Research Keyword: PICRUSt2

Exploring functional microbiota for uranium sequestration in Zoige uranium mine soil

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Researchers studied bacteria in uranium-contaminated soil from a mine in China to find microorganisms that could help clean up the pollution. They discovered that three types of bacteria—Actinobacteria, Firmicutes, and Cyanobacteria—are particularly good at binding uranium and could be used for natural soil remediation. These bacteria survive in the contaminated environment by producing amino acids and fatty acids that help them deal with uranium stress.

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Effects of Monascus pilosus SWM 008-Fermented Red Mold Rice and Its Functional Components on Gut Microbiota and Metabolic Health in Rats

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Researchers studied whether fermented red mold rice could improve gut health in rats by examining changes in beneficial bacteria. The study found that red mold rice and its active compounds increased helpful bacteria like Akkermansia mucinophila without causing any harmful effects. These beneficial bacteria may support better digestion, metabolism, and overall health, suggesting fermented red mold rice could be useful as a functional food for maintaining a healthy gut.

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Sustainable Recycling of Mushroom Residue as an Effective Substitute for Cotton Hull Waste in Volvariella volvacea Cultivation: Evidence from Physicochemical and Microbiome Analyses

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This research shows that mushroom waste left over from growing mushrooms can be successfully recycled as a growing medium for straw mushrooms, similar to the traditional cotton hull waste currently used. The recycled mushroom residue produces mushrooms of equivalent quality and quantity but costs much less to purchase. By analyzing the microscopic bacterial communities in the compost, scientists found that different bacteria help break down the organic matter in both types of substrates, supporting efficient mushroom growth.

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