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#microalgae — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #microalgae, aggregated by home.social.

  1. How can microalgae help capture CO₂?

    Photobioreactors use microalgae, light, water, and nutrients to absorb carbon dioxide and release oxygen through photosynthesis.

    Learn how this clean air technology supports carbon capture and ESG goals.

    Read:
    carbelim.io/photobioreactor-ca

    #CarbonCapture #Microalgae #ClimateTech #CleanAir #ESG

  2. How can microalgae help capture CO₂?

    Photobioreactors use microalgae, light, water, and nutrients to absorb carbon dioxide and release oxygen through photosynthesis.

    Learn how this clean air technology supports carbon capture and ESG goals.

    Read:
    carbelim.io/photobioreactor-ca

    #CarbonCapture #Microalgae #ClimateTech #CleanAir #ESG

  3. How can microalgae help capture CO₂?

    Photobioreactors use microalgae, light, water, and nutrients to absorb carbon dioxide and release oxygen through photosynthesis.

    Learn how this clean air technology supports carbon capture and ESG goals.

    Read:
    carbelim.io/photobioreactor-ca

    #CarbonCapture #Microalgae #ClimateTech #CleanAir #ESG

  4. How can microalgae help capture CO₂?

    Photobioreactors use microalgae, light, water, and nutrients to absorb carbon dioxide and release oxygen through photosynthesis.

    Learn how this clean air technology supports carbon capture and ESG goals.

    Read:
    carbelim.io/photobioreactor-ca

    #CarbonCapture #Microalgae #ClimateTech #CleanAir #ESG

  5. Big carbon capture claims need real proof.

    At Carbelim, we built a free Microalgae Carbon Capture Calculator to measure CO₂ capture, biomass productivity, system efficiency, and real-world assumptions.

    Science first. Claims later.

    microalgae-co2-capturing-calcu

    #Microalgae #CarbonCapture #ClimateTech #CO2 #Cleantech

  6. Microalgae Carbon Capture Is Transforming Urban Air Pollution Solutions

    Urban air pollution and rising carbon emissions are accelerating the need for scalable climate-tech innovation and sustainable infrastructure.

    full article:
    carbelim.io/microalgae-carbon-

    #ClimateTech #CarbonCapture #Microalgae #UrbanAirPollution #SmartCities #NetZero #Sustainability #GreenTechnology

  7. Microalgae Carbon Capture Is Transforming Urban Air Pollution Solutions

    Urban air pollution and rising carbon emissions are accelerating the need for scalable climate-tech innovation and sustainable infrastructure.

    full article:
    carbelim.io/microalgae-carbon-

    #ClimateTech #CarbonCapture #Microalgae #UrbanAirPollution #SmartCities #NetZero #Sustainability #GreenTechnology

  8. Microalgae Carbon Capture Is Transforming Urban Air Pollution Solutions

    Urban air pollution and rising carbon emissions are accelerating the need for scalable climate-tech innovation and sustainable infrastructure.

    full article:
    carbelim.io/microalgae-carbon-

    #ClimateTech #CarbonCapture #Microalgae #UrbanAirPollution #SmartCities #NetZero #Sustainability #GreenTechnology

  9. Microalgae Carbon Capture Is Transforming Urban Air Pollution Solutions

    Urban air pollution and rising carbon emissions are accelerating the need for scalable climate-tech innovation and sustainable infrastructure.

    full article:
    carbelim.io/microalgae-carbon-

    #ClimateTech #CarbonCapture #Microalgae #UrbanAirPollution #SmartCities #NetZero #Sustainability #GreenTechnology

  10. Microalgae Carbon Capture Is Transforming Urban Air Pollution Solutions

    Urban air pollution and rising carbon emissions are accelerating the need for scalable climate-tech innovation and sustainable infrastructure.

    full article:
    carbelim.io/microalgae-carbon-

    #ClimateTech #CarbonCapture #Microalgae #UrbanAirPollution #SmartCities #NetZero #Sustainability #GreenTechnology

  11. Industrial wastewater is a challenge—but also an opportunity.

    Carbelim uses microalgae to naturally treat effluents, reduce carbon emissions, and generate useful biomass.

