarbons with longer carbon chains. Besides, the fatty acid content and profiles were significantly influenced by both incident light intensity and light path. Higher fatty acid content and higher percentage of C18 and monounsaturated fatty acid components were achieved at the higher incident light intensity and lower light path length. Taken together, these results are benefit to improve its biomass and oil productivity through the optimization of light and photobioreactor design. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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5. The mitochondrial alternative oxidase from Chlamydomonas reinhardtii enables survival in high light.
- Author
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Kaye, Yuval, Weichao Huang, Clowez, Sophie, Saroussi, Shai, Idoine, Adam, Sanz-Luque, Emanuel, and Grossman, Arthur R.
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CHLAMYDOMONAS reinhardtii , *OXIDASES , *MITOCHONDRIAL physiology , *EFFECT of light on algae , *CHIMERIC proteins - Abstract
Photosynthetic organisms often experience extreme light conditions that can cause hyper-reduction of the chloroplast electron transport chain, resulting in oxidative damage. Accumulating evidence suggests that mitochondrial respiration and chloroplast photosynthesis are coupled when cells are absorbing high levels of excitation energy. This coupling helps protect the cells from hyper-reduction of photosynthetic electron carriers and diminishes the production of reactive oxygen species (ROS). To examine this cooperative protection, here we characterized Chlamydomonas reinhardtii mutants lacking the mitochondrial alternative terminal respiratory oxidases, CrAOX1 and CrAOX2. Using fluorescent fusion proteins, we experimentally demonstrated that both enzymes localize to mitochondria. We also observed that the mutant strains were more sensitive thanWTcells to high light under mixotrophic and photoautotrophic conditions, with the aox1 strain being more sensitive than aox2. Additionally, the lack of CrAOX1 increased ROS accumulation, especially in very high light, and damaged the photosynthetic machinery, ultimately resulting in cell death. These findings indicate that the Chlamydomonas AOX proteins can participate in acclimation of C. reinhardtii cells to excess absorbed light energy. They suggest that when photosynthetic electron carriers are highly reduced, a chloroplast-mitochondria coupling allows safe dissipation of photosynthetically derived electrons via the reduction of O2 through AOX (especially AOX1)-dependent mitochondrial respiration. [ABSTRACT FROM AUTHOR]
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- 2019
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6. Effect of light intensity and nutrients supply on microalgae cultivated in urban wastewater: Biomass production, lipids accumulation and settleability characteristics.
- Author
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Iasimone, F., Panico, A., De Felice, V., Fantasma, F., Iorizzi, M., and Pirozzi, F.
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MICROALGAE , *EFFECT of light on algae , *SEWAGE , *BIOMASS production , *LIPIDS - Abstract
Microalgae cultivation systems fed with wastewater as source of nutrients represents the principal sustainable condition to produce microalgal biomass to be converted conveniently to biofuels. In order to optimize microalgae growth and their lipid content, the effect of light intensity and nutrients load in real wastewater was investigated through batch microalgal cultivation tests. A microalgal polyculture was used as inoculum and grown for 10 days in batch at different conditions of light intensity (i.e. 20, 50 and 100 μmol s −1 m −2 ) and nutrients concentration in wastewater. Experimental results showed that biomass productivity decreased for rich nutrients conditions and increased for high light intensities. The highest lipid mass content (29%) was found for high light intensity condition (100 μmol s −1 m −2 ). Furthermore, microalgae settleability tests, conducted at the end of the cultivation time, resulted in the highest biomass recovery efficiency (72%) for low light intensity and nutrients supply conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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7. Effects of light and temperature on Mg uptake, growth, and calcification in the proxy climate archive Clathromorphum compactum.
- Author
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Williams, Siobhan, Adey, Walter, Halfar, Jochen, Kronz, Andreas, Gagnon, Patrick, Bélanger, David, and Nash, Merinda
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EFFECT of light on algae ,EFFECT of temperature on algae ,PHYSIOLOGICAL effects of magnesium ,CALCIFICATION ,CORALLINE algae - Abstract
The shallow-marine benthic coralline alga Clathromorphum compactum is an important annual- to sub-annual-resolution archive of Arctic and subarctic environmental conditions, allowing reconstructions going back > 600 years. Both Mg content, in the high-Mg calcitic cell walls, and annual algal growth increments have been used as a proxy for past temperatures and sea ice conditions. The process of calcification in coralline algae has been debated widely, with no definitive conclusion about the role of light and photosynthesis in growth and calcification. Light received by algal specimens can vary with latitude, water depth, sea ice conditions, water turbidity, and shading. Furthermore, field calibration studies of Clathromorphum sp. have yielded geographically disparate correlations between MgCO
3 and sea surface temperature. The influence of other environmental controls, such as light, on Mg uptake and calcification has received little attention. We present results from an 11-month mesocosm experiment in which 123 wildcollected C. compactum specimens were grown in conditions simulating their natural habitat. Specimens grown for periods of 1 and 2 months in complete darkness show that the typical complex of anatomy and cell wall calcification develops in new tissue without the presence of light, demonstrating that calcification is metabolically driven and not a side effect of photosynthesis. Also, we show that both light and temperature significantly affect MgCO3 in C. compactum cell walls. For specimens grown at low temperature (2°C), the effects of light are smaller, with a 1.4 mol% MgCO3 increase from low-light (meanD17 lx) to high-light conditions (meanD450 lx). At higher (10°C) temperature there was a 1.8 mol%MgCO3 increase from low to high light. It is therefore concluded that site- and possibly specimen-specific temperature calibrations must be applied, to account for effects of light when generating Clathromorphum-derived temperature calibrations. [ABSTRACT FROM AUTHOR]- Published
- 2018
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8. The effect of different light intensities and light/dark regimes on the performance of photosynthetic microalgae microbial fuel cell.
- Author
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Bazdar, Elahe, Roshandel, Ramin, Yaghmaei, Soheila, and Mardanpour, Mohammad Mahdi
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EFFECT of light on algae , *MICROBIAL fuel cells , *MICROALGAE , *BIOMASS energy , *ELECTROPHYSIOLOGY , *WASTEWATER treatment - Abstract
This study develops a photosynthetic microalgae microbial fuel cell (PMMFC) engaged Chlorella vulgaris microalgae to investigate effect of light intensities and illumination regimes on simultaneous production of bioelectricity, biomass and wastewater treatment. The performance of the system under different light intensity (3500, 5000, 7000 and 10,000 lx) and light/dark regimes (24/00, 12/12, 16/8 h) was investigated. The optimum light intensity and light/dark regimes for achieving maximum yield of PMMFC were obtained. The maximum power density of 126 mW m −3 , the coulombic efficiency of 78% and COD removal of 5.47% were achieved. The maximum biomass concentration of 4 g l −1 (or biomass yield of 0.44 g l −1 day −1 ) was obtained in continuous light intensity of 10,000 lx. The comparison of the PMMFC performance with air–cathode and abiotic-cathode MFCs shows that the maximum power density of air-cathode MFC was only 13% higher than PMMFC. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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9. Hunting the main player enabling Chlamydomonas reinhardtii growth under fluctuating light.
- Author
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Jokel, Martina, Johnson, Xenie, Peltier, Gilles, Aro, Eva‐Mari, and Allahverdiyeva, Yagut
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CHLAMYDOMONAS reinhardtii , *ALGAL growth , *EFFECT of light on algae , *PHOTOSYNTHESIS , *CYANOBACTERIAL proteins - Abstract
Summary: Photosynthetic organisms have evolved numerous photoprotective mechanisms and alternative electron sinks/pathways to fine‐tune the photosynthetic apparatus under dynamic environmental conditions, such as varying carbon supply or fluctuations in light intensity. In cyanobacteria flavodiiron proteins (FDPs) protect the photosynthetic apparatus from photodamage under fluctuating light (FL). In Arabidopsis thaliana, which does not possess FDPs, the PGR5‐related pathway enables FL photoprotection. The direct comparison of the pgr5, pgrl1 and flv knockout mutants of Chlamydomonas reinhardtii grown under ambient air demonstrates that all three proteins contribute to the survival of cells under FL, but to varying extents. The FDPs are crucial in providing a rapid electron sink, with flv mutant lines unable to survive even mild FL conditions. In contrast, the PGRL1 and PGR5‐related pathways operate over relatively slower and longer time‐scales. Whilst deletion of PGR5 inhibits growth under mild FL, the pgrl1 mutant line is only impacted under severe FL conditions. This suggests distinct roles, yet a close relationship, between the function of PGR5, PGRL1 and FDP proteins in photoprotection. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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10. Chara spp. exhibit highly heterogeneous light adaptation, calcite encrustation and epiphyton patterns in a marl lake.
