Cicadas and tinnitus: What's the connection?
Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign
Digitizing decades worth of pre-computer files held in storage at the Narragansett Bay campus let oceanographers at the University of Rhode Island get a better picture of Narragansett Bay over time. URI operates the longest-running time series in Rhode Island, which now reveals that the level of phytoplankton in the bay has dropped by half in the last half century.
A team of glaciologists led by researchers at the University of California, Irvine used high-resolution satellite radar data to find evidence of the intrusion of warm, high-pressure seawater many kilometers beneath the grounded ice of West Antarctica’s Thwaites Glacier.
Today, the U.S. Department of Energy (DOE) announced $6 million in funding for 12 awards across eight efforts to advance research in isotope enrichment, targetry, and separations. This funding is part of a key federal program that produces critical isotopes otherwise unavailable or in short supply in the U.S.
Spectroscopy allows scientists to study the structure of atoms and molecules, including the energy levels of their electrons. This research examines the potential of spectroscopy techniques that rely on quantum entanglement of these photons. These methods can reveal information about molecules not possible with traditional spectroscopy. They also reduce the damage spectroscopy causes to samples.
Biodiversity Research Institute (BRI) announces the publication of the scientific paper Global Mercury Concentrations in Biota: Their Use as a Basis for a Global Biomonitoring Framework in the journal Ecotoxicology. The paper describes for the first time currently available mercury data for fish and wildlife on a global scale.
Why is the warm gas-giant exoplanet WASP-107 b so, so puffy? With a moderate temperature and an ultra-low density on par with a microwaved marshmallow, it seems to defy standard theories of planet formation and evolution. Two independent teams of researchers think they’ve figured it out.
The new Tandem Dual-Antenna Spaceborne Synthetic Aperture Radar (SAR) Interferometry (TDA-InSAR) system, addresses the limitations of current spaceborne Synthetic Aperture Radar (SAR) systems by providing a more reliable and efficient method for 3D surface mapping.
This study investigates the genetic regulation of volatile production in melons, identifying over 1000 quantitative trait loci (QTLs) affecting aroma and ripening. Key findings highlight specific chromosomes that influence ester and aldehyde levels, contributing to unique aromas in climacteric and non-climacteric melons, aiding breeding programs aimed at enhancing fruit quality.
Utilizing a near-single-cycle strong laser field, inter-cycle interference between photoelectron trajectories is mitigated in photoelectron holography, clearly unveiling two unique electron-holography patterns: fishbone-like and spider-leg-like.
A cutting-edge study has shed light on the TOMATO MADS-BOX 6 (TM6) gene's critical influence on the elaborate development of tomato flowers. This research pierces the veil on the genetic underpinnings of floral formation, providing fresh insights into the realm of plant biology.
Using citizen science, photographs, on-water observations and the combination of morphological and genetic data, researchers are the first to provide evidence that the Atlantic cownose ray has recently made a new home in Bermuda. Results show that after hundreds of years of natural history records, this is a novel migration of Atlantic cownose rays to Bermuda. Findings suggest that cownose rays have been in Bermuda for more than a decade since 2012 and observations of the species continue to be sustained today.
Variations in water quality can impact the development of the visual system of one species of African fish, suggests a new study.
The globally renowned Yasuní ecosystem in Ecuador will receive a significant boost in conservation efforts through a new agreement between the Wildlife Conservation Society (WCS) and Legacy Landscapes Fund (LLF), supported by the Gordon and Betty Moore Foundation.
Matt and Brandon traveled to Ecuador's rainforests to map the Coca River with drones. The river is experiencing massive erosion and sedimentation problems after the San Rafael waterfall collapsed in 2020. Their work could help the country save a hydroelectric power plant that provides 30% of the country's electricity as well as roads and pipelines the area's people depend on for commerce and transportation.
A research team has identified key metabolic composition differences between annual bluegrass and creeping bentgrass under heat stress, revealing specific metabolites linked to heat tolerance.