    A cleaner, smarter solution

    #GreenTech #Wastewater #Microalgae #Sustainability

  12. Industrial wastewater is a challenge—but also an opportunity.

    Carbelim uses microalgae to naturally treat effluents, reduce carbon emissions, and generate useful biomass.

    A cleaner, smarter solution

    #GreenTech #Wastewater #Microalgae #Sustainability

  13. Industrial wastewater is a challenge—but also an opportunity.

    Carbelim uses microalgae to naturally treat effluents, reduce carbon emissions, and generate useful biomass.

    A cleaner, smarter solution

    #GreenTech #Wastewater #Microalgae #Sustainability

  14. Industrial wastewater is a challenge—but also an opportunity.

    Carbelim uses microalgae to naturally treat effluents, reduce carbon emissions, and generate useful biomass.

    A cleaner, smarter solution

    #GreenTech #Wastewater #Microalgae #Sustainability

  15. Industrial wastewater is a challenge—but also an opportunity.

    Carbelim uses microalgae to naturally treat effluents, reduce carbon emissions, and generate useful biomass.

    A cleaner, smarter solution

    #GreenTech #Wastewater #Microalgae #Sustainability

  16. Phycocyanin extraction started.

    Initial processing underway to assess yield and purity. Moving toward sustainable bio-based solutions.

    #Phycocyanin #Microalgae #Biotech #Carbelim

  17. Phycocyanin extraction started.

    Initial processing underway to assess yield and purity. Moving toward sustainable bio-based solutions.

    #Phycocyanin #Microalgae #Biotech #Carbelim

  18. Phycocyanin extraction started.

    Initial processing underway to assess yield and purity. Moving toward sustainable bio-based solutions.

    #Phycocyanin #Microalgae #Biotech #Carbelim

  19. Phycocyanin extraction started.

    Initial processing underway to assess yield and purity. Moving toward sustainable bio-based solutions.

    #Phycocyanin #Microalgae #Biotech #Carbelim

  20. Phycocyanin extraction started.

    Initial processing underway to assess yield and purity. Moving toward sustainable bio-based solutions.

    #Phycocyanin #Microalgae #Biotech #Carbelim

  21. Here is our latest #article, DOI: doi.org/10.1111/1758-2229.70290.

    We systematically collected literature, and used network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows. We could identify clear workflows for diatoms and dinoflagellates, but other #microalgae groups were poorly represented or the methods were sparsely used. We further present practical experiences and opinions from culture banks.

    #phycology #openscience #bioinformatics @amplisci

  22. Here is our latest #article, DOI: doi.org/10.1111/1758-2229.70290.

    We systematically collected literature, and used network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows. We could identify clear workflows for diatoms and dinoflagellates, but other #microalgae groups were poorly represented or the methods were sparsely used. We further present practical experiences and opinions from culture banks.

    #phycology #openscience #bioinformatics @amplisci

  23. Here is our latest #article, DOI: doi.org/10.1111/1758-2229.70290.

    We systematically collected literature, and used network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows. We could identify clear workflows for diatoms and dinoflagellates, but other #microalgae groups were poorly represented or the methods were sparsely used. We further present practical experiences and opinions from culture banks.

    #phycology #openscience #bioinformatics @amplisci

  24. Here is our latest #article, DOI: doi.org/10.1111/1758-2229.70290.

    We systematically collected literature, and used network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows. We could identify clear workflows for diatoms and dinoflagellates, but other #microalgae groups were poorly represented or the methods were sparsely used. We further present practical experiences and opinions from culture banks.

    #phycology #openscience #bioinformatics @amplisci

  25. Here is our latest #article, DOI: doi.org/10.1111/1758-2229.70290.

    We systematically collected literature, and used network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows. We could identify clear workflows for diatoms and dinoflagellates, but other #microalgae groups were poorly represented or the methods were sparsely used. We further present practical experiences and opinions from culture banks.

