Effects of irradiance, temperature, nutrients, and pCO2 on the growth and biochemical composition of cultivated Ulva fenestrata

Toth, Gunilla B.; Harrysson, Hanna; Wahlström, Niklas; Olsson, Joakim; Oerbekke, Annelous; Steinhagen, Sophie; Kinnby, Alexandra; White, Joel C. B.; Albers, Eva; Edlund, Ulrica; Undeland, Ingrid; Pavia, Henrik

doi:10.1007/s10811-020-02155-8

Cited by 60 publications

(52 citation statements)

References 65 publications

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“…Conversely, Gao, Clare, Chatzidimitriou, Rose, and Caldwell (2018) found that lipid (and protein) content increased at elevated nutrient levels. In line with these findings, U. fenestrata produced in defined tank cultivation increased the fatty acid and protein contents at high nitrate concentration and at low illumination (Toth et al, 2020). Reports also show positive effects of increased temperature (20-25°C) on lipid and protein contents, as well as lowered ash content for Ulva spp.…”

Section: Discussionsupporting

confidence: 75%

Effects of geographical location on potentially valuable components in Ulva intestinalis sampled along the Swedish coast

et al. 2020

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Macroalgal biomass has the potential to become an important source of chemicals and commodities in a future biorefinery. Currently, production of macroalgal biomass is expensive and the content of high-value compounds is often low. Therefore, in this study the biochemical composition of Ulva intestinalis along the Swedish west coast and the east coast up to Stockholm was assessed with the aim of determining how the content of potentially valuable compounds, such as rhamnose, iduronic acid and PUFAs, could be maximized by utilizing natural variation in the choice of marine cultivation site. Along the investigated coastline, the salinity dropped from 19.4‰ at high latitudes along the west coast to 5.4‰ at Stockholm. Nitrogen and phosphorus availability varied, while temperature was similar at all locations. The two major components of biomass, carbohydrates and ash, varied inversely with the highest content of ash in the west and carbohydrates in the east. In addition, total fatty acids were significantly higher in west coast samples at 3.2 g 100 g-1 dw, with a higher proportion of mono-and polyunsaturated fatty acids. Some healthbeneficial fatty acids were found, including EPA and DPA, at 10-50 mg 100 g-1 dw, respectively. The metal content and elemental composition varied widely, probably due to the influence of specific local conditions. The P content was correlated with the phosphorus concentration in waters at the locations. In PCA analysis, the monosaccharides constituting the cell wall polysaccharide ulvan were found to vary by geographical location, with higher levels possibly associated with lower salinities. However, only glucuronic acid differed significantly between sites. These results show the considerable geographical variability in the composition of Swedish U. intestinalis and suggest that different salinities could be used to create a lipid-or carbohydrate-rich biomass.

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Section: Discussionsupporting

confidence: 75%

Effects of geographical location on potentially valuable components in Ulva intestinalis sampled along the Swedish coast

et al. 2020

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“…For cultured or bioreactor-grown algae, changing the medium composition is a straightforward way to improve protein content. For instance, the increase of nitrogen, phosphate, and CO 2 seems enhance protein accumulation in algae (Kumari et al, 2014;Tossavainen et al, 2019;Toth et al, 2020). As an example, Tossavainen et al (2019) concluded that, in high-nitrate medium (0.5 g/L of ammonium sulfate), protein content of Euglena gracilis varied between 17.51 and 18.56% of dry weight, while under lower concentrations or absence of nitrogen (0.2 g and 0.0 g/L of ammonium sulfate, respectively), algal proteins in biomass ranged between 10.99 and 12.09% of dry weight.…”

Section: Strategies To Enhance Protein Contentmentioning

confidence: 99%

“…Given the worldwide guidelines pointing towards more sustainable and "greener" processes based on circular economy and zero-waste concepts, it is possible, for instance, to improve biomass and metabolites' productivity while treating industrial wastewater streams or taking advantage of the great organic load of agro-industrial by-products to supress the nutritional needs of algae (Kazir et al, 2019). In the particular case of algal proteins, it is known that the growth using nitrogen-or phosphorus-rich substrates might trigger their overproduction, enabling the potential application of the aforementioned underrated streams as means of increasing algae's protein content (Kumari et al, 2014;Tossavainen et al, 2019;Toth et al, 2020).…”

Section: Environmental Impact and Economic Prospects Of Algae Proteinsmentioning

confidence: 99%

“…Several strategies might play an important role on leveraging a broader commercialization of algal products. From a technical point of view, the development of innovative PBR designs envisaging the optimization of mass transfer properties and the retention of CO 2 in algal cultures, might improve its uptake leading to higher protein content, since CO 2 -rich environments seem to favour protein production by algae (Toth et al, 2020). However, attention must be paid to the prevalence of CO 2 in the medium for large periods of time once it can be responsible for unwanted acidification of the culture and jeopardize the whole growth process.…”

Section: Future Challengesmentioning

confidence: 99%

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Algal proteins: Production strategies and nutritional and functional properties

Geada

Moreira

Silva

et al. 2021

Bioresource Technology

145

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“…However, for the full exploitation of this technique, there is a need to develop cultivation methods from a multidisciplinary perspective. Preliminary cultivation studies can allow the control and understanding of the impact of extrinsic and intrinsic factors, in order to obtain a specific yield and quality of a certain seaweed compound, with a high rate of success, without putting pressure in the wild seaweed community while also reducing production costs [ 1 , 97 , 115 , 127 , 128 , 129 , 130 , 131 , 132 , 133 , 134 , 135 , 136 , 137 , 138 , 139 , 140 , 141 , 142 , 143 , 144 , 145 ].…”

Section: Drivers To the Production Of Phenolic Compounds And Their Impact On Bioactivitymentioning

confidence: 99%

Environmental Impact on Seaweed Phenolic Production and Activity: An Important Step for Compound Exploitation

et al. 2021

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Seaweeds are a potential source of bioactive compounds that are useful for biotechnological applications and can be employed in different industrial areas in order to replace synthetic compounds with components of natural origin. Diverse studies demonstrate that there is a solid ground for the exploitation of seaweed bioactive compounds in order to prevent illness and to ensure a better and healthier lifestyle. Among the bioactive algal molecules, phenolic compounds are produced as secondary metabolites with beneficial effects on plants, and also on human beings and animals, due to their inherent bioactive properties, which exert antioxidant, antiviral, and antimicrobial activities. The use of phenolic compounds in pharmaceutical, nutraceutical, cosmetics, and food industries may provide outcomes that could enhance human health. Through the production of healthy foods and natural drugs, bioactive compounds from seaweeds can help with the treatment of human diseases. This review aims to highlight the importance of phenolic compounds from seaweeds, the scope of their production in nature and the impact that these compounds can have on human and animal health through nutraceutical and pharmaceutical products.

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Effects of irradiance, temperature, nutrients, and pCO2 on the growth and biochemical composition of cultivated Ulva fenestrata

Cited by 60 publications

References 65 publications

Effects of geographical location on potentially valuable components in Ulva intestinalis sampled along the Swedish coast

Effects of geographical location on potentially valuable components in Ulva intestinalis sampled along the Swedish coast

Algal proteins: Production strategies and nutritional and functional properties

Environmental Impact on Seaweed Phenolic Production and Activity: An Important Step for Compound Exploitation

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