Research Keyword: Microbial community assembly

Bioremediation Potential of Rhodococcus qingshengii PM1 in Sodium Selenite-Contaminated Soil and Its Impact on Microbial Community Assembly

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This study investigated how a bacterium called Rhodococcus qingshengii PM1 can help clean up soil contaminated with selenium, a toxic element that accumulates in food chains. Using advanced genetic sequencing, researchers found that this bacterium can break down toxic selenite compounds by 63-71% within three weeks, which is much faster than natural processes. Adding the bacteria to contaminated soil also helped restore the diversity and health of the natural soil microbial communities, making it a promising tool for environmental cleanup efforts.

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Fungal communities in Florida salt marsh mosquito midguts vary between species and over time but have low structure

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Researchers studied the fungi living in the guts of three types of Florida salt marsh mosquitoes. They found that all mosquitoes carried high amounts of a common environmental yeast called Rhodotorula lamellibrachiae. The type of mosquito species mattered more than the time of year for determining which fungi were present. Unlike bacterial communities in mosquitoes, the fungal communities appeared to assemble somewhat randomly rather than following organized patterns.

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Local Fungi Promote Plant Growth by Positively Affecting Rhizosphere Metabolites to Drive Beneficial Microbial Assembly

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Researchers tested local fungal species from the Qinghai-Tibet Plateau to help plants grow in damaged mining areas at extremely high altitudes. The local fungi were more effective than commercial bacterial products at promoting plant growth and creating healthy soil microbiomes. These fungi work by producing special chemicals that attract beneficial microorganisms while preventing harmful fungi from growing, making them ideal for restoring ecosystems in cold, high-altitude mining regions.

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