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• W2790454016 abstract "Industrial BiotechnologyVol. 14, No. 1 CommentaryAutotrophic Microalgae Biomass Production: From Niche Markets to CommoditiesJohn R. Benemann, Ian Woertz, and Tryg LundquistJohn R. BenemannMicroBio Engineering Inc., San Luis Obispo, CASearch for more papers by this author, Ian WoertzMicroBio Engineering Inc., San Luis Obispo, CASearch for more papers by this author, and Tryg LundquistMicroBio Engineering Inc., San Luis Obispo, CACalifornia Polytechnic State University, San Luis Obispo, CASearch for more papers by this authorPublished Online:1 Feb 2018https://doi.org/10.1089/ind.2018.29118.jrbAboutSectionsView articleView Full TextPDF/EPUB Permissions & CitationsPermissionsDownload CitationsTrack CitationsAdd to favorites Back To Publication ShareShare onFacebookTwitterLinked InRedditEmail View articleFiguresReferencesRelatedDetailsCited byA newly isolated alkaliphilic cyanobacterium for biomass production with direct air CO2 captureJournal of CO2 Utilization, Vol. 69Advancements in Microalgal Biorefinery Technologies and Their Economic Analysis and Positioning in Energy Resource Market21 February 2023 | Fermentation, Vol. 9, No. 3Two-stage cultivation of Spirulina sp. LEB 18: a strategy to increase biomass productivity and synthesis of macromolecules20 February 2023 | Brazilian Journal of Chemical Engineering, Vol. 11The marginal abatement cost of co-producing biomethane, food and biofertiliser in a circular economy systemRenewable and Sustainable Energy Reviews, Vol. 169Astaxanthin: A super antioxidant from microalgae and its therapeutic potential24 November 2021 | Journal of Basic Microbiology, Vol. 62, No. 9Minimum nitrogen cell quota for maximal growth rate in cycloturbidostat cultures of Picochlorum oklahomenseAlgal Research, Vol. 67Outdoor demonstration-scale flat plate photobioreactor for resource recovery with purple phototrophic bacteriaWater Research, Vol. 216A comparison between microalgal autotrophic growth and metabolite accumulation with heterotrophic, mixotrophic and photoheterotrophic cultivation modesRenewable and Sustainable Energy Reviews, Vol. 159Malaysian Virgin Soil Extracts as Natural Growth Enhancer for Targeted Green Microalgae Species17 April 2022 | Applied Sciences, Vol. 12, No. 8What Was Old Is New Again: The Pennate Diatom Haslea ostrearia (Gaillon) Simonsen in the Multi-Omic Age29 March 2022 | Marine Drugs, Vol. 20, No. 4Nannochloropsis oceanica harvested using electrocoagulation with alternative electrodes – An innovative approach on potential biomass applicationsBioresource Technology, Vol. 344Remediation of Pesticides by Microalgae as Feasible Approach in Agriculture: Bibliometric Strategies4 January 2022 | Agronomy, Vol. 12, No. 1Comparative life cycle assessment of a mesh ultra-thin layer photobioreactor and a tubular glass photobioreactor for the production of bioactive algae extractsBioresource Technology, Vol. 340Pilot-scale biorefining of Scenedesmus obliquus for the production of lipids and proteinsSeparation and Purification Technology, Vol. 270Microalgae proteins: production, separation, isolation, quantification, and application in food and feed28 May 2020 | Critical Reviews in Food Science and Nutrition, Vol. 61, No. 12Characterization of a novel strain of Tribonema minus demonstrating high biomass productivity in outdoor raceway pondsBioresource Technology, Vol. 331Microbes: Food for the Future28 April 2021 | Foods, Vol. 10, No. 5Cultivation of heterotrophic algae on paper waste material and digestateAlgal Research, Vol. 54Better management practices for environmentally sustainable production of microalgae and algal biofuelsJournal of Cleaner Production, Vol. 289Application of Microalgae Consortia/Cocultures in Wastewater Treatment8 July 2021Optimization of astaxanthin production processes from microalga HaematococcusNannochloropsis Oceanica Harvested Using Electrocoagulation with Alternative Electrodes – An Innovative Approach on Potential Biomass ApplicationsSSRN Electronic Journal, Vol. 41Biotechnological production of astaxanthin from the microalga Haematococcus pluvialisBiotechnology Advances, Vol. 43Exploring the sustainability and sealing mechanisms of unlined ponds for growing algae for fuel and other commodity-scale productsRenewable and Sustainable Energy Reviews, Vol. 121The effect of functional unit and co-product handling methods on life cycle assessment of an algal biorefineryAlgal Research, Vol. 46Bioremediation of water containing pesticides by microalgae: Mechanisms, methods, and prospects for future researchScience of The Total Environment, Vol. 707Nanotechnology and Abiotic Stresses13 May 2020Resource Recovery From Waste Streams Using Microalgae: Opportunities and ThreatsThe Future of Aquatic Protein: Implications for Protein Sources in Aquaculture DietsOne Earth, Vol. 1, No. 3Microalgae mixotrophic cultivation for β-galactosidase production16 January 2019 | Journal of Applied Phycology, Vol. 31, No. 3Soil sealing by algae: An alternative to plastic pond liners for outdoor algal cultivationAlgal Research, Vol. 38Recent Trends in Microalgae Research for Sustainable Energy Production and Biorefinery Applications1 May 2019 Volume 14Issue 1Feb 2018 InformationCopyright 2018, Mary Ann Liebert, Inc.To cite this article:John R. Benemann, Ian Woertz, and Tryg Lundquist.Autotrophic Microalgae Biomass Production: From Niche Markets to Commodities.Industrial Biotechnology.Feb 2018.3-10.http://doi.org/10.1089/ind.2018.29118.jrbPublished in Volume: 14 Issue 1: February 1, 2018PDF download" @default.
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• W2790454016 title "Autotrophic Microalgae Biomass Production: From Niche Markets to Commodities" @default.
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