A research team has developed a novel conceptual framework for designing plastic-greenhouse soil profiles that cater to the needs of smallholder farmers.
A research team has recently published a comprehensive review on the innovative integration of spectral data and phylogeographic patterns to study plant genetic variation.
A research team has reviewed the role of MicroRNA156 (miR156) in horticultural plants, uncovering its significant influence on a variety of biological processes such as vegetative growth, floral induction, and stress response.
In a review article, a research team meticulously analyzed the biological impacts of ornamental plants' exposure to electromagnetic fields (EMFs), especially those at high frequencies.
A research team has meticulously analyzed the transcriptional response of Impatiens walleriana to Plasmopara obducens infection, revealing between 3,000 and 4,500 differentially expressed transcripts at various stages of the disease.
A study has tapped into the peach genome, creating large-scale gene coexpression networks (GCNs) that predict gene functions and streamline the peach breeding process. This innovative approach addresses the complex task of identifying genes linked to desirable breeding traits in peaches.
A study introduces an automated machine learning (Auto-ML) model that predicts the freezing tolerance of grapevines in real-time, a critical advancement for sustainable grape production in cooler climates. This model leverages hourly temperature data and varietal specifics to forecast cold hardiness, a significant step towards precision viticulture.
Recent research has unveiled the genetic foundations of resistance in strawberries to Macrophomina, a formidable soilborne disease. Employing cutting-edge breeding strategies and genomic analysis, scientists have pinpointed crucial genetic loci responsible for resistance, heralding a new era of more robust strawberry varieties.
A recent study has unlocked the genetic secrets behind the sweetness of strawberries, a key factor in consumer preference. The research identifies key genetic markers that influence both the sugar content and yield of strawberries, offering a significant step forward in the breeding of sweeter, more productive varieties.
New genomic insights from researchers unveil critical genes influencing apple fruit size and shape. Through a comprehensive genome-wide association study, the study identifies several genetic markers linked to these traits, offering potential for enhanced breeding strategies.
A new study has uncovered a genetic treasure trove within the melon genome that could revolutionize the plant's defense against pests and diseases. Researchers have identified a cluster of genes that bestow resistance to both powdery mildew and aphids, two of the most devastating threats to melon crops worldwide.
Biotechnological innovation meets horticulture as researchers unveil a cutting-edge genome editing protocol for grapes. This novel technique, integrating protoplast culture with CRISPR-Cas9, facilitates the regeneration of non-chimeric, transgene-free plants across a spectrum of grape varieties.
Scientists have the first direct evidence that the powerful magnetic fields created in off-center collisions of atomic nuclei induce an electric current in “deconfined” nuclear matter. The study used measurements of how charged particles are deflected when they emerge from the collisions. The study provides proof that the magnetic fields exist and offers a new way to measure electrical conductivity in quark-gluon plasma.
A paper in the journal Science Advances describes how the moving parts of a particular plant protein control whether plants can grow and make energy-intensive products such as oil — or instead put in place a series of steps to conserve precious resources. The study focuses specifically on how the molecular machinery is regulated by a molecule that rises and falls with the level of sugar — plants’ main energy source.
Vaccines remain the gold standard of protection against dangerous pathogens, but take considerable time and vast resources to develop. Rapidly mutating viruses such as SARS-CoV-2 can blunt their effectiveness and even render them obsolete.
Dr. Karen K. Resendes, Associate Dean of Assessment and the First Year Experience, Professor of Biology at Westminster College (New Wilmington, PA), has been elected to serve as the Council on Undergraduate Research Board of Directors’ Treasurer for the membership year 2024-2025.
A research team from New Jersey Institute of Technology is uncovering mysteries surrounding fluids in nanoporous materials, and has been recently awarded a grant from the National Science Foundation (NSF) to support this research.
Professor LIM Chwee Teck, Director of the Institute for Health Innovation & Technology at the National University of Singapore (NUS iHealthtech), has been elected to the prestigious Fellowship of the Royal Society, in recognition of his invaluable contributions to science.
