Articles tagged with Soil Pollution
A comprehensive study found that wild boar liver can be used as a bioindicator for PFAS contamination in the environment, detecting hot-spots in regions with elevated PFAS levels. The researchers discovered that PFAS concentrations are highest in areas where industrial activities and agricultural practices have led to contamination.
A study by University of Alabama at Birmingham researchers reveals that cadmium-induced inflammation increases the severity and mortality of lung infections. The findings suggest that targeting the regulation of PPAR-gamma in macrophages may protect against severe pneumonia.
A team of researchers has developed a highly sensitive imaging method to detect heavy metals like cadmium in cocoa beans. The study found that cadmium accumulates primarily in the outer shell of the bean and can be reduced through improved processing steps, which could minimize exposure.
A team of researchers from Pusan National University evaluated the efficacy of calcite and phosphogypsum in reducing arsenate ions' availability for crops. Phosphogypsum was found to be more effective in immobilizing arsenic in soil due to a substitution mechanism involving sulfate and hydrogen arsenate ions.
Researchers at the University of Turku found that reducing pesticide pollution and harvesting intensity can increase crop yields and contribute to climate change mitigation. By optimizing carbon sequestration and storage in soils, farmers can improve plant resilience and productivity, while minimizing environmental harm.
New research reveals that nitrogen released by gas-powered machines causes dry soil to let go of carbon and release it back into the atmosphere. The study found that excess nitrogen acidifies soils, leading to a loss of carbon stored in association with calcium.
Researchers have developed a new additive that can break down PFAS at ambient temperature and pressure using a ball milling process. The new method uses boron nitride as a non-corrosive additive, which breaks down 80% of known PFAS in soils contaminated with firefighting foam.
Researchers found that nitrified urine fertilizers, such as Aurin and CROP, can be used safely and productively in agriculture. The study tested these fertilizers on cabbage cultivation, with results showing yields comparable to conventional fertilizer products.
The global food system exerts significant pressure on the environment and climate, with five countries accounting for almost half of the impact. Locally produced food is often the most environmentally friendly option, but production methods can vary greatly between countries.
Researchers genetically engineered the fungus Metarhizium robertsii to amplify its mercury detoxifying effects, finding it can quickly clear mercury from fresh and saltwater. The discovery suggests a potential cost-effective method for protecting crops grown in polluted areas and remediating mercury-laden waterways.
Researchers found chlorobenzenes in a corroded Roman bowl dated to the Late Iron Age, which may pose a threat to archaeological preservation due to pollution in soil. Soil polluted with chlorobenzenes can lead to increased corrosion and damage to ancient artifacts.
Researchers discovered that ancient Maya cities in Mesoamerica were heavily polluted with mercury, contaminating the soil and water. The pollution was caused by the frequent use of mercury and cinnabar paints, powders, and other products, which leached into the environment and pose a potential health hazard today.
Geologists mapped how historical coking and smelting led to toxic metal pollutants in Pittsburgh's soil, particularly in the eastern half of the city. The team found that concentrations of soil metals were higher in valleys influenced by rivers, with cadmium posing a lesser-known risk.
Researchers found that the Southern cattail plant can scavenge up to 34 times more manganese from contaminated soil than other plants. The study suggests its potential for sustainable rehabilitation of areas affected by iron mine tailings, demonstrating its high efficiency in phytoremediation.
Researchers found that lettuce takes up nanoplastics from soil and transfers them into the food chain, with particles detected in insects and fish. The study highlights potential health risks to herbivores and humans due to tiny plastic particles in soil.
A recent study found that microplastics in agricultural soils can cause a decrease in germination rate and changes to seed production, which could have negative consequences for food production. The presence of microplastics also alters soil characteristics such as its structure and microbial communities.
Researchers at MIT develop a biodegradable system based on silk to replace microplastics added to agricultural products, paints, and cosmetics. The new material is made from widely available and less expensive silk protein, which can be dissolved using a scalable water-based process.
A University of Illinois study found tomatoes in Chicago backyard gardens have low levels of lead, making them relatively safe for consumption. However, improper soil handling and lack of washing can still pose health risks. Researchers recommend minimizing dust with heavy mulch and careful fruit washing to safely grow tomatoes.
A recent study reveals that PFAS significantly increase litter decomposition and alter soil pH, impacting nutrient cycles and ecosystem processes. The presence of PFAS also exerts detrimental effects on soil respiration, microbial populations, and water-stable aggregates.
A review paper highlights the relationships between soil pollution and human health, with a particular focus on cardiovascular disease. Soil pollutants such as heavy metals, pesticides, and plastics can damage cardiovascular health through inflammation and disrupting the body's natural clock.
