The first look at how rabies affects vampire bat social behavior

Researchers said no previous studies had tried to quantify changes in grooming habits in vampire bats infected with rabies – despite the possibility that they might infect each other through the licking and chewing that constitute the grooming behavior they engage in for up to 5% of their active time in the roost.
Photo credit: Rachel Moon

Vampire bats infected with the rabies virus aren’t likely to act stereotypically “rabid,” according to a new study – instead, infected male bats tended to withdraw socially, scaling back on the common habit of grooming each other before they died of the disease.

The study was the first to observe how rabies affects vampire bat social behavior, and one of only a few research efforts to understand how rabies infection impacts behavior in one of the species most responsible for causing rabies outbreaks in humans and livestock in Latin America. The virus is typically transmitted to other species by direct contact between vampire bats’ infected saliva and the broken skin of the livestock or other animals (and, rarely, humans) they bite to feed on blood.

In the roost, vampire bats might infect each other through the licking and chewing that constitute the grooming behavior they engage in for up to 5% of their active time, said Gerald Carter, senior author of the study and assistant professor of evolution, ecology and organismal biology at The Ohio State University.

Supercomputing and 3D printing capture the aerodynamics of F1 cars

A photo of the 3D color printed McLaren 17D Formula One front wing endplate. The colors visualize the complex flow a fraction of a millimeter away from the wing's surface.
Photo credit: KAUST

In Formula One race car design, the manipulation of airflow around the car is the most important factor in performance. A 1% gain in aerodynamics performance can mean the difference between first place and a forgotten finish, which is why teams employ hundreds of people and spend millions of dollars perfecting this manipulation.

Of special interest is the design of the front wing endplate, which is critical for the drag and lift of the car. Dr. Matteo Parsani, associate professor of applied mathematics and computational science at King Abdullah University of Science and Technology (KAUST), has led a multidisciplinary team of scientists and engineers to simulate and 3D color print the solution of the McLaren 17D Formula One front wing endplate. The work is the result of a massively high-performance computing simulation, with contributing expertise by research scientist Dr. Lisandro Dalcin of the KAUST Extreme Computing Research Center (ECRC), directed by Dr. David Keyes, and also the Advanced Algorithm and Numerical Simulations Lab (AANSLab), and Prototyping and Product Development Core Lab (PCL).

Creating diamonds to shed light on the quantum world

Sandia National Laboratories’ Andy Mounce makes microscopic sensors to try to understand quantum materials at the Center for Integrated Nanotechnologies. He is one of four employees to earn DOE’s Early Career Research Award.
Photo credit: Bret Latter

Diamonds are a scientist’s best friend. That much is at least true for physicist Andy Mounce, whose work with diamond quantum sensors at Sandia National Laboratories has earned him the DOE’s Early Career Research Award.

As a scientist in Sandia’s Center for Integrated Nanotechnologies, he specializes in making microscopic sensors to try to understand the nature of quantum materials and their electrons’ behavior. Mounce is an expert in creating nitrogen-vacancy defects in artificial diamonds, which are extremely sensitive to the electric and magnetic fields at a nanoscale.

“With these quantum sensors we can study basic properties of low dimensional quantum materials, such as superconducting phases, magnetic phases,” he said. “A quantum material can be anything from a nanostructure to a large material that just has electrons that interact with each other very strongly. The distinguishing property of a quantum material, is that their behavior is defined by quantum mechanics, so not your typical copper conductor”.

A new study explains the relationship between diabetes and urinary tract infections

The picture shows large lumps of E. coli (in red) that infects the bladder of a mouse with diabetes.
 Photo: Soumitra Mohanty

Reduced immune systems and recurrent infections are common in type 1 and type 2 diabetes. Now researchers at Karolinska Institutet show that people with diabetes have lower levels of the antimicrobial peptide psoriasis, which is part of the body's immune system, which impacts the leaves' cell barrier with increased risk of urinary tract infection. The study is published in Nature Communications.