    #phycology #openscience #bioinformatics @amplisci

  26. Yaay, new publication!
    We use network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows, with clear strategies for diatoms and dinoflagellates. The study highlights gaps in reporting and calls for stronger experimental validation.
    DOI: doi.org/10.1111/1758-2229.70290

    Help spread the word, please!

    #Microalgae #Phycology #EnvironmentalMicrobiology #Bioinformatics #OpenScience
    @academicchatter
    @instance-fediscience.org

  27. Yaay, new publication!
    We use network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows, with clear strategies for diatoms and dinoflagellates. The study highlights gaps in reporting and calls for stronger experimental validation.
    DOI: doi.org/10.1111/1758-2229.70290

    Help spread the word, please!

    #Microalgae #Phycology #EnvironmentalMicrobiology #Bioinformatics #OpenScience
    @academicchatter
    @instance-fediscience.org

  28. Yaay, new publication!
    We use network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows, with clear strategies for diatoms and dinoflagellates. The study highlights gaps in reporting and calls for stronger experimental validation.
    DOI: doi.org/10.1111/1758-2229.70290

    Help spread the word, please!

    #Microalgae #Phycology #EnvironmentalMicrobiology #Bioinformatics #OpenScience
    @academicchatter
    @instance-fediscience.org

  29. Yaay, new publication!
    We use network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows, with clear strategies for diatoms and dinoflagellates. The study highlights gaps in reporting and calls for stronger experimental validation.
    DOI: doi.org/10.1111/1758-2229.70290

    Help spread the word, please!

    #Microalgae #Phycology #EnvironmentalMicrobiology #Bioinformatics #OpenScience
    @academicchatter
    @instance-fediscience.org

  30. Yaay, new publication!
    We use network component analysis to map microalgal axenisation methods and identify antibiotic-free workflows, with clear strategies for diatoms and dinoflagellates. The study highlights gaps in reporting and calls for stronger experimental validation.
    DOI: doi.org/10.1111/1758-2229.70290

    Help spread the word, please!

    #Microalgae #Phycology #EnvironmentalMicrobiology #Bioinformatics #OpenScience
    @academicchatter
    @instance-fediscience.org

  31. New Publication. Matthew Rimmer, 'The Microalgal Revolution: Intellectual Property, Innovation Policy, and Sustainable Development', in Eduardo Jacob-Lopes, Maria Isabel Queiroz, Leila Queiroz Zepka, Mariany Costa Deprá (ed.), Pigments from Microalgae Handbook – Volume II, Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations, Cham (Switzerland): Springer, 30 January 2026, 455–488, link.springer.com/chapter/10.1 #microalgae #IP #innovation #SDGs

  32. New Publication. Matthew Rimmer, 'The Microalgal Revolution: Intellectual Property, Innovation Policy, and Sustainable Development', in Eduardo Jacob-Lopes, Maria Isabel Queiroz, Leila Queiroz Zepka, Mariany Costa Deprá (ed.), Pigments from Microalgae Handbook – Volume II, Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations, Cham (Switzerland): Springer, 30 January 2026, 455–488, link.springer.com/chapter/10.1 #microalgae #IP #innovation #SDGs

  33. New Publication. Matthew Rimmer, 'The Microalgal Revolution: Intellectual Property, Innovation Policy, and Sustainable Development', in Eduardo Jacob-Lopes, Maria Isabel Queiroz, Leila Queiroz Zepka, Mariany Costa Deprá (ed.), Pigments from Microalgae Handbook – Volume II, Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations, Cham (Switzerland): Springer, 30 January 2026, 455–488, link.springer.com/chapter/10.1 #microalgae #IP #innovation #SDGs