- Author
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Sviben, Sanja, Matoničkin Kepčija, Renata, Vidaković-Cifrek, Željka, Sertić Perić, Mirela, Kružić, Petar, Popijač, Aleksandar, and Primc, Biserka
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CALCITE , *EFFECT of light on algae , *CHARA , *PHOTOSYNTHETIC pigments , *CHLOROPHYLL , *PHYSIOLOGY - Abstract
The aim of this work was to determine the relationships between calcite encrustation, photosynthetic pigments and the epiphyton community of upper and lower thallus parts of Chara spp. from different depths of a marl lake (Lake Prošće, NP Plitvice Lakes, Croatia). Samples were taken from two Chara species, spread across three lake depths ( Chara subspinosa at 1 and 5 m, and Chara globularis at 10 m), and analysed spectrophotometrically for photosynthetic pigment (chlorophyll a , chlorophyll b and total carotenoids) composition, and gravimetrically for organic matter and calcite encrustation contents within the macroalgal species. Epiphytic ( i.e. , epialgal) protozoa and micro-metazoa were determined on live material. The amounts of calcite deposits on Chara were two times higher at the depths of 1 and 5 m, compared to 10 m – most likely due to water chemistry ( i.e. , pH, temperature and calcium concentrations), light availability and photosynthesis patterns as well as Chara species morphology differences. Photosynthetic pigments exhibited complex patterns, differing both between upper and lower charophyte thallus parts, and among depths, likely reflecting adaptations of the macroalgae and epiphytes to light conditions. Protozoans and micro-metazoans exhibited various assemblages at different depths, with C. subspinosa supporting highest diversity (42 taxa at 5 m) and C. globularis exhibiting highest abundance (up to 9000 ind/g DW ). Peritrich ciliates and rotifers preferred Chara thalli with less extensive calcite encrustations and more complex structure. [ABSTRACT FROM AUTHOR]
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- 2018
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11. Enhanced astaxanthin accumulation in Haematococcus pluvialis using high carbon dioxide concentration and light illumination.
- Author
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Christian, David, Zhang, Jun, Sawdon, Alicia J., and Peng, Ching-An
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ASTAXANTHIN , *EFFECT of carbon dioxide on algae , *EFFECT of light on algae , *BIOACCUMULATION , *GREEN algae , *BIOMASS - Abstract
In this study, an economical two-stage method was proposed for the production of natural astaxanthin from Haematococcus pluvialis without a medium replacement step. In stage 1, H. pluvialis were grown under low light illumination until they reached optimal biomass. In stage 2, cells were switched to astaxanthin induction conditions utilizing the combination of high light illumination and elevated carbon dioxide levels (5 or 15%). The introduction of CO 2 altered the C/N balance creating a nutrient deficiency without a change of media. The resulting astaxanthin yield was 2–3 times that of using either stressor alone. This astaxanthin induction method has many advantages over current methods including no medium replacement and a short induction time of less than four days. [ABSTRACT FROM AUTHOR]
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- 2018
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12. Behavioural versus physiological photoprotection in epipelic and epipsammic benthic diatoms.
- Author
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Blommaert, Lander, Lavaud, Johann, Vyverman, Wim, and Sabbe, Koen
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ALGAE photoinhibition , *DIATOMS , *EFFECT of light on algae , *CHLOROPHYLL spectra , *VERTICAL distribution (Aquatic biology) , *VERTICAL distribution of plankton - Abstract
Benthic diatoms are dominant primary producers in intertidal marine sediments, which are characterized by widely fluctuating and often extreme light conditions. To cope with sudden increases in light intensity, benthic diatoms display both behavioural and physiological photoprotection mechanisms. Behavioural photoprotection is restricted to raphid pennate diatoms, which possess a raphe system that enables motility and hence positioning in sediment light gradients (e.g. via vertical migration into the sediment). The main physiological photoprotection mechanism is to dissipate excess light energy as heat, measured as Non-Photochemical Quenching (NPQ) of chlorophyll fluorescence. A trade-off between vertical migration and physiological photoprotection (NPQ) in benthic diatoms has been hypothesized before, but this has never been formally tested. We exposed five epipelic diatom species (which move in between sediment particles) and four epipsammic diatom species (which live in close association with individual sand grains) to high light conditions, and characterized both NPQ and the relative magnitude of the migratory response to high light. Our results reveal the absence of a significant downward migratory response in an araphid diatom, but also in several raphid epipsammic diatoms, while all epipelic species showed a significant migratory response upon high light exposure. In all epipsammic species the upregulation of NPQ was rapid and pronounced; NPQ relaxation in low light conditions, however, occurred faster in the araphid diatom, compared with the raphid epipsammic species. In contrast, all epipelic species lacked a strong and flexible NPQ response and showed higher susceptibility to photodamage when not able to migrate. While overall our results support the vertical migration-NPQ trade-off, the lack of strong relationships between the capacity for vertical migration and NPQ within the epipsammic and epipelic groups suggests that other factors as well, such as cell size, substrate type and photoacclimation, may influence photoprotective strategies. [ABSTRACT FROM AUTHOR]
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- 2018
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13. Nitrogen starvation induces distinct photosynthetic responses and recovery dynamics in diatoms and prasinophytes.
- Author
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Liefer, Justin D., Garg, Aneri, Campbell, Douglas A., Irwin, Andrew J., and Finkel, Zoe V.
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PHYTOPLANKTON , *DIATOMS , *PHOTOSYNTHESIS , *PHYSIOLOGICAL effects of nitrogen , *EFFECT of light on algae , *PHYSIOLOGY - Abstract
Nitrogen stress is an important control on the growth of phytoplankton and varying responses to this common condition among taxa may affect their relative success within phytoplankton communities. We analyzed photosynthetic responses to nitrogen (N) stress in two classes of phytoplankton that often dominate their respective size ranges, diatoms and prasinophytes, selecting species of distinct niches within each class. Changes in photosynthetic structures appeared similar within each class during N stress, but photophysiological and growth responses were more species- or niche-specific. In the coastal diatom Thalassiosira pseudonana and the oceanic diatom T. weissflogii, N starvation induced large declines in photosynthetic pigments and Photosystem II (PSII) quantity and activity as well as increases in the effective absorption cross-section of PSII photochemistry (σʹPSII). These diatoms also increased photoprotection through energy-dependent non-photochemical quenching (NPQ) during N starvation. Resupply of N in diatoms caused rapid recovery of growth and relaxation of NPQ, while recovery of PSII photochemistry was slower. In contrast, the prasinophytes Micromonas sp., an Arctic Ocean species, and Ostreococcus tauri, a temperate coastal eutrophile, showed little change in photosynthetic pigments and structures and a decline or no change, respectively, in σʹPSII with N starvation. Growth and PSII function recovered quickly in Micromonas sp. after resupply of N while O. tauri failed to recover N-replete levels of electron transfer from PSII and growth, possibly due to their distinct photoprotective strategies. O. tauri induced energy-dependent NPQ for photoprotection that may suit its variable and nutrient-rich habitat. Micromonas sp. relies upon both energy-dependent NPQ and a sustained, energy-independent NPQ mechanism. A strategy in Micromonas sp. that permits photoprotection with little change in photosynthetic structures is consistent with its Arctic niche, where low temperatures and thus low biosynthetic rates create higher opportunity costs to rebuild photosynthetic structures. [ABSTRACT FROM AUTHOR]
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- 2018
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14. Physiological-phased kinetic characteristics of microalgae Chlorella vulgaris growth and lipid synthesis considering synergistic effects of light, carbon and nutrients.
- Author
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Liao, Qiang, Chang, Hai-Xing, Fu, Qian, Huang, Yun, Xia, Ao, Zhu, Xun, and Zhong, Nianbing
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ALGAL growth , *LIPID synthesis , *EFFECT of light on algae , *PHYSIOLOGICAL effects of carbon , *CHEMICAL kinetics , *CHLORELLA vulgaris - Abstract
To comprehensively understand kinetic characteristics of microalgae growth and lipid synthesis in different phases, a phase-feeding strategy was proposed to simultaneously regulate light, carbon and nutrients in adaption, growth and stationary phases of microalgae cultivation. Physiological-phased kinetic characteristics of microalgae Chlorella vulgaris growth and lipid synthesis under synergistic effects of light, carbon and nutrients were investigated, and supply-demand relationships of electrons and energy between light and dark reactions of photosynthesis process were discussed. Finally, the optimized cultivation strategy for microalgae in various phases were obtained, under which the lipid productivity was significantly improved from 130.11 mg/L/d to 163.42 mg/L/d. The study provided some important guidance for the large-scale production of biofuels from microalgae. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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15. Gene expression profiling of astaxanthin and fatty acid pathways in Haematococcus pluvialis in response to different LED lighting conditions.
- Author
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Ma, Ruijuan, Thomas-Hall, Skye R., Chua, Elvis T., Alsenani, Faisal, Eltanahy, Eladl, Netzel, Michael E., Netzel, Gabriele, Lu, Yinghua, and Schenk, Peer M.
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ASTAXANTHIN , *GENE expression profiling , *EFFECT of light on algae , *FATTY acids , *LIGHT emitting diodes , *MICROALGAE - Abstract
Haematococcus pluvialis is a green microalga of major interest to industry based on its ability to produce large amounts of astaxanthin. Biosynthesis of astaxanthin and its mono- and di-esters was significantly stimulated under 150 μmol m −2 s −1 of white LED (W-150) compared with lower light intensities, but the highest astaxanthin amounts were produced under 70 μmol m −2 s −1 of blue LED (B-70). Transcripts of astaxanthin biosynthesis genes psy , crtO , and bkt2 were upregulated under W-150, while psy , lcy , crtO , and crtR-B were upregulated by B-70. Total fatty acid content and biosynthesis genes fata and all dgat genes were induced under W-150, while C18:3n6 biosynthesis and dgat2a expression were specifically stimulated by B-70 which was correlated to astaxanthin ester biosynthesis. Nitrogen starvation, various LEDs and the identified upregulated genes may provide useful tools for future metabolic engineering to significantly increase free astaxanthin, its esters and fatty acid precursors in H. pluvialis . [ABSTRACT FROM AUTHOR]
- Published
- 2018
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16. Designing a CO2 supply strategy for microalgal biodiesel production under diurnal light in a cylindrical-membrane photobioreactor.
- Author
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Naira, Venkateswara R., Das, Debasish, and Maiti, Soumen K.
