Research Topic: biofuels

Role of Azolla in sustainable agriculture and climate resilience: a comprehensive review

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Azolla is a fast-growing water fern that can help farms become more sustainable by naturally fertilizing soil with nitrogen, reducing the need for chemical fertilizers. It also helps control weeds, conserve water, and provides nutritious feed for livestock and fish. Beyond agriculture, Azolla can help reduce greenhouse gas emissions and clean polluted water, making it valuable for both farming and environmental protection.

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Advances in Bioprocess Engineering for Optimising Chlorella vulgaris Fermentation: Biotechnological Innovations and Applications

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Chlorella vulgaris is a nutrient-rich microalga gaining popularity in health supplements, functional foods, and sustainable energy production. Scientists are using advanced genetic engineering techniques, special fermentation methods, and innovative bioreactor designs to increase the production of beneficial compounds like proteins and antioxidants. These improvements make Chlorella more valuable for creating health-promoting foods, medicines, and biofuels while keeping production costs low and environmentally sustainable.

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Harnessing carbon potential of lignocellulosic biomass: advances in pretreatments, applications, and the transformative role of machine learning in biorefineries

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This comprehensive review examines how agricultural and forestry waste containing lignocellulose can be transformed into valuable products like biofuels, packaging materials, and medical supplies. The paper covers various treatment methods to break down the tough plant material structure and highlights how artificial intelligence can improve these processes. By utilizing this abundant waste resource efficiently, we can reduce environmental pollution, generate renewable energy, and create useful products while supporting a circular economy approach.

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Biochemical and molecular characterization of fungal isolates from California annual grassland soil

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Scientists studied soil fungi from California grasslands to find the best strains for producing biofuels and health supplements. They discovered that Mortierella fungi are especially good at accumulating oils and producing beneficial compounds like arachidonic acid. Three specific fungal strains stood out as having the highest oil content and best fatty acid profiles, making them promising candidates for industrial production of sustainable fuels and nutritional supplements.

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Compatible traits of oleaginous Mucoromycota fungi for lignocellulose-based simultaneous saccharification and fermentation

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Scientists tested different types of fungi to see which ones are best at producing oils that can be turned into biofuel while breaking down plant material. They found that Lichtheimia corymbifera can survive at high temperatures and produce useful enzymes, making it the best candidate. The study helps identify which fungi should be used in industrial processes to make sustainable biofuels from agricultural waste.

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Compatible traits of oleaginous Mucoromycota fungi for lignocellulose-based simultaneous saccharification and fermentation

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Researchers tested nine types of fungi to find which ones are best at producing oils from plant waste for making biofuels. They tested how well each fungus could handle higher temperatures and break down cellulose, which is the main component of plant material. Lichtheimia corymbifera was the clear winner because it could grow at higher temperatures while still breaking down plant material efficiently, making it ideal for the combined process of breaking down and fermenting plant waste.

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