  34. New Publication. Matthew Rimmer, 'The Microalgal Revolution: Intellectual Property, Innovation Policy, and Sustainable Development', in Eduardo Jacob-Lopes, Maria Isabel Queiroz, Leila Queiroz Zepka, Mariany Costa Deprá (ed.), Pigments from Microalgae Handbook – Volume II, Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations, Cham (Switzerland): Springer, 30 January 2026, 455–488, link.springer.com/chapter/10.1 #microalgae #IP #innovation #SDGs

  35. New Publication. Matthew Rimmer, 'The Microalgal Revolution: Intellectual Property, Innovation Policy, and Sustainable Development', in Eduardo Jacob-Lopes, Maria Isabel Queiroz, Leila Queiroz Zepka, Mariany Costa Deprá (ed.), Pigments from Microalgae Handbook – Volume II, Bioprocess Engineering, Smart Extraction Technologies, Omics Tools, and Sustainability-Driven Innovations, Cham (Switzerland): Springer, 30 January 2026, 455–488, link.springer.com/chapter/10.1 #microalgae #IP #innovation #SDGs

  36. The #Roscoff Culture Collection 🇨🇵 of #marine #microorganisms 🌊 🦠 is seeking a #postdoc to work on ex situ microbiome interactions (EU projects #MICROBE and #BlueRemediomics 🇪🇺).

    One objective is to define synthetic #microbiomes to promote the growth of selected #microeukaryotes (#microalgae, saprotrophs) and for optimal production of #metabolites of interest.

    roscoff-culture-collection.org
    microbeproject.eu
    blueremediomics.eu
    #protists #microbiology #job #bretagne #france

  37. RT @Algaenauts: Senior’s University of Almería Programme visiting the Microalgae production facility to learn about Biorizon Biotech and ALGAENAUTS project.
    #EMFF @cinea_EU @aga_kempny
    @EU_MAR #blueconomy #circulareconomy @BiorizonBiotech #microalgae #biopesticide
    @ualmeria

    🐦🔗: n.respublicae.eu/cinea_eu/stat

  38. “It shows you the resilience of nature – that seeds have evolved to last that long,” says McMechan. “It’s not rewilding, it’s not restoration, it’s resurrection...."- and there'll be #microalgae in there somewhere, too #ghostponds
    theguardian.com/environment/20

  39. #Newswire: Mewery, the Czech startup developing cell-cultured meat using microalgae and animal cells, has secured EUR 2.5 million from the EIC - European Innovation Council Accelerator program. The grant was funded by the Technology Agency of the Czech Republic from national sources on the recommendation of the EIC.
    proteinreport.org/newswire/mew
    #cellculture #meat #algae #microalgae #ingredients #protein #biotech #foodtech #startups #innovation #investing #europe #startupfunding #czechia #pressrelease

  40. Superfood microalgae, Chlamydomonas reinhardtii – Gift

    Microalgae represent the most promising, sustainable and renewable source of plant-based nutrition for the planet’s population. The brief scientific review that follows shows the exceptional char…
    #dining #cooking #diet #food #Italiandiet #Chlamydomonasreinhardtii #eggs #Italia #Italian #ItalianDiet #italiano #italy #microalgae #omega-3 #superfoods
    diningandcooking.com/2149024/s

  41. #Newswire: Nutrition from Water (NXW), the New Zealand-born company harnessing microalgae strains and proprietary heterotrophic fermentation processes to biomanufacture protein-rich, fiber-containing alternatives to bovine whey at one-third of the cost, announces JDAs with Japan's Nissei Kyokei and a prominent European dairy nutrition company.
    #algae #microbial #ingredients #dairy #protein #biotech #foodtech #microalgae #innovation #newzealand #japan #europe #pressrelease
    proteinreport.org/newswire/nut

  42. How can #sustainable #FoodProduction work in a dense city like #Singapore? At #TUMCREATE, researchers develop new methods with #SoyCultivation and #microalgae to support the city-state’s self-sufficiency goals: go.tum.de/571659

    📷T. Linxomphou / pexels