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ALGAL biofuels , *CARBON sequestration , *PHOTOBIOREACTORS , *EFFECT of light on algae , *MASS transfer coefficients , *BIODIESEL fuels - Abstract
A cylindrical membrane photobioreactor with high CO 2 mass transfer coefficient was designed and installed under customized unidirectional lighting. Combinatorial effect of light and CO 2 on the growth of Chlorella sp. FC2 IITG was studied and an optimal CO 2 supply without pH control strategy was developed under diurnal light similar to sunlight (17-2000-17 µE m −2 s −1 ). Unprecedentedly, broad range of saturated light levels (700–1500 µE m −2 s −1 ), reversible photoinhibition, no pH control requirement and dark-phase growth were noticed altogether in the strain. Under diurnal light, final biomass titer of 5.79 g L −1 and overall biomass productivity of 1.29 g L −1 day −1 were observed. The results were similar to optimal light (1130 µE m −2 s −1 ) and CO 2 (2%) conditions. Subsequently, a highest FAME productivity of 265 mg L −1 day −1 was observed in last two days of lipid induction phase. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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17. Enhancing lipid production in attached culture of a thermotolerant microalga Desmodesmus sp. F51 using light-related strategies.
- Author
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Shen, Ying, Wang, Sha, Ho, Shih-Hsin, Xie, Youping, and Chen, Jianfeng
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MICROALGAE , *THERMAL tolerance (Physiology) , *EFFECT of light on algae , *ALGAE culture , *ENERGY conservation - Abstract
In attached culture, concentrated cells are grown on the substratum, which makes the light adsorption mechanism quite different from those of suspended cultures. An energy conservation biofilm reactor based on capillary-effect was firstly introduced for attached culture of the thermotolerant microalga Desmodesmus sp. F51. The effects of light-related strategies (including light intensity, photoperiod and light-switching strategies) on lipid production were investigated. It was found that the light requirements for biomass or lipid accumulation varied greatly at different growth stages, probably due to increasing biofilm thickness. By switching the light intensity from 700 to 1134 μmol m −2 s −1 at day 3 in Strategy I, a maximum biofilm/lipid production of 241.67/53.62 g m −2 was achieved at day 8. A similar operation was conducted in Strategy II except a further switch to light intensity of 938 μmol m −2 s −1 at day 5, a maximum biofilm/lipid production of 223.58/66.65 g m −2 was achieved at day 8. This performance is better than most of the previously reported values. Light-switching operation was proved to be an effective strategy to supply the appropriate light for each growth stage of the immobilized cells, and was beneficial for biofilm/lipid production. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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18. Modeling and simulation of the influence of fractions of blue and red light on the growth of the microalga Scenedesmus quadricauda.
- Author
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Leonardi, Rodrigo Jorge, Niizawa, Ignacio, Irazoqui, Horacio Antonio, and Heinrich, Josué Miguel
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ALGAL growth , *SCENEDESMUS quadricauda , *EFFECT of light on algae , *BLUE light , *ENERGY consumption - Abstract
Lighting conditions of microalgal cultures have great impact on the biomass composition and on the efficiency of energy usage. In this work, the green microalgae Scenedesmus quadricauda was grown in a laboratory scale photobioreactor irradiated with blue and red LEDs in different proportions. In order to ensure that the observed effects are caused by the light spectral composition and not by its intensity, different arrangements of LEDs were built so that they emit the same total number of photons per unit time and per unit volume of culture. The interaction between suspended algal cells and the radiation field within the culture has been modeled.The impact of the light distribution within the cultures on the growth rate r x , as well as on the amount of chlorophylls per unit biomass and on the efficiency of usage of photons, has been assessed. The effects of the alternative use of red and blue light were analyzed in previous studies [17,41] . In this work, experiments using irradiation light consisting in mixtures of these two colors in different proportions were carried out. From these experiments it can be concluded that the efficiency of light usage for the same intensity of light, is not the result of the independent contribution of each fraction of photons of different wavelength reaching the reactor, but instead these fractions interfere with each other in the absorption process. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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19. Effect of the Spatial Orientation of a Substrate on the Formation of Early Fouling Communities in the White Sea.
- Author
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Khalaman, V. V., Golubovskaya, N. S., Komendantov, A. Yu., Malavenda, S. S., and Mikhaylova, T. A.
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FOULING , *ALGAL blooms , *ALGAL populations , *ALGAL communities , *EFFECT of light on algae - Abstract
The formation of early fouling communities developing under different spatial orientations of substrates and various lighting conditions was studied during a field experiment. The algal predominance on the sunlit upward-oriented sides and the animal predominance on the shaded downward-oriented sides are the consequence of two processes: (1) competitive displacement of animals from the sunlit sides by algae; (2) preferential colonization of the shaded downward-oriented sides of the substrates by animals. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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20. Ecophysiological strategies for growth under varying light and organic carbon supply in two species of green microalgae differing in their motility.
- Author
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Spijkerman, Elly, Lukas, Marcus, and Wacker, Alexander
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MICROALGAE , *MOTILITY of algae , *ECOPHYSIOLOGY , *EFFECT of light on algae , *PHYSIOLOGICAL effects of carbon , *PHYSIOLOGY - Abstract
Mixing events in stratified lakes result in microalgae being exposed to varying conditions in light and organic carbon concentrations. Stratified lakes consist of an upper illuminated strata and a lower, darker strata where organic carbon accumulates. Therefore, in this contribution we explore the importance of dissolved organic carbon for growth under various light intensities by measuring some ecophysiological adaptations in two green microalgae. We compared the non-motile Chlorella vulgaris with the flagellated Chlamydomonas acidophila under auto-, mixo-, and heterotrophic growth conditions. In both algae the maximum photosynthetic and growth rates were highest under mixotrophy, and both algae appeared inhibited in their phosphorus acquisition under heterotrophy. Heterotrophic conditions provoked the largest differences as C. vulgaris produced chlorophyll a in darkness and grew as well as in autotrophic conditions, whereas Chl. acidophila bleached and could not grow heterotrophically. Although the fatty acid composition of both phytoplankton species differed, both species reacted in a similar way to changes in their growth conditions, mainly by a decrease of C18:3n-3 and an increase of C18:1n-9 from auto- to heterotrophic conditions. The two contrasting responses within the group of green microalgae suggest that dissolved organic carbon has a high deterministic potential to explain the survival and behaviour of green algae in the deeper strata of lakes. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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21. Comparative growth rates of cultured marine dinoflagellates in the genus Symbiodinium and the effects of temperature and light.
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Klueter, Anke, Trapani, Jennifer, Archer, Frederick I., McIlroy, Shelby E., and Coffroth, Mary Alice
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DINOFLAGELLATES , *SYMBIODINIUM , *ALGAE culture , *EFFECT of temperature on algae , *EFFECT of light on algae , *SYMBIOSIS - Abstract
Many dinoflagellate microalgae of the genus Symbiodinium form successful symbioses with a large group of metazoans and selected protists. Yet knowledge of growth kinetics of these endosymbionts and their ecological and evolutionary implications is limited. We used a Bayesian biphasic generalized logistic model to estimate key parameters of the growth of five strains of cultured Symbiodinium, S. microadriaticum (cp-type A194; strain 04–503), S. microadriaticum (cp-type A194; strain CassKB8), S. minutum (cp-type B184; strain Mf 1.05b.01.SCI.01), S. psygmophilum (cp-type B224; strain Mf 11.05b.01) and S. trenchii (cp-type D206; strain Mf 2.2b), grown in four different combinations of temperature and light. Growth kinetics varied among Symbiodinium strains and across treatments. Biphasic growth was especially evident for S. minutum and S. psygmophilum across all treatments. Monophasic growth was more common when final asymptotic densities were relatively low (~ 200 million cells ml-1). All species tended to grow faster and / or reached a higher asymptote at 26°C than at 18°C. The fastest growth was exhibited by S. minutum, with an approximate four-fold increase in estimated cell density after 60 days. The strongest effect of light was seen in S. trenchii, in which increasing light levels resulted in a decrease in initial growth rate, and an increase in asymptotic density, time when growth rate was at its maximum, final growth rate, and maximum growth rate. Results suggest that Symbiodinium species have different photokinetic and thermal optima, which may affect their growth-related nutritional physiology and allow them to modify their response to environmental changes. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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22. Stimulatory effect of indole-3-acetic acid and continuous illumination on the growth of Parachlorella kessleri.
- Author
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Magierek, Edyta, Krzemińska, Izabela, and Tys, Jerzy
- Subjects
- *
INDOLEACETIC acid , *EFFECT of light on algae , *ALGAL growth , *PLANT hormones , *ALGAL cells - Abstract
The effects of the phytohormone indole-3-acetic acid and various conditions of illumination on the growth of Parachlorella kessleri were investigated. Two variants of illumination: continuous and photoperiod 16/8 h (light/dark) and two concentrations of the phytohormone - 10-4 M and 10-5 M of indole- 3-acetic acid were used in the experiment. The results of this study show that the addition of the higher concentration of indole-3-acetic acid stimulated the growth of P. kessleri more efficiently than the addition of the lower concentration of indole-3-acetic acid. This dependence can be observed in both variants of illumination. Increased biomass productivity was observed in the photoperiod conditions. Both the addition of the phytohormone and the conditions of the illumination had an impact on the number of P. kessleri cells. An increased number of cells was observed under the conditions of continuous illumination. This result has shown that the continuous illumination and the higher concentration of the phytohormone stimulated the growth of P. kessleri more effectively than the shorter duration of light (16/8 h (light/dark)). [ABSTRACT FROM AUTHOR]
- Published
- 2017
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23. Isolation and characterization of two phototropins in the freshwater green alga, Spirogyra varians (Streptophyta, Zygnematales).