Diabetes is due to insulin deficiency or reduced insulin sensitivity. The hormone insulin regulates glucose (sugar) and thus energy to the body's cells. In people with type 1 diabetes, the body has stopped making insulin and in type 2 diabetes, cells have become less sensitive to insulin, which contributes to high blood glucose levels. Diabetes is a common disease that affects health in several ways.

Among other things, the innate immune system determinants and many get recurrent infections, such as urinary tract infections caused by E. colibacteria. In people with diabetes, there is an increased risk that these will lead to general blood poisoning, sepsis, which is based on the urinary tract.

New method for measuring high energy density plasmas and facilitating inertial confinement fusion

Physicist Sophia Malko with figures from her ion-stopping paper.
Photo credit: Valeria Ospina-Bohorquez; collage by Kiran Sudarsanan

An international team of scientists has uncovered a new method for advancing the development of fusion energy through increased understanding of the properties of warm dense matter, an extreme state of matter similar to that found at the heart of giant planets like Jupiter. The findings, led by Sophia Malko of the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL), detail a new technique to measure the “stopping power” of nuclear particles in plasma using high repetition-rate ultraintense lasers. The understanding of proton stopping power is particularly important for inertial confinement fusion (ICF).

Powering the sun and stars

This process contrasts with the creation of fusion at PPPL, which heats plasma to million-degree temperatures in magnetic confinement facilities. Plasma, the hot, charged state of matter composed of free electrons and atomic nuclei, or ions, fuels fusion reactions in both types of research, which aim to reproduce on Earth the fusion that powers the sun and stars as a source of safe, clean and virtually limitless energy to generate the world’s electricity.

“Stopping power” is a force acting on charged particles due to collisions with electrons in the matter that result in energy loss. “For example, if you don’t know the proton stopping power you cannot calculate the amount of energy deposited in the plasma and hence design lasers with the right energy level to create fusion ignition,” said Malko, lead author of a paper that outlines the findings in Nature Communications. “Theoretical descriptions of the stopping power in high-energy density matter and particularly in warm dense matter are difficult, and measurements are largely missing,” she said. “Our paper compares experimental data of the loss of proton energy in warm dense matter with theoretical models of stopping power.”

Fossil eggs show dinosaur decline before extinction

Artist’s depiction of Late Cretaceous oviraptorosaurs, hadrosaurs, and tyrannosaurs living in central China
Credit: IVPP 

Nearly 66 million years ago, a large asteroid hit Earth and contributed to the global extinction of dinosaurs, leaving birds as their only living descendants.

Scientists know that a wide variety of dinosaurs lived around the world at the end of the Cretaceous period just before their extinction. However, scientists have debated whether dinosaurs were at their zenith or already in decline prior to their demise. In other words, did dinosaurs go out with a bang or a whimper?

Researchers from the Institute of Vertebrate Paleontology and Paleoanthropology (IVPP) of the Chinese Academy of Sciences, along with their collaborators, now have an answer. They've found evidence to support the hypothesis that dinosaurs were not very diverse before their extinction and had declined overall during the last part of the Cretaceous.

Their findings were published in PNAS on Sept. 19.

Most of the scientific data on the last days of the dinosaurs comes from North America. Although some published studies suggest that dinosaur populations there were thriving quite well before extinction, other more detailed research has suggested that dinosaurs were instead in decline, which set the stage for their eventual mass extinction.

Statin use is not justified for healthy people with high cholesterol

Professor David Diamond, Department of Psychology
Credit: University of South Florida

About 40 million adults in the United States regularly take statins to lower their cholesterol levels and reduce their risk of heart disease and stroke, according to American Heart Association data from 2020.

However, many of them don’t stand to benefit from these drugs based on new research from David Diamond, a neuroscientist and cardiovascular disease researcher in the Department of Psychology at the University of South Florida.

Diamond and his co-authors reviewed literature from medical trials involving patients taking either a statin or placebo. They then narrowed their review to look at study participants with elevated levels of low-density lipoprotein-cholesterol (LDL), the so-called “bad cholesterol,” which can be reduced with a statin. Some individuals with high LDL also had high triglycerides (fat in the blood) and low high-density lipoprotein (HDL), the “good cholesterol,” which put them at the highest risk of having a heart attack.

