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.
News
Avian malaria widespread across Hawaiʻi bird communities, new study finds
A new study shows that avian malaria can be transmitted by nearly all forest bird species in Hawaiʻi, helping explain why the disease is present almost everywhere mosquitoes are found across the islands.
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NewsRapid response launched to tackle new yellow rust strains threatening UK wheat
The UK’s wheat is under threat from a newly identified strain of the yellow rust pathogen, prompting an urgent mobilisation of research institutes to protect harvests. The new strain has overcome a key resistance gene that was protecting many major UK wheat varieties from yellow rust infection.
NewsResearchers develop simple at-home tests for detecting cat and dog viruses
Researchers report improved lateral flow assays for at-home screening of cats and dogs. In tests on veterinary clinic samples, the assays demonstrated 100% sensitivity and reproducibility for both feline parvovirus and canine parvovirus.
NewsEMBL pays tribute to Peer Bork (1963—2026)
The European Molecular Biology Laboratory has paid tribute to its Interim Director General, Professor Peer Bork who passed away in January. The institution reflects on the extraordinary impact Peer had on the world of science.
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News
Microbiomes interconnect on a planetary-scale, new study finds
Scientists reveal that microbes living in similar habitats are more alike than those simply inhabiting the same geographical region. By analysing tens of thousands of metagenomes, they found that while most microbes adapt to a specific ecosystem, generalists can thrive across very different habitats.
NewsBee bandits: ecologists study mutualistic plant-pollinator-microbe interactions
Researchers studying nectar-robbing behavior in bumble bees suspect other organisms beyond plants and pollinators may be aiding and abetting pollinators in nectar-robbing behavior.
NewsH5N1 causes die-off of Antarctic skuas
More than 50 skuas in Antarctica died from the high pathogenicity avian influenza virus H5N1 in the summers of 2023 and 2024, marking the first documented die-off of wildlife from the virus on the continent.
NewsScientists explain why methane spiked in the early 2020s
A combination of weakened atmospheric removal and increased emissions from warming wetlands, rivers, lakes, and agricultural land increased atmospheric methane at an unprecedented rate in the early 2020s, an international team of researchers report.
NewsPathogen risk: Removing southern African fences may help wildlife, boost economy
Fences intended to protect cattle from catching diseases from wildlife and other livestock in southern Africa are in disrepair, restrict wild animal migrations and likely intensify human-elephant conflict – but a plan to remove key sections could make both livestock and wildlife safer.
NewsA standout solvent for today’s biorefineries
Researchers tested multiple distillable amine-based solvents to see how they performed in pretreatment processes for biomass. They found butylamine was a superior solvent.
NewsTeam finds E. coli, other pathogens in Potomac River after sewage spill
Following one of the largest sewage spills in U.S. history, researchers detected high levels of fecal-related bacteria and disease-causing pathogens in the Potomac River, raising urgent public health concerns and underscoring the risks posed by aging sewer infrastructure.
NewsNew study reveals cyanobacteria may help spread antibiotic resistance in estuarine ecosystems
Scientists have discovered that cyanobacteria may play a major role in spreading antibiotic resistance genes in coastal environments. The findings highlight a previously overlooked link between natural nutrient cycling and the global challenge of antibiotic resistance.
NewsForest soils increasingly extract methane from atmosphere
Researchers evaluated the world’s most comprehensive data set on methane uptake by forest soils. They discovered that under certain climate conditions, which may become more common in the future, their capacity to absorb methane actually increases.
NewsPreviously unknown viruses discovered in groundwater
Researchers have created a comprehensive picture of viral diversity and function in a groundwater system. They identified over 257,000 viral operational taxonomic units, i.e. viruses at species level, 99 % of which were previously unknown.
NewsSoil pH shapes nitrogen competition between wheat and microbes, new study finds
A new study reveals that soil acidity plays a critical role in determining how wheat competes with soil microorganisms for nitrogen, a nutrient essential for plant growth and global food production.
NewsBBSRC-backed spin-out launches rapid DNA air sequencing technology
New spin-out, Agnos Biosciences, has launched AirSeq, a rapid DNA air sequencing technology to transform pathogen detection across health, food and biosecurity. It brings to market a powerful new approach to detecting biological threats in the air.
NewsHow a single protein helps a fungal pathogen invade tea oil trees
Scientists report the discovery of a key mitophagy regulator in Colletotrichum camelliae, the fungus responsible for anthracnose in tea oil trees. A SUN family protein, CaSun1, directly recruits the autophagy protein CaAtg8 to mitochondria, enabling mitophagy during infection.
NewsPlants influence the composition and function of their surrounding microbiome to suit their needs
An investigation into plant–microbe interactions at the genetic, metabolic and physiological levels revealed that 203 bacterial gene sequences were strongly shaped by the host plant, for example through their metabolic products. One bacterial genus was found to enhance root development even in nitrogen-limited soils.
NewsRisk for Lyme disease in Ohio is equal to Connecticut, study shows
The risk for being bitten by a tick infected with bacteria that cause Lyme disease is as high in Ohio as it is for those living in Northeast states that have dealt with Lyme disease for over 50 years, according to a new study.
NewsGenes from corn’s wild ancestor change soil microbial community, improve sustainability
Corn bred with genes from wild relatives can reshape soil microbial communities and reduce nitrogen loss — with no yield reduction, according to new research. It’s the first time corn’s genetic makeup has been linked with inhibition of nitrifying and denitrifying bacteria.
NewsLab-grown algae removes microplastics from water
Scientists have applied a revolutionary strain of algae toward capturing and removing harmful microplastics from polluted water. The aim is to repurpose the collected microplastics into safe, bioplastic products such as composite plastic films.
NewsWetlands do not need to be flooded to provide the greatest climate benefit
Contrary to expectations, wetlands do not need to be completely flooded to provide the greatest climate benefit. Instead, the water table should be below the soil surface and remain stable, according to a new study.
NewsHow brick-building bacteria react to toxic chemical in Martian soil
Researchers investigated how bacteria that can mould Martian soil into brick-like structures fare in the presence of perchlorate, a toxic chlorine-containing chemical discovered in Martian soil. It slows down bacterial growth - but surprisingly leads to the formation of stronger bricks.