- Author
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Ji Woong Lee and Gwang Hoon Kim
- Subjects
- *
PHOTOTROPINS , *GREEN algae , *FRESHWATER algae , *EFFECT of light on algae , *POLYMERASE chain reaction - Abstract
Freshwater algae living in shallow waters have evolved various photomovement to stay in the optimum light condition for survival. Previous action-spectra investigations showed that Spirogyra filaments have phototropic movement in blue light. To decipher the genetic control of phototropic movement, two phototropin homologues were isolated from Spirogyra varians, and named SvphotA and SvphotB. Both phototropins have similar molecular structure consisted of two light-oxygen-voltage domains (LOV1, LOV2) and a serine / threonine kinase domain. SvphotA and SvphotB had 48.7% sequence identity. Phylogenetic analysis showed SvphotA and SvphotB belong to different clades suggesting early divergence, possibly before the divergence of land plants from the Zygnematales. Quantitative PCR and northern blot analysis showed that SvphotA and SvphotB responded differently to red and blue light. SvphotA was consistently expressed in the dark and in blue light, while SvphotB was expressed only when the plants were exposed to light. When the filaments were exposed to red light, SvphotA was significantly downregulated whereas SvphotB was highly upregulated. These results suggest that the two phototropins may have different roles in the photoresponse in S. varians. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
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24. Nitrate uptake of the red tide dinoflagellate Prorocentrum micans measured using a nutrient repletion method: effect of light intensity.
- Author
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Kyung Ha Lee, Hae Jin Jeong, Hye Jeong Kim, and An Suk Lim
- Subjects
- *
EFFECT of light on algae , *DINOFLAGELLATES , *EUTROPHICATION , *NITRATE content of water , *ALGAL blooms - Abstract
The ability of a red tide species to take up nutrients is a critical factor affecting its red tide dynamics and species competition. Nutrient uptake by red tide species has been conventionally measured by incubating nutrient-depleted cells for a short period at 1 or 2 light intensities. This method may be applicable to certain conditions under which cells remain in oligotrophic water for a long time and high nutrients are suddenly introduced. Thus, a new method should be developed that can be applicable to the conditions under which cells are maintained in eutrophicated waters in healthy conditions and experience light and dark cycles and different light intensities during vertical migration. In this study, a new repletion method reflecting these conditions was developed. The nitrate uptake rates of the red tide dinoflagellate Prorocentrum micans originally maintained in nitrate repletion and depletion conditions as a function of nitrate concentration were measured. With increasing light intensity from 10 to 100 μE m-2 s-1, the maximum nitrate uptake rate (Vmax) of P. micans increased from 3.6 to 10.8 pM cell-1 d-1 and the half saturation constant (Ks-NO3) increased from 4.1 to 6.9 μM. At 20 μE m-2 s-1, the Vmax and Ks-NO3 of P. micans originally maintained in a nitrate repletion condition were similar to those maintained in a nitrate depletion condition. Thus, differences in cells under nutrient repletion and depletion conditions may not affect Ks-NO3 and Vmax. Moreover, different light intensities may cause differences in the nitrate uptake of migratory phototrophic dinoflagellates. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
25. The freshwater red alga Batrachospermum turfosum (Florideophyceae) can acclimate to a wide range of light and temperature conditions.
- Author
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Aigner, Siegfried, Holzinger, Andreas, Karsten, Ulf, and Kranner, Ilse
- Subjects
- *
FRESHWATER algae , *BATRACHOSPERMUM , *EFFECT of light on algae , *EFFECT of temperature on algae , *HABITATS - Abstract
Batrachospermum turfosumBory is one of the generalists among the few red algae that have adapted to freshwater habitats, occurring in a variety of primarily shaded, nutrient-poor micro-habitats with lotic (running) or lentic (standing) waters. Seasonal variations in water level and canopy cover can expose this sessile alga to widely fluctuating temperatures, solar irradiation and nutrient availability. Here we report on the ecophysiology ofB. turfosumcollected from an ultra-oligotrophic bog pool in the Austrian Alps. Photosynthesis as a function of photon fluence density (PFD) and temperature was studied by measuring oxygen evolution in combination with chlorophyll fluorescence. In addition, the effects of ultraviolet radiation (UVR) on photosynthetic pigments were analysed using HPLC and spectrophotometric methods, and cellular ultrastructure was studied using transmission electron microscopy. We found thatB. turfosumis adapted to low light, with a light compensation point (Ic) and a light saturation point (Ik) of 8.4 and 29.7 µmol photons m–2s–1, respectively, but also tolerates higher PFDs of ~1000 µmol photons m–2s–1, and is capable of net photosynthesis at temperatures between 5°C and 35°C. Exposure to either UV-A or UV-AB for 102 h led to a strong transient drop in effective quantum yield (ΔF/FM’), followed by an acclimation to about 70% of initial ΔF/FM’ values. Ultrastructural changes included the accumulation of plastoglobules and dilated membranes after UVR treatment. Although all photosynthetic pigments strongly decreased upon UVR exposure and no UV-photoprotectants (e.g. mycosporine-like amino acids) could be detected, the alga was capable of recovering ΔF/FM’ and phycobiliproteins after UVR treatment. In summary,B. turfosumtolerates a wide range of irradiation and temperature regimes, and these traits may be the basis for its successful adaptation to challenging environments. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
26. Mobility of Amphidinium carterae Hulburt measured by high-frequency ultrasound.
- Author
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Hansoo Kim, Tae-Hoon Bok, Dong-Guk Paeng, Juho Kim, Kweon-Ho Nam, Joon-Baek Lee, and Shah, Md. Mahfuzur Rahman
- Subjects
- *
MONITORING of algal blooms , *ULTRASONIC imaging , *EFFECT of light on algae , *DETECTION of toxic marine algae , *MARINE phytoplankton , *MARINE organisms , *BEHAVIOR - Abstract
The over-growth of phytoplankton causes harmful algal blooms (HABs) in marine ecological environments. Mobility measurement is important in understanding the action of HABs. In this study, the mobility of Amphidinium carterae Hulburt (A. carterae) was investigated using high-frequency ultrasound in the laboratory. Mobility in response to light was illustrated with M-mode images reconstructed from echoed signals. This study suggests that mobility of the swimming speed of A. carterae in response to light can be measured and calculated with M-mode images through high-frequency ultrasound. This finding may be helpful in understanding the fundamental behavior of HABs. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
27. Responses of the picoprasinophyte Micromonas commoda to light and ultraviolet stress.
- Author
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Cuvelier, Marie L., Guo, Jian, Ortiz, Alejandra C., van Baren, Marijke J., Tariq, Muhammad Akram, Partensky, Frédéric, and Worden, Alexandra Z.
- Subjects
- *
EFFECT of light on algae , *EFFECT of ultraviolet radiation on algae , *RNA sequencing , *FLOW cytometry , *PLANT proteins - Abstract
Micromonas is a unicellular marine green alga that thrives from tropical to polar ecosystems. We investigated the growth and cellular characteristics of acclimated mid-exponential phase Micromonas commoda RCC299 over multiple light levels and over the diel cycle (14:10 hour light:dark). We also exposed the light:dark acclimated M. commoda to experimental shifts from moderate to high light (HL), and to HL plus ultraviolet radiation (HL+UV), 4.5 hours into the light period. Cellular responses of this prasinophyte were quantified by flow cytometry and changes in gene expression by qPCR and RNA-seq. While proxies for chlorophyll a content and cell size exhibited similar diel variations in HL and controls, with progressive increases during day and decreases at night, both parameters sharply decreased after the HL+UV shift. Two distinct transcriptional responses were observed among chloroplast genes in the light shift experiments: i) expression of transcription and translation-related genes decreased over the time course, and this transition occurred earlier in treatments than controls; ii) expression of several photosystem I and II genes increased in HL relative to controls, as did the growth rate within the same diel period. However, expression of these genes decreased in HL+UV, likely as a photoprotective mechanism. RNA-seq also revealed two genes in the chloroplast genome, ycf2-like and ycf1-like, that had not previously been reported. The latter encodes the second largest chloroplast protein in Micromonas and has weak homology to plant Ycf1, an essential component of the plant protein translocon. Analysis of several nuclear genes showed that the expression of LHCSR2, which is involved in non-photochemical quenching, and five light-harvesting-like genes, increased 30 to >50-fold in HL+UV, but was largely unchanged in HL and controls. Under HL alone, a gene encoding a novel nitrite reductase fusion protein (NIRFU) increased, possibly reflecting enhanced N-assimilation under the 625 μmol photons m-2 s-1 supplied in the HL treatment. NIRFU’s domain structure suggests it may have more efficient electron transfer than plant NIR proteins. Our analyses indicate that Micromonas can readily respond to abrupt environmental changes, such that strong photoinhibition was provoked by combined exposure to HL and UV, but a ca. 6-fold increase in light was stimulatory. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
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28. Temporal change of photophobic step-up responses of Euglena gracilis investigated through motion analysis.
