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.
Addressing one of the most persistent and expensive problems in construction, scientists have taken inspiration from nature to develop a synthetic lichen system to enable concrete to self-repair.
Read storyA study by AMI member Dr Gerry Quinn highlights the potential of spiritual healing sites as fertile ground for novel antibiotics, particularly from Streptomyces bacteria, known for producing the majority of current antibiotics.
The ancestor of the virus that causes COVID-19 left its point of origin in Western China or Northern Laos just several years before the disease first emerged in humans up to 2,700 kilometers away in Central China, suggesting the wildlife trade played a role.
New findings suggest that manipulating rhizosphere microbiomes could be a sustainable strategy to enhance crop performance in fluctuating environments, supporting the development of resilient agricultural systems.
Scientists used a gene-silencing tool and molecular guides to probe how photosynthetic bacteria adapt to light and temperature changes, finding even partial suppression of certain genes yielded big benefits in modifying the stress response of wild microbes.
As urban development continues to creep further into Earth’s oldest and most diverse rainforests, a study reveals native and invasive small mammals aren’t just adapting to their changing habitats—they may also be sharing their microbes.
The University of Jena, Germany has won the renowned ’Dance your PhD’ competition in the category Biology with its video “Plant Vaccination”. The video visualizes the thesis of Jena doctoral candidate Priya Reddy with dancers and original choreography.
Researchers have shown, based on an experimental system that reproduces a mutualistic microbial community, that the most common evolutionary solution for two co-dependent organisms to survive extreme environmental change could be to become self-sufficient.
A team of researchers has created a novel machine learning tool that’s cracking open one of biology’s trickiest puzzles: finding the rarest microbes on Earth. Ulrb not only identifies rare microorganisms but also works with non-microbial data.
In Lake Erie, cyanobacteria can proliferate out of control, creating algal blooms that produce toxins that can harm wildlife and human health. Researchers have IDed the organism responsible for the toxins: a cyanobacteria called Dolichospermum.
A newly published study provides critical insights into the emergence of babesiosis in the Mid-Atlantic region, documenting human cases and the presence of Babesia microti in local tick populations.
A new study focuses on the search for small molecules to target the Nia protein of Potato virus Y (PVY), one of the most economically destructive viruses affecting Solanaceous crops such as potatoes, peppers, and tomatoes.
New research demonstrates how mathematical modeling can predict outbreaks of toxic fungi in Texas corn crops—offering a potential lifeline to farmers facing billions in harvest losses.
The Global Virus Network (GVN) has issued a call-to-action, calling on world governments to address the threat of H5N1 avian influenza by enhancing surveillance, implementing biosecurity measures, and preparing for potential human-to-human transmission.
The arrival of new plant pests and diseases is likely to severely damage UK trees and woodlands in the coming decades, new research shows.
Researchers have uncovered a remarkable evolutionary adaptation in birds that could hold vital clues for combating avian flu and respiratory infections in humans, including pneumonia and COVID-19.
Pioneering research has repurposed a gene editing tool to help shed light on the true biodiversity present in natural environments. The study could help pave the way for more productive soils and improved health.
Researchers have pioneered a microbially driven process that utilises low-value waste products, such as magnesium mine waste and sulfur from desulfurisation plants, to leach the wastes and generate a stream of solubilised magnesium.
Researchers have found a new method to control starch storage in algae - a finding with potential applications in areas such reducing greenhouse gases. Modifying a blue light-activated signalling pathway makes it possible to regulate storage, they say.
A strain of Pseudomonas syringae manipulates plants by producing a substance called glycosyrin to suppress the immune response. New research shows that glycosyrin does this by mimicking galactose, acting like a wolf in sheep’s clothing.
For the first time in Finland, researchers have isolated a giant virus, which was named Jyvaskylavirus. The discovery shows that giant viruses are more common in northern regions than researchers have thought.
New research has uncovered how a simple circadian clock network demonstrates advanced noise-filtering capabilities, enhancing our understanding of how biological circuits maintain accuracy in dynamic natural environments.
A new study confirms that confirmed that copper fungicide treatments consistently slow disease spread and improve yields in potato crops threatened by aerial stem rot (ASR), a bacterial disease primarily caused by Pectobacterium carotovorum.