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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First known lichen in the fossil record helped structure terrestrial ecosystems
A group of researchers has confirmed the identity of the first lichens to inhabit Earth, Spongiophyton, around 410 million years ago, in great detail for the first time. The study confirms that the symbiosis between fungi and algae that dissolves rocks helped form the first soils.
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NewsPlants can be designed to alert us to harmful chemicals and diseases
A collaborative team of researchers have developed groundbreaking tools that allow grasses—including major grain crops like corn—to act as living biosensors capable of detecting minute amounts of chemicals in the field.
NewsNaval Research Lab Space Station study reveals key challenges and opportunities for microbial biomanufacturing in space
Scientists have completed a spaceflight biology investigation aboard the International Space Station (ISS) that reveals how microgravity fundamentally alters microbial metabolism, limiting the efficiency of biological manufacturing processes critical to future long-duration space missions.
NewsStudy sheds new light on what drives evolution of gut microbiomes
A study of wild African herbivores offers new insight into how environmental conditions – not just diet and anatomy – can influence the evolution of gut microbes that play a critical role in animal health and well-being.
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Epigenetic switch strengthens plant immunity against downy mildew
Researchers investigating how epigenetic regulators influence resistance to downy mildew in Brassica rapa identified BrHDA6 as a positive regulator of disease resistance and demonstrated that it enhances immunity by modifying a key enzyme in salicylic acid metabolism.
NewsTracking antibiotic resistance in the environment gets a high tech upgrade
Antibiotic resistance is often framed as a hospital problem, but a growing body of evidence shows that the environment plays an equally critical role in the global spread of drug resistant bacteria. Rivers, soils, wastewater, and even the air can act as reservoirs for antibiotic resistance genes that may eventually ...
NewsStudent focused on pathogens says new award has opened a door to span aquaculture and ecology
A University of Stirling student who is the latest recipient of the Nikos Steiropoulos Aquaculture Scholarship from MSD Animal Health UK says the award has helped to “open a door she could only have dreamed of”.
NewsBiologists and engineers follow goopy clues to plant-wilting bacteria
Slippery, drippy goop makes Ralstonia bacteria devastating killers of plants, causing rapid wilting in tomato, potato and a wide range of other crops, according to new research.
NewsScientists illuminate ancient plant-fungus partnership at molecular level
Researchers have coupled two powerful tools that allow scientists to identify which proteins work together to make plant-fungi partnerships function—and to verify those interactions in living plant roots, where the collaboration actually occurs.
NewsResurrected ancient enzyme offers new window into early Earth and the search for life beyond it
By resurrecting a 3.2-billion-year-old enzyme and studying it inside living microbes, researchers have created a new way to improve our understanding of the origins of life on Earth. The study uses synthetic biology to reverse-engineer modern enzymes and rebuild their possible ancestors.
NewsMethane eating microbes turn a powerful greenhouse gas into green plastics, feed, and fuel
Methane eating microbes could help turn a powerful greenhouse gas into everyday products like animal feed, green plastics, and cleaner fuels, according to a new scientific review of fast moving research on these unusual bacteria.
NewsHow a potential antibiotics ban could affect apple growers
Antibiotic resistance in human and animal health is on the forefront of public debate, but it’s a less well-known issue in plant agriculture. However, antibiotics are important tools in fruit production, and their efficacy hinges on avoiding resistance in disease-causing bacteria.
NewsThe hidden microbial communities that shape health in space
A new Perspective article sets out a path to uncover the role of biofilms in health during long-duration spaceflight, and how spaceflight research can reshape our understanding of these microbial communities on Earth.
NewsEvidence of ‘lightning-fast’ evolution found after dino-killing asteroid impact
The asteroid that struck the Earth 66 million years ago devastated life across the planet, wiping out the dinosaurs and other organisms. But new research shows new species of plankton appeared fewer than 2,000 years after the world-altering event.
NewsBacteria use wrapping flagella to tunnel through microscopic passages
A new study shows that certain symbiotic bacteria wrap their rotating flagella around their cell bodies to form a “screw thread.” This configuration lets them propel forward through one-micrometer-wide passages, such as those inside insect guts, that would otherwise trap or immobilize them.
NewsResearch team identifies species of brucellosis-causing bacteria in Cameroon
Researchers have identified the specific species of the Brucella bacterium that causes illness in animals in Cameroon. A study of more than 4,600 livestock animals found that the only Brucella species present was Brucella abortus, a species primarily associated with cattle that causes pregnancy loss and infertility.
NewsPine bark removes pharmaceutical residues from wastewater – an affordable way to keep antibiotics out of nature
Researchers have developed a pine‑bark–based water‑treatment medium that efficiently removes antibiotics as well as residues of blood‑pressure and antidepressant medicines from wastewater treatment plant effluent.
NewsFrom small experiments to big production: how constant impeller tip speed helps scale-up
Rhamnolipids (RL) are widely used in areas such as oil recovery and bioremediation, but their industrial production has long faced key challenges in the scale-up stage, including poor scalability and reproducibility.
NewsJournal of Applied Microbiology launches new Research Themes for 2026
The Journal of Applied Microbiology is kicking off 2026 with the unveiling of four key Research Themes under the JAM umbrella. Each Theme encompasses emerging hot topics and leading-edge research that align with AMI’s goal to apply microbiology to solving the world’s greatest challenges.
NewsScientists reprogramme E. coli to transform sugars into eco-friendly surfactant
A new study demonstrates a sustainable microbial strategy for producing lauryl glucoside by engineering a non-natural biosynthetic pathway in Escherichia coli, revealing precursor availability as a key bottleneck and moving towards greener biomanufacturing.
NewsBrewing a rare medicine: yeast engineered to produce a valuable astragalus isoflavonoid
By reconstructing the complete biosynthetic pathway inside Saccharomyces cerevisiae and systematically removing metabolic bottlenecks, researchers created the first yeast platform capable of producing calycosin-7-glucoside from simple carbon sources.
NewsReconstructing nature’s oxindole factory: yeast-based biosynthesis of medicinal indole alkaloids
By identifying four key enzymes from a North American plant and reconstituting them in yeast, scientists have achieved complete de novo biosynthesis of complex oxindole molecules that are difficult to obtain from plants or chemical synthesis.
NewsEngineered yeast delivers record levels of animal-free chondroitin sulfate
A new study establishes a robust yeast-based platform that overcomes the long-standing trade-off between yield and sulfation, enabling sustainable, high-level production of high-quality chondroitin sulfate without reliance on animal sources.