- Author
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Ozasa, Kazunari, Won, June, Song, Simon, Tamaki, Shun, Ishikawa, Takahiro, and Maeda, Mizuo
- Subjects
- *
EUGLENA gracilis , *MOTILITY of microorganisms , *EFFECT of light on algae , *ALGAL development , *BIOMECHANICS - Abstract
The adaptation to a strong light is one of the essential characteristics of green algae, yet lacking relatively the information about the photophobic responses of Eukaryotic microalgae. We investigated the photophobic step-up responses of Euglena gracilis over a time course of several hours with alternated repetition of blue-light pulse illumination and spatially patterned blue-light illumination. Four distinctive photophobic motions in response to strong blue light were identified in a trace image analysis, namely on-site rotation, running and tumbling, continuous circular swimming, and unaffected straightforward swimming. The cells cultured in autotrophic conditions under weak light showed mainly the on-site rotation response at the beginning of blue-light illumination, but they acquired more blue-light tolerant responses of running and tumbling, circular swimming, or straightforward swimming. The efficiency of escaping from a blue-light illuminated area improved markedly with the development of these photophobic motions. Time constant of 3.0 h was deduced for the evolution of photophobic responses of E. gracilis. The nutrient-rich metabolic status of the cells resulting from photosynthesis during the experiments, i.e., the accumulation of photosynthesized nutrient products in balance between formation and consumption, was the main factor responsible for the development of photophobic responses. The reduction-oxidation status in and around E. gracilis cells did not affect their photophobic responses significantly, unlike the case of photophobic responses and phototaxis of Chlamydomonas reinhardtii cells. This study shows that the evolution of photophobic motion type of E. gracilis is dominated mainly by the nutrient metabolic status of the cells. The fact suggests that the nutrient-rich cells have a higher threshold for switching the flagellar motion from straightforward swimming to rotation under a strong light. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
29. Photoprotective and antioxidant responses to light spectrum and intensity variations in the coastal diatom S keletonema marinoi.
- Author
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Smerilli, Arianna, Orefice, Ida, Corato, Federico, Gavalás Olea, Antonio, Ruban, Alexander V., and Brunet, Christophe
- Subjects
- *
EFFECT of light on algae , *ALGAE defenses , *DIATOMS , *PHOTOSYNTHESIS , *ANTIOXIDANTS - Abstract
Photosynthesis is known to produce reactive oxygen species together with the transformation of light into biochemical energy. To fill the gap of the knowledge on the protective antioxidant network of microalgae, a series of experiments to explore the role of spectral composition and intensity of light in the modulation of the photodefence mechanisms developed by the coastal diatom Skeletonema marinoi were performed. The modulation of the total phenolic content, ascorbic acid and the enzymes glutathione reductase, catalase, ascorbate peroxidase and superoxide dismutase together with xanthophyll cycle and non-photochemical quenching in response to variations in the light environment were analysed. Most of the enzymes' activity was promptly affected by the red light. Yet, the monochromatic high intensity blue light enhanced the synthesis of total phenolic content and ascorbic acid in parallel to the xanthophyll cycle activity. This study reveals the dual effects of spectral composition and intensity of light on the modulation of photoprotective mechanisms. Diatoms developed a complementary and/or alternative tuning processes to cope with the variable light environment they experience in the water column. They also provided valuable insights into light manipulation regimes for diatom cultivation that will help to maximize production of bioactive molecules. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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- View/download PDF
30. Improvement on light penetrability and microalgae biomass production by periodically pre-harvesting Chlorella vulgaris cells with culture medium recycling.
- Author
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Huang, Yun, Sun, Yahui, Liao, Qiang, Fu, Qian, Xia, Ao, and Zhu, Xun
- Subjects
- *
BIOMASS production , *MICROALGAE cultures & culture media , *EFFECT of light on algae , *CHLORELLA vulgaris , *PHOTOBIOREACTORS , *ATTENUATION of light - Abstract
To improve light penetrability and biomass production in batch cultivation, a cultivation mode that periodically pre-harvesting partial microalgae cells from suspension with culture medium recycling was proposed. By daily pre-harvesting 30% microalgae cells from the suspension, the average light intensity in the photobioreactor (PBR) was enhanced by 27.05–122.06%, resulting in a 46.48% increase in total biomass production than that cultivated in batch cultivation without pre-harvesting under an incident light intensity of 160 μmol m −2 s −1 . Compared with the semi-continuous cultivation with 30% microalgae suspension daily replaced with equivalent volume of fresh medium, nutrients and water input was reduced by 60% in the proposed cultivation mode but with slightly decrease (12.82%) in biomass production. No additional nutrient was replenished when culture medium recycling. Furthermore, higher pre-harvesting ratios (40%, 60%) and lower pre-harvesting frequencies (every 2, 2.5 days) were not advantageous for the pre-harvesting cultivation mode. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
31. The role of coccoliths in protecting Emiliania huxleyi against stressful light and UV radiation.
- Author
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Xu, Juntian, Bach, Lennart T., Schulz, Kai G., Zhao, Wenyan, Gao, Kunshan, and Riebesell, Ulf
- Subjects
EFFECT of light on algae ,EFFECT of ultraviolet radiation on algae ,COCCOLITHUS huxleyi ,CALCIUM carbonate ,SOLAR radiation - Abstract
Coccolithophores are a group of phytoplankton species which cover themselves with small scales (coccoliths) made of calcium carbonate (CaCO
3 ). The reason why coccolithophores form these calcite platelets has been a matter of debate for decades but has remained elusive so far. One hypothesis is that they play a role in light or UV protection, especially in surface dwelling species like Emiliania huxleyi, which can tolerate exceptionally high levels of solar radiation. In this study, we tested this hypothesis by culturing a calcified and a naked strain under different light conditions with and without UV radiation. The coccoliths of E. huxleyi reduced the transmission of visible radiation (400- 700 nm) by 7.5%, that of UV-A (315-400 nm) by 14.1% and that of UV-B (280-315 nm) by 18.4%. Growth rates of the calcified strain (PML B92/11) were about 2 times higher than those of the naked strain (CCMP 2090) under indoor constant light levels in the absence of UV radiation. When exposed to outdoor conditions (fluctuating sunlight with UV radiation), growth rates of calcified cells were almost 3.5 times higher compared to naked cells. Furthermore, the relative electron transport rate was 114%higher and nonphotochemical quenching (NPQ) was 281% higher in the calcified compared to the naked strain, implying higher energy transfer associated with higher NPQ in the presence of calcification. When exposed to natural solar radiation including UV radiation, the maximal quantum yield of photosystem II was only slightly reduced in the calcified strain but strongly reduced in the naked strain. Our results reveal an important role of coccoliths in mitigating light and UV stress in E. huxleyi. [ABSTRACT FROM AUTHOR]- Published
- 2016
- Full Text
- View/download PDF
32. Cultivation of two thermotolerant microalgae under tropical conditions: Influences of carbon sources and light duration on biomass and lutein productivity in four seasons.
- Author
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Chiu, Pai-Ho, Soong, Keryea, and Chen, Ching-Nen Nathan
- Subjects
- *
MICROALGAE cultures & culture media , *BIOMASS , *EFFECT of temperature on algae , *EFFECT of light on algae , *LUTEIN , *CARBON , *TROPICAL conditions - Abstract
Biomass and lutein productivities of two thermotolerant microalgae were assessed in tropical outdoor conditions in all four seasons. Generally, addition of bicarbonate at 0.2 g/L every two days or 2% CO 2 did not enhance the productivities compared to the controls, and the productivities in the spring were higher than in the fall. Durations of effective irradiance positively correlated to the productivity of Coelastrella sp. F50 well, but not for Desmodesmus sp. F2. The ineffective light intensity was below 5000 lux (about 106 μmol/m 2 s). The productivities produced in the 17 cm diameter bottles were 1.5- to 1.9-fold higher than that in the 27 cm ones. Lutein content, about 0.5% in biomass on average, did not change significantly grown in different carbon sources or seasons. The annual productivities of the microalgal biomass and lutein in one hectare were estimated to be 33 tons and 180 kg, respectively, using the non-optimized photobioreactor cultivation. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
33. Differential Regulation of Duplicate Light-Dependent Protochlorophyllide Oxidoreductases in the Diatom Phaeodactylum tricornutum.
- Author
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Hunsperger, Heather M., Ford, Christopher J., Miller, James S., and Cattolico, Rose Ann
- Subjects
- *
PROTOCHLOROPHYLLIDE reductase , *PHAEODACTYLUM tricornutum , *DIATOMS , *EFFECT of light on algae , *CHLOROPHYLL synthesis , *GENE expression , *ALGAL proteins , *ALGAE - Abstract
Background: Diatoms (Bacilliariophyceae) encode two light-dependent protochlorophyllide oxidoreductases (POR1 and POR2) that catalyze the penultimate step of chlorophyll biosynthesis in the light. Algae live in dynamic environments whose changing light levels induce photoacclimative metabolic shifts, including altered cellular chlorophyll levels. We hypothesized that the two POR proteins may be differentially adaptive under varying light conditions. Using the diatom Phaeodactylum tricornutum as a test system, differences in POR protein abundance and por gene expression were examined when this organism was grown on an alternating light:dark cycles at different irradiances; exposed to continuous light; and challenged by a significant decrease in light availability. Results: For cultures maintained on a 12h light: 12h dark photoperiod at 200μE m−2 s−1 (200L/D), both por genes were up-regulated during the light and down-regulated in the dark, though por1 transcript abundance rose and fell earlier than that of por2. Little concordance occurred between por1 mRNA and POR1 protein abundance. In contrast, por2 mRNA and POR2 protein abundances followed similar diurnal patterns. When 200L/D P. tricornutum cultures were transferred to continuous light (200L/L), the diurnal regulatory pattern of por1 mRNA abundance but not of por2 was disrupted, and POR1 but not POR2 protein abundance dropped steeply. Under 1200μE m−2 s−1 (1200L/D), both por1 mRNA and POR1 protein abundance displayed diurnal oscillations. A compromised diel por2 mRNA response under 1200L/D did not impact the oscillation in POR2 abundance. When cells grown at 1200L/D were then shifted to 50μE m−2 s−1 (50L/D), por1 and por2 mRNA levels decreased swiftly but briefly upon light reduction. Thereafter, POR1 but not POR2 protein levels rose significantly in response to this light stepdown. Conclusion: Given the sensitivity of diatom por1/POR1 to real-time light cues and adherence of por2/POR2 regulation to the diurnal cycle, we suggest that POR1 supports photoacclimation, whereas POR2 is the workhorse for daily chlorophyll synthesis. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
34. EFFECT OF DIFFERENT LIGHT SPECTRA ON GROWTH AND FATTY ACID COMPOSITION IN THE EUSTIGMATOPHYCEAN MICROALGA TRACHYDISCUS MINUTUS.
