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
Biochar and beneficial fungi team up to detoxify toxic red mud and restore soil health
A new study has revealed a promising nature-based strategy to clean up red mud, one of the world’s most hazardous industrial wastes, by combining biochar with beneficial soil fungi to target specific pollutants and revive damaged soils.
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NewsScientists identify new Fusarium species behind wheat disease outbreak in Ethiopia
New research provides new insights into the severe 2022 outbreak of Fusarium head blight in Ethiopia and identifies emerging fungal pathogens that could have broader implications for global wheat production.
NewsLong-term field study shows biochar delivers dual benefits for soil health and climate mitigation
A 14-year field study has provided compelling evidence that biochar can simultaneously reduce heavy metal risks in agricultural soils while enhancing carbon storage, offering a powerful strategy for sustainable farming and climate mitigation.
NewsPork bones to the rescue: Healing arsenic-poisoned rice paddies with engineered char
A newly published paper explores exactly what happens when agricultural lands are treated with micro- and nano-scale bone char (MNBC). It proves that adding just a small amount of this specially processed biochar triggers a massive biological revival in toxic soil.
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Different plastics, different threats: Tracking antibiotic resistance on riverborne debris
While traditional plastics steadily accumulate antibiotic resistance genes over time, biodegradable plastics can trigger short-lived but intense spikes in pathogens and resistance during degradation.
NewsUnlocking the phosphorus puzzle: How microplastics and hydrochar change the way rice paddies feed
A fresh look at the soil microbiome reveals that the key to freeing up phosphorus locked away in the ground relies heavily on the type of carbon we add, whether that is treated animal waste or, surprisingly, synthetic plastic pollution.
NewsScientists combine algae and oyster shells for biodiesel born in the bayou
Researchers have developed an inexpensive way to make biodiesel from materials found along the banks of their Louisiana bayou: algae and oyster shells.
NewsUse of controversial weedkiller inadvertently selects for drug-resistant bacteria that can spread to hospitals
Scientists have found evidence that the spread of AMR isn’t always driven by bacteria evolving to resist the antibiotics themselves: rather, certain weedkillers can have the same effect.
NewsStolen chloroplasts maintained by host-made proteins offer clues to plant cell origins
The single-celled predator Rapaza viridis temporarily retains chloroplasts from prey algae and imports its own proteins into them, new research has shown.
NewsBiosensor detects early fungal outbreaks, advances plant biotechnology
A new biosensor detects the emerging presence of fungus on plants at the molecular level, paving the way for next-generation crop protection and the development of stress-tolerant plants.
NewsSelenium nanoparticles and glutathione synergistically enhance soybean salt tolerance by activating the JA pathway and arbutin-mediated rhizosphere microbiota
Researchers addressing soil salinity have developed a novel nano-biostimulant, a synergistic composite offering a new paradigm for enhancing salt tolerance by coordinating the plant’s endogenous signaling pathways with the functions of its rhizosphere microbial community.
NewsField-portable assays help scientists study and explore caves
A new study shows that field-portable assays are effective at identifying microbes directly in the field in real time, making it easier to study and explore caves. The researchers established a roadmap for thoroughly studying cave life, emphasizing the need to sample widely and from different materials.
NewsSingle-cell sequencing reveals unexpected protist diversity
Scientists developing a single-cell sequencing pipeline have revealed previously unknown diversity from a group of free-living protists closely related to the parasites that cause sleeping sickness.
NewsEngineered biochar and beneficial bacteria team up to boost crop growth
Researchers have developed a specially engineered biochar made from sewage sludge that, when combined with beneficial bacteria, significantly enhances plant growth by improving how crops absorb nitrogen.
NewsBiochar’s climate promise depends on soil type: Cuts N₂O in dry fields but boosts it in rice paddies
By tracing the exact microbial pathways responsible for N₂O production, the scientists reveal why the same soil amendment produces opposite climate outcomes under different land uses.
NewsBiochar particle size found to shape disease control in crops
Researchers have discovered that the particle size of biochar determines how effectively and how long it can suppress soil-borne pathogens, offering new insights for sustainable agriculture.
NewsDiet determines the bacteria present in microbial gardens cultivated by ants
Researchers studying leafcutter ants have demonstrated how bacteria in the colonies respond to different diets provided by ants to the fungi they cultivate. The study paves the way for a better understanding of how colonies function and may lead to the discovery of new molecules for biotechnological use.
NewsBird flu risk to Danish cattle – new tool can warn farmers before infection spreads
Researchers have developed a tool that can predict where and when the risk of infection is highest. The tool is based on infection data from the U.S. outbreaks and adapted to a Danish context.
NewsBiochar’s climate benefits may reverse over time in acidic soils, new study finds
A study reveals that biochar can both decrease and increase emissions of nitrous oxide, a potent greenhouse gas, depending on how long it has been in the soil. The findings highlight the importance of considering long-term impacts when evaluating climate solutions.
NewsA newly identified disease of corn and sorghum may be mistaken for iron deficiency
A newly identified bacterial disease affecting corn and sorghum can closely resemble iron deficiency, potentially leading farmers to apply costly nutrient treatments that do not address the underlying problem.
NewsLong-term biochar use reshapes soil carbon storage through microbial pathways
A new long-term study reveals that biochar, a carbon-rich material derived from crop residues, can significantly enhance soil carbon storage, but its effectiveness depends strongly on land use and soil type.
NewsFantastic fungi found with ability to freeze water
An international group of researchers has discovered the identity of fungal proteins that can catalyze ice formation at high subzero temperatures. One potential application of this discovery could be to engineer weather.
NewsStudy identifies causes of potato dry rot in Colorado
Researchers have identified multiple fungal species causing dry rot in Colorado. By analyzing structural and molecular features, plant pathologists identified four Fusarium species associated with potato dry rot – including one that hadn’t previously been found in the U.S.