Healthy land

Land has a wide variety of uses: agricultural, residential, industrial, and recreational. Microbes play a key role in the terrestrial ecosystem, providing symbiotic relationships with plants. Human use of land has led to the exhaustion of nutrients in soils, contamination of land, and a reduction in biodiversity. Applying our knowledge of microbes will be essential in restoring the biodiversity of affected ecosystems. Greater research into how microbes impact human life on land could all have a positive impact, by increasing crop production, repurposing areas of land and improving microbial biodiversity in soil, land, and water.

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Bacteria that ‘shine a light’ on microplastic pollution

Researchers have developed a living sensor that attaches to plastic and produces green fluorescence. In an initial test on real-world water samples, the biosensor could easily detect environmentally relevant levels of microplastics.

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    Bacteria rewire digestive systems to turn plant waste into power

    A new study shows that Pseudomonas putida, a common soil bacterium, completely reorganizes its metabolism to thrive on complex carbons from lignin. By slowing down some metabolic pathways while accelerating others, the bacterium manages to extract energy from lignin without exhausting itself.

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    Zoo poo might hold the secrets to new medical treatments

    Scientists are hoping the collection of poo from tigers, elephants, giraffes and other exotic animals, could contain the secret to finding new medical treatments. Although a waste product to the animals, hidden amongst it are thousands of phages which are potentially capable of fighting bacterial infections.

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    Ancient mammoth remains yield the world’s oldest host-associated bacterial DNA

    An international team has uncovered microbial DNA preserved in woolly and steppe mammoth remains dating back more than one million years. The analyses reveal some of the world’s oldest microbial DNA ever recovered, as well as the identification of bacteria that possibly caused disease in mammoths. 

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Microbiologists uncover bacteria that remove toxic sulfide and use iron minerals for growth

An international team of scientists has discovered a new microbial metabolism: so-called MISO bacteria “breathe” iron minerals by oxidizing toxic sulfide. The previously unknown biological process sees versatile microbes remove toxic sulfide and use it for their growth.