Myo-inositol promotes lipid production and nutrients removal by microalga under molasses wastewater

Qiao, Tengsheng; Zhao, Yongteng; Han, Benyong; Li, Tao; Zhao, Peng; Xu, Junwei; Huang, Li; Yu, Xuya

doi:10.1016/j.renene.2021.03.051

Cited by 25 publications

(6 citation statements)

References 48 publications

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“…Compared to the standard nitrogen concentration, the proportion of C14:0 decreased markedly whereas C15:1 and C16:1 was significantly increased at the concentration of 117.65 mM, which contributed to a higher DU value. The high DU value represented that the biofuel was more difficult to form deposits and had better lubricity (Qiao et al, 2021). The maximum and minimum values of DU and CN should be 137 and 51, respectively (EN14214).…”

Section: Discussionmentioning

confidence: 99%

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

et al. 2022

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Microalgae are considered promising resources for producing a variety of high-value-added products, especially for lipids and pigments. Alkalophilic microalgae have more advantages than other microalgae when cultured outdoors on a large scale. The present study investigated the comprehensive effects of different nitrogen concentrations on fucoxanthin (Fx), lipids accumulation and the fatty acid profile of the alkaliphilic microalgae Nitzschia sp. NW129 to evaluate the potential for simultaneous production of Fx and biofuels. Fx and Lipids amassed in a coordinated growth-dependent manner in response to various concentrations, reaching 18.18 mg g–1 and 40.67% dry weight (DW), respectively. The biomass of Nitzschia sp. NW129 was 0.58 ± 0.02 g L–1 in the medium at the concentration of 117.65 mM. The highest productivities of Fx (1.44 mg L–1 d–1) and lipid (19.95 ± 1.29 mg L–1 d–1) were obtained concurrently at this concentration. Furthermore, the fatty acid methyl esters revealed excellent biofuel properties with an appropriate value of the degree unsaturation (49.97), cetane number (62.72), and cold filter plugging point (2.37), which met the European standards for biofuel production (EN14214). These results provided a reliable strategy for further industrialization and comprehensive production of biofuel and Fx by using the alkaliphilic microalgal Nitzschia sp. NW129.

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Section: Discussionmentioning

confidence: 99%

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

et al. 2022

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“…It shows that the concentration of nutrients such as nitrogen and phosphorus in wastewater was found to be higher than that in clean water. , As is well known, the majority of nitrogen is typically in the form of ammonia, which inhibits the growth of microalgae at high concentrations. , In this way, the presence of toxic substances in wastewater, such as mercury, cadmium, or organic chemicals, can significantly inhibit microalgal growth . Furthermore, it was discovered in another study that certain stress conditions generate high concentrations of harmful reactive oxygen species (ROS) in wastewater . Data from various studies support the damaging power of ROS in cultivated microalgae, which causes changes in lipid and biomass production when they react with their biomacromolecules. , Qiao et al proposed the idea that the direct cultivation of microalgae in wastewater for rapid biomass accumulation and efficient biodiesel production is impossible because of the complex internal conditions of wastewater.…”

Section: Introductionmentioning

confidence: 89%

“…Furthermore, it was discovered in another study that certain stress conditions generate high concentrations of harmful reactive oxygen species (ROS) in wastewater . Data from various studies support the damaging power of ROS in cultivated microalgae, which causes changes in lipid and biomass production when they react with their biomacromolecules. , Qiao et al proposed the idea that the direct cultivation of microalgae in wastewater for rapid biomass accumulation and efficient biodiesel production is impossible because of the complex internal conditions of wastewater. As a result, novel approaches are required for both the efficient utilization of wastewater and the production of biodiesel.…”

Section: Introductionmentioning

confidence: 99%

“…28,30 Few studies have been conducted on the combination of plant growth regulators and wastewaters for microalgal metabolite biosynthesis and nutrient removal. 23 The use of 5-ALA as a promoter of efficient algal biomass accumulation, lipid production, and nutrient removal from wastewater is investigated in this study. This is the first investigation into 5-ALA's functions in the regulation of lipid production and nutrient removal in microalgae from wastewater.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Few studies have been conducted on the combination of plant growth regulators and wastewaters for microalgal metabolite biosynthesis and nutrient removal . The use of 5-ALA as a promoter of efficient algal biomass accumulation, lipid production, and nutrient removal from wastewater is investigated in this study.…”

Section: Introductionmentioning

confidence: 99%

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Simultaneous Promotion of Microalgal CO₂ Assimilation, Biomass Accumulation, Lipid Production, and Wastewater Nutrient Removal by Adding 5-Aminolevulinic Acid

Qiu

Cui

et al. 2022

ACS Sustainable Chem. Eng.