- Author
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Cepák, V., Přibyl, P., Jiřičný, V., and Kohoutková, J.
- Subjects
- *
EFFECT of light on algae , *FATTY acids , *MICROALGAE - Abstract
We examined the effects of illumination with lights of three different spectral characteristics (LED diodes, FLUORA and LUMILUX light tubes) on growth, sequestration of nitrates and phosphates, composition of fatty acids, and long-chain polyunsaturated fatty acid accumulation in the eicosapentaenoic-rich eustigmatophycean microalga, Trachydiscus minutus. When using LED diodes, cultures grew fastest, followed by FLUORA and LUMILUX, and this was confirmed by nitrate and phosphate sequestration rates. Whereas there were only slight differences in the overall degree of saturation of fatty acids, individual fatty acid compositions were substantially affected. LUMILUX specifically inhibited eicosapentaenoic acid accumulation compared to LED and FLUORA tubes, by 50 and 40%, respectively. Linoleic and alpha-linolenic acids were three and four times higher, respectively in algae cultivated under LUMILUX than under the other light sources. Consequently, the ω 3:ω 6 polyunsaturated fatty acid ratio was highest in cultures illuminated by LED (3.235) followed by FLUORA (2.790) and LUMILUX (1.099). We concluded that LED diodes were the best source of light for growth, and eicosapentaenoic acid and arachidonic acid productivities, probably due to their continuous emission across the visible light spectrum. [ABSTRACT FROM AUTHOR]
- Published
- 2016
35. Computational Visual Stress Level Analysis of Calcareous Algae Exposed to Sedimentation.
- Author
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Osterloff, Jonas, Nilssen, Ingunn, Eide, Ingvar, de Oliveira Figueiredo, Marcia Abreu, de Souza Tâmega, Frederico Tapajós, and Nattkemper, Tim W.
- Subjects
- *
CORALLINE algae , *EFFECT of light on algae , *PHOTOSYNTHESIS , *SEDIMENTATION & deposition , *MACHINE learning , *ALGAE - Abstract
This paper presents a machine learning based approach for analyses of photos collected from laboratory experiments conducted to assess the potential impact of water-based drill cuttings on deep-water rhodolith-forming calcareous algae. This pilot study uses imaging technology to quantify and monitor the stress levels of the calcareous algae Mesophyllum engelhartii (Foslie) Adey caused by various degrees of light exposure, flow intensity and amount of sediment. A machine learning based algorithm was applied to assess the temporal variation of the calcareous algae size (∼ mass) and color automatically. Measured size and color were correlated to the photosynthetic efficiency (maximum quantum yield of charge separation in photosystem II, ) and degree of sediment coverage using multivariate regression. The multivariate regression showed correlations between time and calcareous algae sizes, as well as correlations between fluorescence and calcareous algae colors. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
36. Living in biological soil crust communities of African deserts—Physiological traits of green algal Klebsormidium species (Streptophyta) to cope with desiccation, light and temperature gradients.
- Author
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Karsten, Ulf, Herburger, Klaus, and Holzinger, Andreas
- Subjects
- *
SOIL crusting , *EFFECT of temperature on algae , *EFFECT of light on algae , *PHYLOGENY , *ALGAE , *CLASSIFICATION of algae , *ECOPHYSIOLOGY - Abstract
Green algae of the genus Klebsormidium ( Klebsormidiales, Streptophyta) are typical members of biological soil crusts (BSCs) worldwide. The phylogeny and ecophysiology of Klebsormidium has been intensively studied in recent years, and a new lineage called superclade G, which was isolated from BSCs in arid southern Africa and comprising undescribed species, was reported. Three different African strains, that have previously been isolated from hot-desert BSCs and molecular-taxonomically characterized, were comparatively investigated. In addition, Klebsormidium subtilissimum from a cold-desert habitat (Alaska, USA, superclade E) was included in the study as well. Photosynthetic performance was measured under different controlled abiotic conditions, including dehydration and rehydration, as well as under a light and temperature gradient. All Klebsormidium strains exhibited optimum photosynthetic oxygen production at low photon fluence rates, but with no indication of photoinhibition under high light conditions pointing to flexible acclimation mechanisms of the photosynthetic apparatus. Respiration under lower temperatures was generally much less effective than photosynthesis, while the opposite was true for higher temperatures. The Klebsormidium strains tested showed a decrease and inhibition of the effective quantum yield during desiccation, however with different kinetics. While the single celled and small filamentous strains exhibited relatively fast inhibition, the uniserate filament forming isolates desiccated slower. Except one, all other strains fully recovered effective quantum yield after rehydration. The presented data provide an explanation for the regular occurrence of Klebsormidium strains or species in hot and cold deserts, which are characterized by low water availability and other stressful conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
37. Effect of PAR and temperature on the photosynthesis of the Japanese alga, Ecklonia radicosa (Laminariales), based on field and laboratory measurements.
- Author
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RYUTA TERADA, SOUKUH SHIKADA, YUKI WATANABE, YOSHIKI NAKAZAKI, KAZUYA MATSUMOTO, JUNPEI KOZONO, NAOKO SAINO, and NISHIHARA, GREGORY N.
- Subjects
- *
PHOTOSYNTHETICALLY active radiation (PAR) , *PHOTOSYNTHESIS , *ALGAE photoinhibition , *EFFECT of light on algae , *PULSE amplitude modulation , *ALGAE - Abstract
The effect of photosynthetically active radiation (PAR) and temperature on the photosynthesis of a Japanese brown alga, Ecklonia radicosa, was determined by using dissolved oxygen sensors and pulse-amplitude modulated (PAM) fluorometry. The effective quantum yield (ΦPSII) of the sporophytes, in a natural population in shallow water, showed a characteristic noontime decline that indicated the influence of high PAR. However, ΦPSII of sporophytes in deeper water (-10 to -20 m) did not appear to be affected and maintained relatively high values of ΦPSII. In laboratory measurements of ΦPSII, after 12 h of continuous low and high PAR (100 and 1000 µmol photon m-2 s-1), a relatively greater decrease in ΦPSII in the high PAR treatment was observed. Furthermore, despite an overnight dark acclimation, the maximum quantum yield (Fv/Fm) under the high PAR treatment did not fully recover. A net photosynthesis-irradiance (P-E) curve was generated at 20°C, which revealed low compensation and saturation irradiances (Ec, and Ek) of 14 and 45 µmol photon m-2 s-1, suggesting adaptation to a low PAR environment. Results from experiments to determine the net/gross photosynthesis and dark respiration rates revealed that the maximal gross photosynthetic rates occurred at 27.5°C and were 5.18 µg O2 gww -1min-1; whereas, the dark respiration rate increased exponentially with a mean value of 1.35 µg O2 gww-1 min-1 at 22°C. Fv/Fm was relatively stable at low temperature, and the highest value (0.73) occurred at 16.5°C. The field survey and laboratory experiments revealed that E. radicosa is well adapted to relatively low PAR and water temperatures typical of warm temperate coastal regions in Japan. The poor response to high PAR and the inability of sporophytes to fully recover overnight from high PAR exposure indicates that the vertical distribution of this species is driven by the PAR environment. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
38. Photosynthetic response to light and temperature in Laminaria digitata gametophytes from two French populations.
- Author
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Delebecq, Gaspard, Davoult, Dominique, Janquin, Marie-Andree, Oppliger, Luz Valeria, Menu, Dominique, Dauvin, Jean-Claude, and Gevaert, François
- Subjects
- *
LAMINARIA digitata , *PHOTOSYNTHESIS , *GAMETOPHYTES , *ALGAL populations , *EFFECT of temperature on algae , *EFFECT of light on algae - Abstract
Given the growing body of evidence on the general decline of kelp beds worldwide, it is crucial to understand the physiological responses of kelp gametophyte stages to environmental parameters. We investigated the physiological responses to light and temperature of gametophytes from two populations ofLaminaria digitatain contrasting environments along the French coast of the English Channel. Gametophytes of both populations were highly tolerant of high light through an efficient down-regulation of photosynthesis triggered by the activation of the xanthophyll cycle. Temperature increases promoted photosynthesis and photosystem II showed high resistance to short-term exposure to high temperatures currently encountered in the field. Gametophytes from the two sites displayed some differences in their pigment content and photosynthetic characteristics, but low replication and difference in time of sampling precluded tests of potential local adaptation to the light conditions at each site, as observed in previously published results on adult sporophytes. Gametophytes ofL. digitataappeared to be resistant to irradiation and temperature conditions currently experienced in the field, confirming their role in persistence of kelp species under stressful environmental conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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39. Installation of flow deflectors and wing baffles to reduce dead zone and enhance flashing light effect in an open raceway pond.
