New type of tiny wasp comes with mysterious, cloud-like structures at ends of antennae

Fossil researchers have discovered a novel genus and species of tiny wasp with a mysterious, bulbous structure at the end of each antenna.
Photo Credit: George Poinar Jr.

Fossil researchers have discovered a novel genus and species of tiny wasp with a mysterious, bulbous structure at the end of each antenna.

The female micro-wasp was described from 100-million-year-old Burmese amber in a study led by George Poinar Jr., who holds a courtesy appointment in the Oregon State University College of Science.

Poinar and Fernando Vega, an independent researcher based in Silver Spring, Maryland, have some ideas about the “clouds” on the antennae, but they don’t know for sure what they are.

“We could find no fossil or extant insect with such antennal structures,” said Poinar, an international expert in using plant and animal life forms preserved in amber to learn about the biology and ecology of the distant past. “We wondered how it could still fly with that weight.”

Increased Deep Sleep Benefits Your Heart

A study participant wears the deep sleep stimulation system.
Photo Credit: Stephanie Huwiler & Silvia Hofer / ETH Zurich

Stimulating the brain with gentle sounds during deep sleep significantly enhances cardiac function, according to a new study. This discovery could have implications not only for cardiovascular diseases but also for competitive sports, among other areas.

Sleep is a vital aspect of human life, with deep sleep being particularly crucial for overall health. The brain recovers during this sleep stage, and the rest of the body seems to regenerate then as well.

Recently, researchers at the University of Zurich and ETH Zurich have shown that increased deep sleep is of particular benefit to the cardiovascular system: targeted stimulation with brief tones during deep sleep causes the heart – in particular the left ventricle – to contract and relax more vigorously. As a result, it pumps blood into the circulatory system and draws it out again more efficiently. The left ventricle supplies most organs, the extremities, and the brain with oxygen-rich arterial blood.

When the heart contracts, the left ventricle is squeezed and wrung out like a wet sponge. The more immediate and more powerful this wringing action, the more blood enters the circulation and the less remains in the heart. This increases blood flow, which has a positive effect on the cardiovascular system.

Feather-tailed possums in New Guinea were originally Aussies: fossil study

The New Guinean feather-tailed possum, Distoechurus pennatus, never developed gliding.
Photo Credit: UNSW Sydney

Scientists have long known that the miniature feather-tailed possums in Australia and the island of New Guinea – members of the marsupial family Acrobatidae – were evolutionary cousins, but where they started their long evolutionary journey has been a bit of a mystery – until now.

According to recently published research in Alcheringa: An Australasian Journal of Paleontology, paleontologists from UNSW Sydney say the modern-day animals on either side of the Torres Strait came from common ancestors in Australia before diverging into their living gliding and non-gliding descendants, known as Acrobates pygmaeus in Australia and Distoechurus pennatus in New Guinea.

Professor Mike Archer from UNSW’s School of Biological Earth and Environmental Sciences says that in an analysis of extinct species found at Riversleigh World Heritage Area fossil deposits in north-western Queensland revealed that ancestors of both groups of possums were present in Australia by at least 25 million years ago.

“As Riversleigh started revealing its prehistoric treasures, we discovered four different species of feathertail possums, the first ‘deep-time’ fossil record known for the whole family,” he says.

Grinding tools play key role in food, plant and pigment processing during ‘Green Arabia’

Evidence of pigment processing at the Jebel Oraf site.
Photo Credit: Maria Guagnin and Michael Petraglia

A multi-institution study of the use-wear evidence on grinding tools excavated in the Nefud Desert of northern Saudi Arabia suggests a variety of practical uses from processing plants for baking bread and crushing bone to access marrow, offering fresh insights into a little understood chapter of the human story between 8,000 to 6,000 years ago. 

The PLOS ONE research, which was co-led by Griffith University’s Professor Michael Petraglia, was based on use-wear analysis on five grinding tools that he and the team excavated at Jebel Oraf, at the UNESCO site of the Jubbah Oasis, in the Nefud Desert of northern Saudi Arabia.  

Results show evidence for bone, plant and pigment processing in the Neolithic, and support previous research conducted by Professor Petraglia and the international team on painted rock art and faunal remains. 

Professor Petraglia, who is Director of Griffith’s Australian Research Centre for Human Evolution, said the use-wear analysis of the grinding tools from the Jebel Oraf site in the Nefud desert showed the artifacts were used during the Neolithic, shedding new light on the subsistence and lifestyle of ancient peoples in the region.  

Laser system to defend space assets from debris in Earth’s orbit

Earth’s lower orbit is filling up with junk that poses a threat to space assets. New WVU research explores whether space-based lasers can zap even tiny particles or large fields of debris off potential collision courses with objects like satellites or space stations.
Illustration Credit: Savanna Leech | West Virginia University

If West Virginia University research pays off, debris that litters the planet’s orbit and poses a threat to spacecraft and satellites could get nudged off potential collision courses by a coordinated network of space lasers.

Hang Woon Lee, director of the Space Systems Operations Research Laboratory at WVU, said a junkyard of human-made debris, including defunct satellites, is accumulating around Earth. The more debris in orbit, the higher the risk that some of that debris will collide with manned and unmanned space assets. He said he believes the best chance for preventing those collisions is an array of multiple lasers mounted to platforms in space. The artificial intelligence-powered lasers could maneuver and work together to respond rapidly to debris of any size.

Lee, an assistant professor in mechanical and aerospace engineering at the Benjamin M. Statler College of Engineering and Mineral Resources, is a 2023 recipient of NASA’s prestigious Early Career Faculty award for potentially breakthrough research. NASA is supporting Lee’s rapid-response debris removal study with $200,000 in funding per year for up to three years. 