Scientists from the U.S. Department of Energy's Brookhaven National Laboratory have discovered that a protein responsible for the synthesis of a key plant material evolved much earlier than suspected. This new research explored the origin and evolution of the biochemical machinery that builds lignin, a structural component of plant cell walls with significant impacts on the clean energy industry.
Application data requirements vs. available network bandwidth has been the ongoing Battle of the Information Age, but now it appears that a truce is within reach, based on new research from NJIT Associate Professor Jacob Chakareski.
As communities are flooded with pickleball courts to satiate the hunger for the snack-named game, HOAs and city councils face litigation by those whose lives are disrupted by pickleball’s din. The sport is uniquely noisy due to the hard paddles and balls, and the popping sound the game produces is sharp and persistent. Charles Leahy used his legal expertise and mechanical engineering experience to investigate how communities respond to the pickleball problem. Leahy will present his findings and recommendations for limiting pickleball noise at the 186th ASA Meeting.
The deep-sea Venus flower basket sponge can filter feed using only the faint ambient currents of the ocean depths, no pumping required, new research reveals. This discovery of natural ‘“zero energy” flow could help engineers design more efficient chemical reactors, air purification systems, heat exchangers, hydraulic systems, and aerodynamic surfaces.
Researchers from NUS, together with industry partners Soitec and NXP Semiconductors, have demonstrated a new class of silicon systems that promises to enhance the energy efficiency of AI connected devices by leaps and bounds. These technological breakthroughs will significantly advance the capabilities of the semiconductor industry in Singapore and beyond.
Innovative Global Navigation Satellite System (GNSS) positioning technologies harness massive vehicle-generated data to create high-resolution atmospheric delay correction maps, significantly enhancing Global Positioning System (GPS) accuracy across varied spatial scales. This new method exploits real-time, crowd-sourced vehicle GNSS raw data, refining traditional GPS applications and presenting a cost-effective solution for precise positioning.
The Monell Chemical Senses Center welcomes Juyun Lim, PhD, as the newest addition to the faculty at Monell, starting in August, 2024. She is currently a Professor of Sensory Science and the Chair of the Graduate Program in the Department of Food Science and Technology at Oregon State University.
By: Bill Wellock | Published: May 16, 2024 | 3:36 pm | SHARE: The 2024 Atlantic hurricane season is approaching.The season runs from June 1 through November 30. This year’s forecast includes an above-average number of storms.Florida State University faculty are leaders in the study of hurricanes and ways to mitigate their destruction.
A team of scientists led by the Department of Energy’s Oak Ridge National Laboratory found an unconventional way to improve catalysts made of more than one material. The solution demonstrates a path to designing catalysts with greater activity, selectivity and stability.
A team of chemists from the University of Vienna, led by Nuno Maulide, has achieved a significant breakthrough in the field of chemical synthesis, developing a novel method for manipulating carbon-hydrogen bonds. This groundbreaking discovery provides new insights into the molecular interactions of positively charged carbon atoms.
Researchers at the UNC School of Medicine, UCSF, Stanford, and Harvard determined that a protein prediction technology can yield accurate results in the hunt to efficiently find the best possible drug candidates for many conditions.
Noise-canceling headphones automatically identify background sounds and cancel them out for much-needed peace and quiet. However, typical noise-canceling fails to distinguish between unwanted background sounds and crucial information, leaving headphone users unaware of their surroundings.
At the Toronto Pearson International Airport, airplane traffic dropped by 80% in the first few months of lockdown during the COVID-19 pandemic., and in early 2020, the NVH-SQ Research Group out of the University of Windsor surveyed residents living around the airport to gauge how their annoyance levels changed with the reduction in noise.
A new study conducted by a team of researchers from China and the UK provides crucial insights into the variation of dissolved organic matter (DOM) during the South-to-North Water Diversion in China and its implications for drinking water treatment.