But others with high LDL were very different. They had low triglycerides and high HDL, which meant they were healthier. People with optimal triglycerides and HDL levels typically exercise, have low blood pressure and low blood sugar, and are at a low risk of a heart attack.

Diamond and his co-authors asked two questions: If people are at a low risk of a heart attack based on having optimal triglycerides and HDL, but they also have high LDL, does that raise their risk? Further, would these people benefit from lowering their LDL with a statin?

Elusive atmospheric wave detected during Tonga volcanic eruption

Satellite image of Tonga volcanic eruption, 2022.
Photo credit: NASA Worldview, NOAA / NESDIS / STAR

The catastrophic eruption of the Hunga Tonga–Hunga Haʻapai volcano in 2022 triggered a special atmospheric wave that has eluded detection for the past 85 years. Researchers from the University of Hawaiʻi at Mānoa, Japan Agency for Marine–Earth Science and Technology (JAMSTEC), and Kyoto University relied on state-of-the-art observational data and computer simulations to discover the existence of Pekeris waves—fluctuations in air pressure that were theorized in 1937 but never proven to occur in nature, until now.

The study was published in the Journal of the Atmospheric Sciences.

The eruption in the South Pacific earlier this year released what was likely the most powerful explosion the world has experienced since the famous 1883 eruption of Mt. Krakatau in Indonesia. The rapid release of energy excited pressure waves in the atmosphere that quickly spread around the world.

The atmospheric wave pattern close to the eruption was quite complicated, but thousands of miles away the disturbances were led by an isolated wave front traveling horizontally at more than 650 miles per hour as it spread outward. The air pressure perturbations associated with the initial wave front were seen clearly on thousands of barometer records throughout the world.

Laser light offers new tool for treating bone cancer

Left: An image of cancerous tissue prepared with the traditional hematoxylin and eosin (H&E) staining method. Right: An image of cancerous tissue prepared with the UV-PAM method. The results are very similar to those produced with the H&E method, but are ready much faster.
Credit: Caltech

Label-free intraoperative histology of bone tissue via deep-learning-assisted ultraviolet photoacoustic microscopy of the many ways to treat cancer, the oldest, and maybe most tried and true, is surgery. Even with the advent of chemotherapy, radiation therapy, and more experimental treatments like bacteria that seek and destroy cancer cells, cancers, very often, simply need to be cut out of a patient's body.

The goal is to remove all of the cancerous tissue while preserving as much of the surrounding healthy material as possible. But because it can be difficult to draw a clean line between cancerous and healthy tissues, surgeons often err on the side of caution and remove healthy tissue to make sure they have taken out all of the cancerous tissue.

This is especially problematic when a patient is suffering from a cancer that afflicts bones; bones present unique challenges during surgery because of how hard they are compared with other tissues and because they grow back much more slowly than other kinds of tissue.

Endangered Mouse Study Shares No-Contact Sampling Method

A salt marsh harvest mouse walks across the bulrush at Grizzly Island Wildlife Area in San Francisco.
 Credit: Cody Aylward/UC Davis

From species of marmots to moles, shrews and mice, many of the world’s endangered mammals are small. Genetic sampling is important for understanding how to conserve and protect their populations. But finding efficient, noninvasive ways to collect genetic samples from small animals can be challenging.

A study from the University of California, Davis, describes a new, noninvasive genetic survey technique for the endangered salt marsh harvest mouse, which lives solely within the tidal marshes of the San Francisco Bay Estuary.

In larger mammals, scientists often collect samples from scat, but the poop of small animals can be so small that it is difficult to detect in the wild.

The new technique, published in the Journal of Mammalogy, uses a combination of bait stations and genetics to sample and identify salt marsh harvest mice, or “salties” as researchers affectionately call them. The species has lost more than 90% of its habitat to development and is also threatened by rising sea levels. That’s why it is imperative that the remaining populations are identified accurately and efficiently, the authors note.