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Microalgae-based wastewater management has the potential to serve dual purposes, including biofuel production and wastewater bioremediation. The current study investigates the role of 5-aminolevulinic acid (5-ALA) in the regulation of photosynthesis, biomass accumulation, lipid production, and nutrient removal from wastewater by Chlorella pyrenoidosa. In wastewaters, a 3 μM concentration of 5-ALA was considered optimal, as it increased the photosynthetic light reaction and CO2 assimilation of C. pyrenoidosa cells, thereby facilitating cellular growth, metabolism, and biomass accumulation. The acceleration of algal cellular metabolism increased the substrate pool and enhanced the expression of lipogenic genes, thereby promoting lipid production. Meanwhile, the removal of nutrients from wastewater was accelerated after the addition of 5-ALA. The accelerated nutrient removal from wastewaters following 5-ALA treatment was related to C. pyrenoidosa cell growth. C. pyrenoidosa is capable of utilizing nitrogen and phosphorus from wastewater and accumulating biomass. The biomass from microalgae can be used as a feedstock to produce biofuels. Therefore, the current study provided a novel strategy for simultaneously promoting CO2 assimilation, biomass accumulation, lipid production, and wastewater nutrient removal with microalgae. It is possible to use microalgae for the management of wastewater if research and development on commercializing technologies based on microalgae, both upstream and downstream, are carried out continuously.

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Valorization of Monoraphidium sp. microalgal biomass for human nutrition applications

Georgiou,

Exarhopoulos,

Charisis

et al. 2024

J Appl Phycol

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The green microalga Monoraphidium sp. has potential for biodiesel production since it grows fast and can accumulate high levels of lipids. However, there is a lack of information on the potential use in human nutrition. In this work Monoraphidium sp. was characterized in terms of macronutrients with a special focus on the fatty acid profile of the lipid fraction and on the amino acid profile of the proteins. Furthermore, aiming at nutrient valorization, various methods for lipid extraction that could be used in the production of high quality and safe foods were investigated. To this end, the focus was on cell disruption methods in order to optimize oil recovery. The Monoraphidium sp. biomass had a high protein concentration (44.5 %) and a relatively low lipid concentration (12.5 %) but was rich in ω-3 fatty acids demonstrating its high nutritive value. Regarding cell disruption, ultrasonication and high-speed homogenization were insufficient to disrupt cells under the conditions examined. On the other hand, the effectiveness of the ball milling was regulated via processing time and water-to-biomass ratio and complete cell disruption could be achieved by this method. For lipid extraction, solvent extraction using a mixture of food-grade hexane and ethanol resulted in an oil recovery of 70.4 %, whereas using ethanol alone as an environmentally friendly solvent resulted in an oil recovery equal to 54 %. Supercritical CO2 extraction resulted in a lower oil recovery (25 %), whereas ethanol addition, as a cosolvent to CO2, significantly increased the oil recovery (60 %).

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Myo-inositol promotes lipid production and nutrients removal by microalga under molasses wastewater

Cited by 25 publications

References 48 publications

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

Simultaneous Promotion of Microalgal CO₂ Assimilation, Biomass Accumulation, Lipid Production, and Wastewater Nutrient Removal by Adding 5-Aminolevulinic Acid

Valorization of Monoraphidium sp. microalgal biomass for human nutrition applications

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Myo-inositol promotes lipid production and nutrients removal by microalga under molasses wastewater

Cited by 25 publications

References 48 publications

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

Simultaneous Promotion of Microalgal CO2 Assimilation, Biomass Accumulation, Lipid Production, and Wastewater Nutrient Removal by Adding 5-Aminolevulinic Acid

Valorization of Monoraphidium sp. microalgal biomass for human nutrition applications

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Product

Resources

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Simultaneous Promotion of Microalgal CO₂ Assimilation, Biomass Accumulation, Lipid Production, and Wastewater Nutrient Removal by Adding 5-Aminolevulinic Acid