Drylands in the western United States are currently in the grips of a 23-year “megadrought” and one West Virginia University researcher is working to gain a better understanding of this extreme climate event.
Increased warming in tundra ecosystems is resulting the release of carbon into the atmosphere through ecosystem respiration, contributing additionally to climate change. A recent meta-analysis published Nature revealed factors that contribute to ecosystem respiration, including soil nitrogen concentration, pH and ratio of carbon to nitrogen.
The world’s top prize in forestry research has been awarded to University of Wisconsin–Madison biochemistry professor John Ralph for work that has led to new uses for one of the world’s most abundant natural resources.
KINGSTON, R.I. – April 17, 2024 – Migration and reproduction are two of the most demanding events in a bird’s annual cycle, so much so that the vast majority of migratory birds separate the two tasks into different times of the year. But a study by University of Rhode Island researchers has found direct evidence of a species – the American woodcock, a migratory shorebird from eastern and central North America – that overlaps periods of migration and reproduction, a rare breeding strategy known as “itinerant breeding.
A detailed reconstruction of climate during the most recent ice age, when a large swath of North America was covered in ice, provides information on the relationship between CO2 and global temperature. Results show that while most future warming estimates remain unchanged, the absolute worst-case scenario is unlikely.
Every year, the nation’s aviation industry uses around 22 billion gallons of jet fuel, which produces about 1 billion tons of carbon dioxide—or 3% of the world’s carbon dioxide emissions. Because of this, researchers and policymakers alike are eyeing aviation as an industry ripe with opportunity to lower emissions. One way to reduce emissions? Reuse society’s waste and turn it into sustainable aviation fuel (SAF).
Researchers at Washington University in St. Louis led by Randall Martin investigated global particulate matter, revealing health risks from trace elements.
The Institute's Flow Cytometry Core, which provides cutting-edge research services, has been named a BD Biosciences "Center of Excellence." Along with this distinction, the LJI Flow Core has brought in a sophisticated instrument for immune cell research: the BD FACSDiscover™ S8 Cell Sorter.
Mountain chickadees have among the best spatial memory in the animal kingdom. New research identifies the genes at play and offers insight into how a shifting climate may impact the evolution of this unique skill.
The University of Miami’s Climate Resilience Academy will host its third symposium, “Resilience in the Built and Natural Environments,” on Wednesday, April 24 to delve into the ways that municipalities across the globe can and are adapting to a warming planet.
The research team led by Senior Researcher Han-Min Lee of the Department of Industrial Machinery DX under the Virtual Engineering Platform Research Division of the Korea Institute of Machinery and Materials(KIMM) has developed off-road environment recognition technologies for driving in off-road environments such as mountainous, waterside or snowy regions, including sensor protection and cleaning technology, sensor signal correction technology, and drivable area recognition technology, and has transferred these technologies to relevant corporations.
Florida Atlantic University’s College of Engineering and Computer Science is among eight university teams in the United States selected to work with NASA and the U.S. military to foster innovation and expertise in the small satellite sector.
Microscopic studies of rodent incisors revealed nano-sized pockets of iron-rich material that form a protective shield, a finding that could improve human dentistry, say researchers in ACS Nano.
Cardiovascular diseases, including stroke and myocardial infarction, are the world's leading causes of mortality, accounting for over 18 million deaths a year. A team of KIT researchers has now identified a new cell type in blood vessels responsible for vascular growth.
Prolonged droughts followed by sudden bursts of rainfall – how do desert soil bacteria manage to survive such harsh conditions? This long-debated question has now been answered by an ERC project led by microbiologist Dagmar Woebken from the Centre for Microbiology and Environmental Systems Science (CeMESS) at the University of Vienna.
Irvine, Calif., April 16, 2024 — Arctic and boreal latitudes are warming faster than any other region on Earth. In three new studies, Earth system scientists at the University of California, Irvine report how the ecosystems in these regions are changing. In a study published in Global Change Biology, a team led by Earth system science Ph.
Millions of tons of small pieces of plastic, referred to as microplastics are finding their way into the world’s oceans. To address plastics and other problems that could affect human health, the NIH and the U.S. National Science Foundation (NSF) are jointly funding four new Centers for Oceans and Human Health and renewing two centers as part of a marine-related health research program. Each Center will focus on a different aspect of the interplay between environmental science, climate change, and human health in the ocean or Great Lakes. Together the two agencies plan to invest more than $42 million over five years for the centers program, continuing a two-decade long collaboration.
The Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland — in cooperation with the U.S. Missile Defense Agency (MDA) and the U.S. Navy — played a critical role in the successful execution of Flight Test Other-23 (FTX-23).
Each May, millions of people preserve the blooming dandelions and clover in their lawns by leaving their lawn mowers idle — a practice called No Mow May.
