Nutrients from anaerobic digestion effluents for cultivation of the microalga Nannochloropsis sp. — Impact on growth, biochemical composition and the potential for cost and environmental impact savings

Mayers, Joshua J.; Nilsson, Anna; Albers, Eva; Flynn, Kevin J.

doi:10.1016/j.algal.2017.08.007

Cited by 35 publications

(19 citation statements)

References 73 publications

(116 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Liquid digestate from methane fermentation of maize silage can be used as a substitute growth medium for A. protothcoides. In the study conducted by Mayers et al [20], effluents of anaerobically digested food waste were estimated as a potential nitrogen and a phosphorus source. The results of the studies demonstrate that a suitable dilution of this effluent could meet the nitrogen demands and, partially, the phosphorus demands of Nannochloropsis sp.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Liquid Anaerobic Digestate as a Source of Nutrients for Lipid and Fatty Acid Accumulation by Auxenochlorella Protothecoides

2019

View full text Add to dashboard Cite

In recent years, there has been growing interest in the biomass of unicellular algae as a source of valuable metabolites. The main limitations in the commercial application of microbial biomass are associated with the costs of production thereof. Maize silage is one of the main substrates used in biogas plants in Europe. The effects of sterilized agricultural liquid digestate (LD) from methane fermentation of maize silage on the growth rates, macro and micronutrient removal efficiency, lipid content, and fatty acid profile in Auxenochlorella protothecoides were investigated. The results indicate that A. prothecoides can proliferate and accumulate lipids with simultaneous reduction of nutrients in the 1:20 diluted liquid digestate. The rate of nitrogen and phosphorus removal from the liquid digestate was 79.45% and 78.4%, respectively. Cells growing in diluted liquid digestate exhibited the maximum lipid content, i.e., 44.65%. The fatty acid profile of A. prothecoides shows a decrease in the content of linolenic acid by 20.87% and an increase in oleic acid by 32.16% in the LD, compared with the control. The liquid digestate changed the content of monounsaturated fatty acids and polyunsaturated fatty acids. The cells of A. protothecoides growing in the liquid digestate were characterized by lower PUFA content and higher MUFA levels.

show abstract

Section: Discussionmentioning

confidence: 99%

“…Nitrogen can account for 10% or more of the dry weight of algae, depending on the species and N availability for microalgal cells. Its availability is an important determinant of the lipid accumulation process in cells [20]. Liquid digestate fractions are primarily a source of inorganic N (mainly NH 4 ) and P-PO 4 [20].…”

Section: Discussionmentioning

confidence: 99%

Liquid Anaerobic Digestate as a Source of Nutrients for Lipid and Fatty Acid Accumulation by Auxenochlorella Protothecoides

2019

View full text Add to dashboard Cite

show abstract

“…Nannochloropsis sp. (CCAP211/78) was cultivated according the methods used for strain maintenance and flask cultivation detailed in Mayers et al (45). Cultures were allowed to deplete media nitrogen for the purposes of this analysis to generate cells with higher lipid content.…”

Section: Cell Culturementioning

confidence: 99%

“…Although lipid droplets in microalgae are to date not well understood (54), it has been found that the cellular lipid storages in Nannochloropsis increase, in size and number, under nitrogen depletion (55). It has also been shown that the same strain of microalgae grown under nitrogen starvation contains around 15.0±1.3% saturated fatty acids and 21.2±1.7 % unsaturated fatty acids (45). This results in an average chain length of 16.9 with 1.4 double bonds.…”

Section: In Situ Lipid Mappingmentioning

confidence: 99%

Quantitative mapping of triacylglycerol chain length and saturation using broadband CARS microscopy

Paul

Wang

Brännmark

et al. 2018

Preprint

View full text Add to dashboard Cite

Lipid droplets (LDs) are highly dynamic organelles that store neutral lipids, primarily triacylglycerols (TAGs), and are found in many cell types. While their primary function is to store excess energy, LDs are also modified in different disease states and during developmental processes. In many cases, not only the presence, but also the composition, of LDs can be equally important. In humans, LD composition has been linked to diseases such as type 2 diabetes; in plants and yeast, LD composition is relevant for engineering these organisms into biological factories in, e.g., algal bioenergy or food oil production.Therefore, lipid analysis of biological LDs with high speed and accuracy in situ is a very active area of research. Here we present an approach for in situ, quantitative TAG analysis using label-free, coherent Raman microscopy to decipher LD TAG composition in different biochemically complex samples. Our method allows direct visualization of inter-LD compositional heterogeneity of physiological quantities -TAG chain length and number of C=C bondswith sub-micrometer spatial resolution within 5-100 milliseconds. Combined with virtually no sample preparation, this approach should enable rapid and accurate TAG LD analysis for a variety of applications.

show abstract

“…Therefore, this work reports on a pilot scale waste based biorefinery approach, utilising formulated digested agricultural streams as growth media, suitable for mass cultivation of industrially significant microorganisms, associated with chemicals and fuels production. Within this concept and to test its usefulness, two well known [20,21] autotrophic microalgae namely Nannochloropsis oceanica and Scenedesmus quadricuada were grown on treated digested agricultural wastewater of specific N:P ratio on a 800 L photobioreactor (PBR). The effluents were physico-chemically characterised and treated through membrane filtration to produce a balanced composition of nitrogen and phosphate effluent suitable for autotrophic algal cultivation.…”

Section: Introductionmentioning

confidence: 99%

Testing the Waste Based Biorefinery Concept: Pilot Scale Cultivation of Microalgal Species on Spent Anaerobic Digestate Fluids

Silkina

Zacharof

Ginnever

et al. 2019

Waste Biomass Valor

View full text Add to dashboard Cite

Purpose: A waste based algal biorefinery approach has been tested. Methods: This has been investigated by culturing in a 800L photobioreactor two autotrophic microalgae namely Nannochloropsis oceanica and Scenedesmus quadricauda utilising filtered spent anaerobic digestate fluids of N:P ration 14.22 as substrate. Results: Significant rates of bioremediation simultaneously with biomass and associated end product formation were achieved. Nitrogen and phosphorus of waste based media was decreased up to 90%. The biomass biochemical analysis of the microalgae when grown on the waste based formulated media demonstrated the comparable content of lipids and proteins with the species grown on f/2 media. Conclusions: Theoretical biomethane potential generation, should the algal cultures be placed in an anaerobic digester, was calculated at 0.58 L CH4 g-1 VS for N. oceanica and 0.48 L CH4 g-1 VS for S. quadricauda showing comparable results with other studies of different source of biomass.

show abstract

Nutrients from anaerobic digestion effluents for cultivation of the microalga Nannochloropsis sp. — Impact on growth, biochemical composition and the potential for cost and environmental impact savings

Cited by 35 publications

References 73 publications

Liquid Anaerobic Digestate as a Source of Nutrients for Lipid and Fatty Acid Accumulation by Auxenochlorella Protothecoides

Liquid Anaerobic Digestate as a Source of Nutrients for Lipid and Fatty Acid Accumulation by Auxenochlorella Protothecoides

Quantitative mapping of triacylglycerol chain length and saturation using broadband CARS microscopy

Testing the Waste Based Biorefinery Concept: Pilot Scale Cultivation of Microalgal Species on Spent Anaerobic Digestate Fluids

Contact Info

Product

Resources

About