Researchers at Ural Federal University found that zinnia and tobacco plants can survive and even flourish in copper-contaminated soil, suggesting a possible use for landscaping areas. The study showed that these plants adapt by accumulating copper in their roots and limiting its transport to other parts of the plant.
Researchers estimate that European soils receive between 31,000 and 42,000 tonnes of microplastic particles each year, mirroring ocean surface waters. Microplastics spread onto farmland can contaminate the food chain, posing a significant threat to wildlife.
An international group of scientists calls for regulating and phasing out the production of new plastics to reduce plastic pollution. Gradually cutting production is expected to bring numerous societal, environmental, and economic benefits, including boosting recycled plastics' value and helping tackle climate change.
The UN Convention to Combat Desertification's Global Land Outlook 2 report warns that up to 40% of the planet's land is degraded, threatening half of humanity and roughly 1/2 of world GDP. The report offers hundreds of practical ways to restore land and ecosystem health.
A team of researchers from Nanyang Technological University and National Parks Board in Singapore has discovered that certain tropical plant species can absorb and remove toxic heavy metals and metalloids from contaminated soil. The study identified 12 plant species effective for phytoremediation, including Cow Grass, Brake Fern, and I...
The five-year grant aims to develop electrobiology techniques that enable applications like living sensors to quickly detect environmental pollutants. The project will involve multiple disciplines, including synthetic biology, protein engineering, soft materials, microsystems integration, and machine learning.
Researchers found that T. domingensis absorbed more iron than H. tiliaceus, making it a promising phytoremediation technique for rehabilitating contaminated water and soil. The study's findings could help mitigate the environmental damage caused by the 2015 iron mine tailings dam disaster in Brazil.
Researchers used machine learning to predict the most important factors underlying heavy metal pollution remediation in biochar-treated soils. Biochar nitrogen content and application rate were found to be the most crucial features in determining HM immobilization, with soil properties also playing a significant role.
A team of researchers proposes converting discarded surgical masks into a burnable fuel through pyrolysis, yielding a carbon-rich oil with high heating value. The study suggests this method offers better environmental performance compared to conventional waste management approaches.
Researchers engineered Azotobacter vinelandii to produce ammonia and excrete it into crop plants, reducing water pollution. This approach could mitigate environmental pollution and provide sustainable solutions for nitrogen management in soil.
Monitoring projects have identified a vast array of contaminants in urban stormwater, including tire- and vehicle-derived chemicals, PFAS, phosphorous, metals, and more. Researchers are exploring various strategies to address this issue, such as rain gardens, permeable pavement, and reducing chemical usage at the source.
Researchers at University of Copenhagen find that pharmaceutical residues in sewage sludge and cattle manure do not harm soil organisms, despite concerns over environmental risks. Organic fertilizers like sludge and manure provide better soil quality than conventional mineral fertilizers.
The Mediterranean region has the highest soil erosion rates in Europe, with severe salinisation problems and low levels of soil organic matter. The study recommends a coordinated network to investigate soil biodiversity and assess its trends to prevent future degradation.
Researchers are exploring the potential of mycelium-based soil remediation to address lead contamination in urban areas. The team will conduct lab experiments and perform electron microscopy imaging to understand how mycelium cell walls can bind and hold onto lead, as well as precipitate lead minerals around the fibers.
A new study from the University of Illinois reveals that nearly all soil samples in Chicago contain high levels of lead, with some areas reaching up to 3,000 ppm. The findings highlight the need for further monitoring and mitigation efforts to address environmental justice concerns.
The COVID-19 pandemic had both positive and negative impacts on environmental pollution and carbon emissions. The study found that water quality improved globally due to reduced commercial activities, while air pollutants like NO2 and CO decreased in most regions. However, sulphur dioxide and ozone levels increased, and soil contaminat...
Researchers at Skoltech developed an algorithm that aggregates and maps environmental data to predict and visually map the quality of water, soil, or air. The solution uses interpolation to fill gaps in data and produces detailed maps with high resolution.
A new project led by University of Illinois researchers will develop machine learning models to predict the reactivity of thousands of organic contaminants in engineered and natural environments. This will help scientists better model pollutant fate and transport, leading to more accurate contaminant risk assessments.
The report reveals that electronic waste generated in the region rose by 50% between 2010 and 2019, with only 3.2% collected and safely managed. The regional e-waste total jumped from 1.7 Mt to 2.5 Mt, with Russia generating the most e-waste.
The COVID-19 pandemic has exacerbated plastic pollution, with global waste generation increasing by twice the amount in 2020 compared to 2019. To address this issue, researchers advocate for a transition to novel sustainable practices and technologies, including biodegradable plastics and efficient recycling processes.