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Zhang, Qinghua, Xue, Shengzhang, Yan, Chenghu, Wu, Xia, Wen, Shumei, and Cong, Wei
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EFFECT of light on algae , *LIGHT deflectors , *HYDRODYNAMICS , *PONDS , *COMPUTATIONAL fluid dynamics , *ALGAL growth - Abstract
To reduce the dead zone and enhance the flashing light effect, a novel open raceway pond with flow deflectors and wing baffles was developed. The hydrodynamics and light characteristics in the novel open raceway pond were investigated using computational fluid dynamics. Results showed that, compared with the control pond, pressure loss in the flow channel of the pond with optimized flow deflectors decreased by 14.58%, average fluid velocity increased by 26.89% and dead zone decreased by 60.42%. With wing baffles built into the raceway pond, significant swirling flow was produced. Moreover, the period of average L/D cycle was shortened. In outdoor cultivation of freshwater Chlorella sp., the biomass concentration of Chlorella sp. cultivated in the raceway pond with wing baffles was 30.11% higher than that of the control pond. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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40. Growth of Chlorella sorokiniana on a mixture of volatile fatty acids: The effects of light and temperature.
- Author
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Turon, V., Trably, E., Fouilland, E., and Steyer, J-P.
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- *
CHLORELLA sorokiniana , *ALGAL growth , *FATTY acid analysis , *EFFECT of light on algae , *EFFECT of temperature on algae , *BUTYRATES - Abstract
This study investigated the influence of light and temperature on Chlorella sorokiniana grown on a mixture of acetate and butyrate, two of the volatile fatty acids produced by dark fermentation. Exposure to light caused autotrophic biomass production (56% of the final biomass) and reduced the time to reach butyrate exhaustion to 7 days at 25 °C from 10 days in the dark. For growth on acetate at the optimum temperature (35 °C), the presence of butyrate reduced the growth rate (by 46%) and the carbon yield (by 36%). For successful microalgae growth on dark fermentation effluent, butyrate inhibition may be reduced by setting the temperature to 30 °C and providing light. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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41. Induction of secondary carotenogenesis in new halophile microalgae from the genus Dunaliella (Chlorophyceae).
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Solovchenko, A., Selivanova, E., Chekanov, K., Sidorov, R., Nemtseva, N., and Lobakova, E.
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- *
MICROALGAE , *HALOPHILIC microorganisms , *DUNALIELLA , *CAROTENOIDS , *EFFECT of light on algae , *EFFECT of salts on algae , *NUCLEOTIDE sequence , *PHOTOOXIDATIVE stress - Abstract
We report on the effects of high light irradiance (480 μmol quanta/(m2·s)) and salinity (160 and 200 g/liter NaCl) on culture growth as well as on cell lipid pigment and fatty acid (FA) composition in three novel strains of halophile microalga from the genus Dunaliella. Based on the ITS1-5.8S rRNA-ITS2 sequence and on the capability of accumulation of secondary (uncoupled from the photosynthetic apparatus) β-carotene, the strains Dunaliella sp. BS1 and BS2 were identified as D. salina and Dunaliella sp. R5 as D. viridis. Under conditions optimal for growth, chlorophylls and primary carotenoids (mainly lutein) dominated the pigment profile of all investigated strains. The main FA were represented by unsaturated C18 FA typical of thylakoid membrane structural lipids. In all studied cells, stressors caused a decline in chlorophylls and an increase in unsaturated C16 and C18 FA associated with reserve lipids. The carotenogenic species D. salina demonstrated 10-fold increase in carotenoids accompanied by a decline in lutein and a drastic increase in β-carotene (up to 75% of total carotenoids). In D. viridis, only 1.5-fold increase in carotenoid content took place, the ratio of major carotenoids remaining essentially unchanged. The role of the carotenogenic response in mechanisms of protection against photooxidative damage is discussed in view of halophile microalgae stress tolerance and application of the new Dunaliella strains for biotechnological production of β-carotene. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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42. Presence of state transitions in the cryptophyte alga Guillardia theta.
- Author
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Cheregi, Otilia, Kotabová, Eva, Prášil, Ondřej, Schröder, Wolfgang P., Kaňa, Radek, and Funk, Christiane
- Subjects
- *
CRYPTOMONADS , *PHOTOSYNTHESIS , *ALGAL growth , *PHOTOSYSTEMS , *PHYSIOLOGICAL effects of blue light , *CHLOROPHYLL , *EFFECT of light on algae , *ALGAE - Abstract
Plants and algae have developed various regulatory mechanisms for optimal delivery of excitation energy to the photosystems even during fluctuating light conditions; these include state transitions as well as non-photochemical quenching. The former process maintains the balance by redistributing antennae excitation between the photosystems, meanwhile the latter by dissipating excessive excitation inside the antennae. In the present study, these mechanisms have been analysed in the cryptophyte alga Guillardia theta. Photoprotective non-photochemical quenching was observed in cultures only after they had entered the stationary growth phase. These cells displayed a diminished overall photosynthetic efficiency, measured as CO2 assimilation rate and electron transport rate. However, in the logarithmic growth phase G. theta cells redistributed excitation energy via a mechanism similar to state transitions. These state transitions were triggered by blue light absorbed by the membrane integrated chlorophyll a/c antennae, and green light absorbed by the lumenal biliproteins was ineffective. It is proposed that state transitions in G. theta are induced by small re-arrangements of the intrinsic antennae proteins, resulting in their coupling/uncoupling to the photosystems in state 1 or state 2, respectively. G. theta therefore represents a chromalveolate algae able to perform state transitions. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
43. Effect of specific light supply rate on photosynthetic efficiency of Nannochloropsis salina in a continuous flat plate photobioreactor.
- Author
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Sforza, Eleonora, Calvaruso, Claudio, Meneghesso, Andrea, Morosinotto, Tomas, and Bertucco, Alberto
- Subjects
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PHOTOSYNTHESIS , *PHOTOBIOREACTORS , *BIOMASS production , *EFFECT of light on algae , *ALGAE photoinhibition , *MICROALGAE , *BIOENERGETICS - Abstract
In this work, Nannochloropsis salina was cultivated in a continuous-flow flat-plate photobioreactor, working at different residence times and irradiations to study the effect of the specific light supply rate on biomass productivity and photosynthetic efficiency. Changes in residence times lead to different steady-state cell concentrations and specific growth rates. We observed that cultures at steady concentration were exposed to different values of light intensity per cell. This specific light supply rate was shown to affect the photosynthetic status of the cells, monitored by fluorescence measurements. High specific light supply rate can lead to saturation and photoinhibition phenomena if the biomass concentration is not optimized for the selected operating conditions. Energy balances were applied to quantify the biomass growth yield and maintenance requirements in N. salina cells. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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44. Bloom-Forming Microalgae in High-Species Phytoplankton Assemblages Under Light-Fluctuating and Low Phosphate Conditions.
- Author
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Fernández-Rodríguez, M., Hidalgo-Lara, C., Jiménez-Rodríguez, A., and Serrano, L.
- Subjects
MICROALGAE ,EFFECT of light on algae ,ALGAL blooms ,PHYTOPLANKTON ,PHOSPHATES analysis ,ENVIRONMENTAL impact analysis ,WETLANDS - Abstract
Wide changes of key environmental conditions prevented competitive exclusion in the phytoplankton assemblage of a turbid shallow wetland complex artificially managed for aquaculture production (Doñana Natural Park, SW Spain), and some genera showed specific adaptations to exploit those changes. The seasonal pattern of light, temperature and conductivity was frequently overridden by irregular events of sediment resuspension. Consequently, these shallow aquaculture ponds exhibited wide fluctuations of underwater light climate with clear-water, inorganic-turbid and phytoplankton-turbid phases that accommodated a variety of primary producers, such as submerged macrophytes, a soft-mud bottom phytobenthos and a phytoplankton assemblage of 72 recorded taxa. The algal biomass in the benthos was about 10 times higher than that found in the plankton (as estimated by chlorophyll a concentration) though the phytoplankton bloomed (>10 cell ml) on 10 occasions with four microalgae: Isochrysis sp. (Haptophyta), Diacronema sp. (Haptophyta), Nannochloris sp. (Chlorophyta) and Nephroselmis pyriformis (Chlorophyta). Several environmental conditions influenced microalgae both concurrently and in anticipation (with a time lag of 8-18 days), and this influence was different for both haptophytes with regard to Nannochloris sp. which significantly thrived when the water conductivity was above 12 mS cm (about 6.85 psu of salinity) and the water dissolved inorganic phosphate (DIP) concentration was >0.40 μM. In contrast, the density of Isochrysis sp. was significantly higher at a water DIP concentration <0.40 μM, while the density of Diacronema sp. was higher when the pore water DIP concentration was above 4 μg g d.w., suggesting that each microalgae bloomed at different conditions of P availability. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
45. Light limitation helps stabilize the phytoplankton assemblage steady-state in a temperate and highly turbid, hypertrophic shallow lake (Laguna Chascomús, Argentina).
- Author
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Iachetti, Clara and Llames, María
- Subjects
- *
PHYTOPLANKTON populations , *EFFECT of light on cyanobacteria , *EFFECT of light on algae , *TURBIDITY , *LAKES - Abstract
We performed a 30-month field study in a highly turbid, hypertrophic shallow lake from the Pampa Plain (Argentina) in order to investigate the occurrence of steady-state phases of phytoplankton, with an emphasis on the effect of subtle, but measurable, increase in light availability. The results revealed that a steady-state condition prevailed during the first 14 months, during which Aphanocapsa cf. delicatissima represented, on average, 91% of the total phytoplankton biomass. The statistical analyses provide support for the hypothesis that low light availability in the water column regulates the structure of the algal assemblage in this lake. Our results agree with predictions of the light-limited growth theory (i.e. the observed increase in light supply promoted an increase in algal density) and are also consistent with the notion that environmental constraints influence the dominant morphological traits in phytoplankton assemblages, particularly, that small organisms and/or attenuated forms are favoured under very poor light conditions. Nevertheless, further work is needed to get a full understanding of the processes controlling phytoplankton dynamics in this lake, including careful studies of the ecophysiology of the colonies comprising pico-sized cells of Aphanocapsa cf. delicatissima that dominated the assemblage during all the studied period. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
46. Photoacclimation of Caulerpa cylindracea: Light as a limiting factor in the invasion of native Mediterranean seagrass meadows.