Llamas Help Mitigate Effects of Climate Change

Photo Credit: Dr. Anais Zimmer

Introducing llamas (Llama glama) into land exposed by retreating glaciers can speed the establishment of stable soils and ecosystem formation, mitigating some of the harmful effects of climate change, according to experimental research conducted by scientists at The University of Texas at Austin and partner institutions in Peru.

“Glaciers are melting rapidly around the world, creating unstable and dangerous landscapes, acid rock drainage, and land rushes for mining that are disrespecting local and Indigenous land rights,” said Tim Beach, professor of geography and the environment and one of the paper’s authors. “The research shows that llamas, when managed by Indigenous herders, are accelerating soil fertility and plant succession.”

The study is published in Nature Scientific Reports.

Land exposed by glacial melting initially has low nutrient soil that is inhospitable to vegetation. Without intervention, these landscapes can take hundreds of years to stabilize.

Small doses of mushrooms can have a beneficial effect on mental disorders

"Liberty Cap" Psilocybin mushroom
Photo Credit: Ameruverse Digital Marketing Media

A new research result from the University of Southern Denmark opens the door to the possibility of using psilocybin, the active compound in mushrooms with psychedelic properties, as a therapeutic tool through microdosing.

Psilocybin has long been recognized as a classic psychedelic substance and has recently been investigated for its potential to assist in the treatment of various psychiatric disorders, primarily depression and addiction, through therapy supplemented with a high dose of psilocybin.

In such therapeutic treatment, the patient takes psilocybin after thorough therapeutic preparation and undergoes a psychedelic experience in a supportive environment with a trained therapist. Subsequently, the experience is integrated over several therapy sessions.

Experiments are being conducted with patients at hospitals, including Bispebjerg Hospital and Rigshospitalet.

Reducing fishing gear could save whales with low impacts to California’s crab fishermen

 Less gear in the water means fewer chances for Whales to become entangled.
Photo Credit E. Lyman/ NOAA Sanctuaries

Sometimes simple solutions are better. It all depends on the nature of the problem. For humpback whales, the problem is the rope connecting a crab trap on the seafloor to the buoy on the surface. And for fishermen, it’s fishery closures caused by whale entanglements.

Managing this issue is currently a major item on California’s agenda, and it appears less fishing gear may be the optimal solution. So says a team of researchers led by Christopher Free, at UC Santa Barbara, after modeling the benefits and impacts that several management strategies would have on whales and fishermen. Their results, published in the journal Biological Conservation, find that simply reducing the amount of gear in the water is more effective than dynamic approaches involving real-time monitoring of whale populations. There may even be solutions on the horizon that provide these benefits with fewer drawbacks.

“We were trying to figure out what types of management strategies would work best at reducing whale entanglements in the Dungeness crab fishery while also minimizing impacts to fishing,” said first author Free, a researcher at the university’s Marine Science Institute. “And what we found is that some of the simpler strategies, such as just reducing the amount of gear allocated to the fishermen, outperformed a lot of the more complex management strategies.”

How Tubular Bacterial Weapons Compromise Plant Cells to Cause Disease

An apple tree infected with fire blight reveals leaves that appear as if they were burned. HHMI Investigator Sheng Yang He and a team of researchers identified a plug-like molecule that could lead to new techniques to fight fire blight and other plant diseases.
Photo Credit: Sebastian Stabinger
(CC BY-SA 3.0.)

Some bacteria attack crops by delivering proteins that puncture the plant’s cell membranes, according to new research that explains the long-sought mechanism by which pathogens can release water within plant tissues, causing devastating infections.

In experiments first described in a preprint on bioRxiv and later published in Nature, a team led by plant microbiologist Sheng Yang He went a step further and found a way to block the holes the microbes make. Their research identified a plug-like molecule that showed potential for controlling diseases including fire blight, which can kill off apple and pear trees, leaving orchards looking as if they were burned.

“For 25 years, my lab and others have been trying to understand exactly how these bacterial proteins manipulate water within leaves,” says He, a Howard Hughes Medical Investigator at Duke University. “Now we have an answer: They open up channels through which water can move, disrupting plants’ internal water balance.”

Researchers have searched for this kind of detailed insight in hopes of opening the door to improved ways for fighting plant disease. Usually making such a connection can take years, if it is possible at all. However, He and his colleagues capitalized on this discovery quickly — using the dimensions of the pores to identify molecules perfectly sized for blocking them and protecting plants.

New dog, old tricks: New AI approach yields ‘athletically intelligent’ robotic dog

A doglike robot can navigate unknown obstacles using a simple algorithm that encourages forward progress with minimal effort.

Video Credit: Shanghai Qi Zhi Institute/Stanford University

With a simplified machine learning technique, AI researchers created a real-world “robodog” able to leap, climb, crawl, and squeeze past physical barriers as never before.

Someday, when quakes, fires, and floods strike, the first responders might be packs of robotic rescue dogs rushing in to help stranded souls. These battery-powered quadrupeds would use computer vision to size up obstacles and employ doglike agility skills to get past them.

Toward that noble goal, AI researchers at Stanford University and Shanghai Qi Zhi Institute say they have developed a new vision-based algorithm that helps robodogs scale high objects, leap across gaps, crawl under thresholds, and squeeze through crevices – and then bolt to the next challenge. The algorithm represents the brains of the robodog.

“The autonomy and range of complex skills that our quadruped robot learned is quite impressive,” said Chelsea Finn, assistant professor of computer science and senior author of a new peer-reviewed paper announcing the teams’ approach to the world, which will be presented at the upcoming Conference on Robot Learning. “And we have created it using low-cost, off-the-shelf robots – actually, two different off-the-shelf robots.”