Research finds that plastic particles do not increase pollutant mobility in soils, with contaminants remaining in upper layers. This means they can potentially be taken up by crops and microorganisms, entering food supply.
Researchers from India and Saudi Arabia have combined oxidation and photocatalysis to create a heterogeneous photo-Fenton system that degrades phenols at higher rates than individual approaches. The system is highly photostable and reusable, making it promising for practical applications in wastewater purification.
A Hebrew University study reveals that as worldwide lead production increases, so do rates of lead absorption in people, leading to toxic effects. The research uses ancient human bones to show the close relationship between lead production and human exposure.
Researchers at Lancaster University have made a breakthrough in measuring miniscule levels of plutonium pollution in soils to differentiate between local and global sources. This innovation could help inform clean-up operations around nuclear power plants, saving time and money.
A recent study found that China's Clean Air Act led to a significant decline in atmospheric deposition of heavy metals, with beneficial effects on soil pollution. The act reduced fine particles and sulfate aerosols, resulting in lower levels of toxic metals like cadmium in the environment.
Researchers used Moscow as an example and found that not only polluted downtown districts but also recreational parks and forest zones can be hazardous. Soil samples were analyzed for heavy metal pollution and their ability to bind down contaminants, revealing a significant risk in green suburbs.
A newly discovered bacterium, A6, can break down per- and polyfluoroalkyl substances (PFAS) by transferring electrons from ammonium or hydrogen gas, rendering them harmless. The degradation process could potentially biodegrade PFAS in contaminated soil and groundwater under appropriate environmental conditions.
Research by Anglia Ruskin University found microplastics can stunt earthworm growth and cause weight loss, impacting soil ecosystem health. Soil contamination with certain plastics leads to decreased pH and reduced plant growth.
A West Virginia forest study found that acid rain increases soil-to-atmosphere water transfer, leading to greater plant water uptake. This effect is attributed to the leaching of calcium from soil, which signals open stomata and allows evapotranspiration to continue.
Researchers found that beaver dams removed high levels of sediment, nitrogen, and phosphorus from the water, trapping over 100 tonnes of sediment. The study suggests that beavers could mitigate soil loss and pollution in water courses, delivering benefits across whole ecosystems.
The Lancet Commission report finds that global pollution is responsible for 16% of all deaths worldwide. Pollution disproportionately affects low- and middle-income countries, particularly poor and marginalized communities. Accelerating the transition to cleaner energy sources can reduce air pollution and improve human health.
A new method uses high-powered lasers to directly break down pollutants in contaminated soil, showing promise as a cheaper and more efficient decontamination technique. The process heats up the pollutant locally, fragmenting it into smaller, safer molecules.
Researchers from Instituto Gulbenkian de Ciencia discovered that two genes from baker's yeast can increase plant resistance to a broad range of toxic substances, enabling their growth in contaminated soils. Plants carrying the yeast genes grew significantly better than wild-type plants in contaminated soils.
Researchers develop process to mix chicken droppings with Mexican sunflower to produce biogas, which can power generators and used as fertilizer. The method produces more than 3 kg of biogas from 8 kg of poultry waste and sunflowers, reducing environmental pollution.
Researchers show that fungal hyphae provide an infrastructure for bacterial horizontal gene transfer, allowing bacteria to adapt better to different environmental conditions and access new food sources. Soils with high fungal content are likely better equipped to break down pollutants.
A new study by Jena University researchers finds that airport de-icing chemicals can decrease oxygen content in soils and groundwater, leading to dramatic pollution and ecosystem damage. The team suggests using natural self-cleaning capacities of the soil, controlling oxygen levels, or alternative substances for pollutant degradation.
A new study highlights the need for clear information on managing contaminants in urban soils to protect consumers and gardeners. Researchers found that gardeners generally recognize the importance of knowing a site's prior uses but lack expertise to determine accurately potential contaminants.
A new EU project has developed non-invasive methods for characterizing contaminated sites, reducing the need for costly sampling and monitoring. These methods, including geophysical measurements and vegetation analysis, enable more accurate detection of pollution and efficient rehabilitation of megasites in Europe.
A team of experts developed a high-tech, portable device to test soil for carcinogenic pollutants, providing fast and accurate results. The Safe Soil Tester can detect toxins in as little as 12 minutes, offering significant cost savings over traditional lab testing.
A Lithuanian company, Biocentras, has developed a three-stage process that transforms contaminated soil into usable land for growing plants. The process uses biosurfactant and micro-organisms to break down oil pollutants, making it an efficient and natural solution.