- Author
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Bernardeau-Esteller, Jaime, Ruiz, Juan Manuel, Tomas, Fiona, Sandoval-Gil, José Miguel, and Marín-Guirao, Lazaro
- Subjects
- *
ACCLIMATIZATION , *EFFECT of light on algae , *INTRODUCED species , *PLANT canopies , *COLONIZATION (Ecology) , *CAULERPA , *SEAGRASSES - Abstract
Reduction in light availability caused by the canopy of the Mediterranean seagrass Posidonia oceanica has been suggested as a critical mechanism to resist the invasion of the exotic macroalga Caulerpa cylindracea . We experimentally evaluated the role of light as a limiting factor on the capacity of colonization and spread of this invasive seaweed in P. oceanica meadows by assessing photoacclimation responses and productivity and growth capacity of C. cylindracea in mesocosm and in situ light manipulation experiments. Despite the high photoacclimative plasticity developed by the alga, the light regime within the seagrass meadow during the study period was close to the minimum light requirements for growth, restricting the development capacity of this species. In addition, while increases in light availability resulting from canopy alteration also enhanced the productive capacity of the invasive seaweed in the field, such increase was not followed by gains in biomass production. Our results thus support the hypothesis that light availability has a major role in the underlying resistance of seagrass meadows to the invasion by C. cylindracea , but also indicate that there are additional factors related to the canopy of P. oceanica that further hinder the growth and colonization capacity of the alga. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
47. Temperature and light interactively modulate gene expression in Saccharina latissima (Phaeophyceae).
- Author
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Heinrich, Sandra, Valentin, Klaus, Frickenhaus, Stephan, Wiencke, Christian, and Cock, M.
- Subjects
- *
EFFECT of temperature on algae , *EFFECT of light on algae , *GENE expression , *BROWN algae , *COASTAL ecology , *EFFECT of ultraviolet radiation on algae , *PHOTOSYNTHESIS , *ALGAE - Abstract
Macroalgae of the order Laminariales (kelp) are important components of cold-temperate coastal ecosystems. Major factors influencing their distribution are light (including UV radiation) and temperature. Therefore, future global environmental changes potentially will impact their zonation, distribution patterns, and primary productivity. Many physiological studies were performed on UV radiation and temperature stress in kelp but combinatory effects have not been analyzed and so far no study is available on the molecular processes involved in acclimation to these stresses. Therefore, sporophytes of Saccharina latissima were exposed for 2 weeks to 12 combinations of photosynthetically active radiation ( PAR), UV radiation and temperature. Subsequently, microarray hybridizations were performed to determine changes in gene expression patterns. Several effects on the transcriptome were observed after exposure experiments. The strongest effect of temperature on gene expression was observed at 2°C. Furthermore, UV radiation had stronger effects on gene expression than high PAR, and caused stronger induction genes correlated with categories such as photosynthetic components and vitamin B6 biosynthesis. Higher temperatures ameliorated the negative effects of UV radiation in S. latissima. Regulation of reactive oxygen species ( ROS) scavenging seems to work in a compartment specific way. Gene expression profiles of ROS scavengers indicated a high amount of oxidative stress in response to the 2°C condition as well as to excessive light at 12°C. Interestingly, stress levels that did not lead to physiological alterations already caused by a transcriptomic response. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
48. Combined effect of high light and high salinity on the regulation of photosynthesis in three diatom species belonging to the main growth forms of intertidal flat inhabiting microphytobenthos.
- Author
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Juneau, Philippe, Barnett, Alexandre, Méléder, Vona, Dupuy, Christine, and Lavaud, Johann
- Subjects
- *
REGULATION of photosynthesis , *EFFECT of light on algae , *DIATOMS , *SALINITY , *INTERTIDAL ecology , *BENTHOS , *BIOLOGICAL productivity - Abstract
The strong biological production of estuarine intertidal flats is mainly supported by benthic diatoms in temperate areas. Their photosynthetic productivity is largely driven by changes in light intensity and temperature at the surface of sediment flats during emersion. The impact of an increase in salinity of the upper-layer sediment pore-water during emersion, which is often coupled with high light (HL), has been less studied. Furthermore, benthic diatoms show several growth forms which inhabit specific sediment types where the pore-water salinity can differentially vary due to the degree of cohesion of sediment grains. So far, no study explored if the main growth forms of benthic diatoms (i.e. epipelon, epipsammon and tychoplankton) show different photophysiological response to a combine high salinity-HL stress. Based on field monitoring, we compared the photophysiology (photosynthetic efficiency and photoprotection) of three representatives of the main growth forms during a short high salinity coupled with a moderate HL stress and stable optimal temperature, i.e. experimental conditions reproducing Spring environmental conditions in intertidal flats by the Atlantic French coast. Our results show that all growth forms reacted to HL exposure alone, as expected. While the epipelon representative was relatively insensitive to high salinity alone and combined with HL, the tychoplankton representative was highly sensitive to both, and the epipsammon representative was sensitive mainly to the stress combination. These specific responses fitted well with i) their natural habitat (i.e. more or less cohesive sediment) for which light climate and changes in salinity are different, ii) their growth form (i.e. motile, immotile or amphibious) which determines their probability to be confronted to a combined high salinity-HL stress. Hence, the negative effect of high salinity on photosynthetic efficiency of benthic diatoms appears to be mostly restricted to epipsammon and tychoplankton, and in field conditions, its effect probably remains negligible compared to HL stress. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
49. Growth form defines physiological photoprotective capacity in intertidal benthic diatoms.
- Author
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Barnett, Alexandre, Méléder, Vona, Blommaert, Lander, Lepetit, Bernard, Gaudin, Pierre, Vyverman, Wim, Sabbe, Koen, Dupuy, Christine, and Lavaud, Johann
- Subjects
- *
COMPARATIVE studies , *INTERTIDAL ecology , *BENTHIC zone , *DIATOMS , *MARINE sediments , *EFFECT of light on algae - Abstract
In intertidal marine sediments, characterized by rapidly fluctuating and often extreme light conditions, primary production is frequently dominated by diatoms. We performed a comparative analysis of photophysiological traits in 15 marine benthic diatom species belonging to the four major morphological growth forms (epipelon (EPL), motile epipsammon (EPM-M) and non-motile epipsammon (EPM-NM) and tychoplankton (TYCHO)) found in these sediments. Our analyses revealed a clear relationship between growth form and photoprotective capacity, and identified fast regulatory physiological photoprotective traits (that is, non-photochemical quenching (NPQ) and the xanthophyll cycle (XC)) as key traits defining the functional light response of these diatoms. EPM-NM and motile EPL showed the highest and lowest NPQ, respectively, with EPM-M showing intermediate values. Like EPL, TYCHO had low NPQ, irrespective of whether they were grown in benthic or planktonic conditions, reflecting an adaptation to a low light environment. Our results thus provide the first experimental evidence for the existence of a trade-off between behavioural (motility) and physiological photoprotective mechanisms (NPQ and the XC) in the four major intertidal benthic diatoms growth forms using unialgal cultures. Remarkably, although motility is restricted to the raphid pennate diatom clade, raphid pennate species, which have adopted a non-motile epipsammic or a tychoplanktonic life style, display the physiological photoprotective response typical of these growth forms. This observation underscores the importance of growth form and not phylogenetic relatedness as the prime determinant shaping the physiological photoprotective capacity of benthic diatoms. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
50. Comparison of the photosynthetic characteristics of two Isochrysis galbana strains under high light.
- Author
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Zhang, Litao, Li, Ling, and Liu, Jianguo
- Subjects
- *
EFFECT of light on algae , *PHOTOSYNTHESIS , *PRYMNESIOPHYCEAE , *MARINE algae , *MICROALGAE , *COMPARATIVE studies - Abstract
The photoprotection mechanisms in the marine microalga Isochrysis galbana were examined by comparing the photosynthetic characteristics in two I. galbana strains IOAC724S and IOAC683S under high light. The rDNA ITS regions of IOAC724S and IOAC683S were closely clustered in the Neighbor-Joining tree, suggesting that the two strains are very similar to each other genetically. Regulated energy dissipation in photosystem (PS) II (NPQ) and cyclic electron flow with PSI (CEF-I) can protect the photosynthetic apparatus against photodamage. There were no significant differences in NPQ and CEF-I between IOAC724S and IOAC683S under high light. In both strains, NPQ was very low, and CEF-I was maintained at a high level. This suggested that NPQ was not strong enough to dissipate the excess excitation energy, and CEF-I might protect the photosynthetic apparatus against photodamage in I. galbana. Photosynthetic linear electron flow was lower, but the alternative electron flow within PSII (AEF-II) was significantly higher in IOAC724S than in IOAC683S. The higher AEF-II in IOAC724S efficiently removed excess excitation energy, thereby, protecting the photosynthetic apparatus, as indicated by the lower value of quantum yield of the nonregulated energy dissipation of PSII and the lower content of hydrogen peroxide in IOAC724S. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
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