Michael Connelly, the chief strategist for classified policies and programs at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, has been elected vice chair of the FFRDC/UARC Security Council.
In many parts of America, we take food for granted. With full grocery store shelves and copious options available at the push of a button on food delivery apps, we seldom think about the complex but critical food and agricultural systems behind this abundance.
Almost one-fifth of the global land surface is classified as highly susceptible to rainfall-triggered landslides. According to the World Health Organization, landslides are more widespread than any other geological hazard to occur worldwide and are increasing because of climate change.
The University of Tennessee-Oak Ridge Innovation Institute in February selected a circular bioeconomy project as one of its newest Convergent Research Initiatives for joint research.
Newly developed bioadhesive sensors (BIMS) are effective and less invasive than traditional tagging. Scientists can attach them with a thin layer of dried-hydrogel in less than 20 seconds.
Danny Andujar brings the technical skills, work drive and team mindset to fill a variety of roles at Argonne National Laboratory’s Mechanisms Engineering Test Loop Facility.
The Martinot Lab at Cummings School of Veterinary Medicine at Tufts University, where faculty and students have been researching the mpox virus in endometrial tissues to raise awareness of the potential increased risk of mpox virus for women.
Scientists using neutrons set the first benchmark (one nanosecond) for a polymer-electrolyte and lithium-salt mixture. Findings could boost power and safety for lithium batteries.
Oak Ridge National Laboratory chemists invented a more efficient way to extract lithium from waste liquids leached from mining sites, oil fields and used batteries. They demonstrated that a common mineral can adsorb at least five times more lithium than can be collected using previously developed adsorbent materials.
In recent advancements, flexible pressure sensors have been developed to mimic human skin's sensitivity, significantly benefiting fields like interactive technologies, health monitoring, and robotics. These innovations leverage a variety of microstructural strategies, including pyramidal, dome, wrinkle, and layered structures, for enhanced sensitivity and durability. Despite their potential, current designs often involve complex manufacturing processes. Addressing these challenges, new approaches aim to simplify sensor fabrication while broadening their pressure detection capabilities and stress tolerance, pushing the boundaries of sensor technology towards more efficient and versatile applications.
Digital Science has launched its Open Principles, a new initiative that commits its research information solutions to open science now and into the future.
Now is one of the most important times of year to keep birds safe by reducing non-essential lighting at night and treating window glass so birds can see it and avoid deadly collisions.
As wildfires, floods and other climate disasters spread across the country, a first-of-its-kind study
finds that Florida’s ambitious Wildlife Corridor has the potential to shield the state from similar
threats.
A research team has elucidated the role of polyploidy in the evolution and breeding of vegetable crops, leveraging advanced sequencing technologies to dissect the genetic and epigenetic nuances of polyploids.
A research team has shed light on the early morning 'golden hours' as a pivotal time for achieving optimal water use efficiency (WUE) in crops, revealing that plants can maintain lower transpiration rates and higher photosynthetic activity under favorable light conditions and minimal vapor pressure deficit (VPD).
A research team delves into the role of the Target of Rapamycin (TOR) signalling pathway in plant grafting, emphasizing its role in regulating seedling vigor, graft junction healing, and shoot-to-root communications.
Aalto University researchers adapt a novel force measurement technique to uncover the previously unidentified physics at play at the thin air-film gap between water droplets and superhydrophobic surfaces.
Rain jackets, swimming trunks or upholstery fabrics: Textiles with water-repellent properties require chemical impregnation. Although fluorine-containing PFAS chemicals are effective, they are also harmful to human health and accumulate in the environment.
According to a research team led by palaeontologists from the University of Vienna, the net-like leaf veining typical for today’s flowering plants developed much earlier than previously thought, but died out again several times.
The chloroplast (cp) is critical for various biological functions in plants, such as photosynthesis and stress responses, with its genome offering simpler analysis and sequencing due to its size and reduced homologous influence.
A research team reviews the critical relationship between the accumulation of anthocyanins and organic acids in fruits, highlighting how these factors influence fruit color and consumer appeal through changes in vacuolar pH.
The transition from vegetative to reproductive stages in plants involves both internal and external cues, with grapevines (Vitis vinifera L. cv. Pixie) presenting a unique case.
The research unveils the superior tolerance of 'Shuzhen No.1', a novel Citrus junos rootstock, to flooding, alkaline, and freezing stresses over commonly used rootstocks. Grafted scions on 'Shuzhen No.1' exhibited enhanced growth and vigor, making it a promising candidate for future citrus cultivation.
In March 2024, WCS trained 30 scientists from across the Coral Triangle in simple field methods to measure coral bleaching and identify climate resilient coral reefs.
Yale School of Medicine immunobiologist Akiko Iwasaki, PhD, will receive the 2024 Nakaakira Tsukahara Memorial Award from the Brain Science Foundation of Japan.