Australopithecus deyiremeda, an ancestor of the human species discovered in Ethiopia, was bipedal and climbed trees

Professor Lluís Gibert, from the University of Barcelona, is the only expert from a European institution participating in an international study based on the analysis of the bones of a fossilized foot and teeth that has revealed how Australopithecus deyiremeda, a human ancestor that coexisted more than three million years ago with Australopithecus afarensis — the famous Lucy — on the plains of East Africa, moved and fed.
Photo Credit: Courtesy of University of Barcelona

In 2009, scientists found eight bones from the foot of a human ancestor in layers of ancient sediment at the Woranso-Mille site in the central Afar region of Ethiopia. The fossil remains, known as the Burtele Foot, were discovered by a team led by paleoanthropologist Yohannes Haile-Selassie, from Arizona State University (United States), but were not assigned to any fossil species of a human ancestor from the African continent.

A study now published in the journal Nature and led by Haile-Selassie solves the mystery and reveals that Burtele Foot belongs to the species Australopithecus deyiremeda, a new hominid fossil discovered years ago by the researcher’s team at the Woranso-Mille site (Nature, 2015). Thus, the study of this fossil foot — dated to about 3.4 million years ago — reveals that A. deyiremeda was an Australopithecus that walked on two limbs (bipedalism) and also lived in trees, as indicated by the presence of a prehensile big toe like that of chimpanzees. 

The international team of experts includes Professor Lluís Gibert, from the Faculty of Earth Sciences of the University of Barcelona, who is the only researcher from a European institution to sign the study. Geological analyses were decisive for dating and linking this foot to the remains of A. deyiremeda. 

Possible therapeutic approach to treat diabetic nerve damage discovered

Longitudinal sections of two injured nerves with regenerating nerve fibers. Both specimens are from diabetic animals; in the lower image, the animal was treated with a peptide. Regeneration can be seen in the green-stained nerve fibers.
Image Credit: Dietmar Fischer / University of Cologne

Researchers have decoded the signaling pathway that inhibits nerve regeneration in diabetes and have developed a therapeutic peptide that could transform the treatment—and possibly even the prevention—of diabetic nerve damage. 

Nerve damage is one of the most common and burdensome complications of diabetes. Millions of patients worldwide suffer from pain, numbness, and restricted movement, largely because damaged nerve fibers do not regenerate sufficiently. The reasons for this are unclear. A research team led by Professor Dr Dietmar Fischer, Professor of Pharmacology at the University of Cologne’s Faculty of Medicine, and Director of the Center for Pharmacology at University Hospital Cologne, has now identified a central mechanism that explains limited regeneration in diabetes. Building on this, the researchers have developed a promising therapeutic approach that can be used to increase regeneration. Their findings were published in the ‘Science Translational Medicine’ journal under the title ‘Failure of nerve regeneration in mouse models of diabetes is caused by p35-mediated CDK5 hyperactivity’.

Researchers Warn: Climate Change Could Expand Habitats for Malaria Mosquitoes

“Our climate scenarios show that we can prevent much of this by limiting climate change.," says lead author of the study, Tiem van der Deure.
Illustration Credit: University of Copenhagen

An insistent buzzing at sunset followed by itchy, spotted legs. Here in Denmark, mosquitoes are mostly an annoying – but generally harmless – nuisance. That is far from the case in many parts of the world. 

Every year, around 600,000 people die from malaria, a mosquito-borne disease – most of them in sub-Saharan Africa, and children are the most vulnerable. This makes malaria one of the deadliest infectious diseases globally. 

A new study from the University of Copenhagen, published in Global Change Biology, shows that future climate change could create more favorable conditions for malaria mosquitoes, exposing millions of people across large parts of Africa to more dangerous mosquito bites.  

Coffee linked to slower biological ageing among those with severe mental illness – up to a limit

Photo Credit: Julia Florczak

New research from King’s College London finds that coffee consumption within the NHS recommended limit is linked to longer telomere lengths – a marker of biological ageing – among people with bipolar disorder and schizophrenia. The effect is comparable to roughly five years younger biological age. 

Telomeres are structures that protect DNA. As people get older, their telomeres shorten as part of the natural human ageing process. This process has been shown to be accelerated among people with severe mental illness, such as bipolar disorder and schizophrenia, who have an average life expectancy 15 years shorter than the general population. 

Previous research shows that coffee has health benefits. It may reduce oxidative stress in the general population, helping slow biological ageing processes like telomere shortening. The new study, published in BMJ Mental Health, explores whether coffee consumption could slow this ageing process among those with severe mental illness. 

Seal milk more refined than breast milk

The Atlantic grey seal nurses its young for only 17 days. This means that the milk must be packed with good stuff to quickly prepare the seal pup for a tough life at sea. Researchers have analysed seal milk and discovered many new types of milk sugar.
Photo Credit: Patrick Pomeroy / contributing author

Researchers have discovered that milk from grey seals in the Atlantic Ocean may be more potent than breast milk. An analysis of seal milk found approximately 33 per cent more sugar molecules than in breast milk. Many of these sugars are unique and may pave the way for even better infant formulas for babies. 

During the 17 days that grey seal pups suckle, they need to get their digestive systems up and running and build up an immune system to protect them against diseases and other dangers they may encounter in the North Atlantic. It is reasonable to suspect that their mother's milk is extremely refined to accomplish this task. An international study with researchers from the University of Gothenburg and Chalmers University of Technology in Nature Communications shows that this is indeed the case. 

“Our analysis shows that grey seal milk is extraordinary. We identified 332 different sugar molecules, or sugars, compared to about 250 in breast milk. Two-thirds were completely unknown previously. Some of these molecules had a previously unseen size of 28 sugar units, which exceeds the largest known sugar units in breast milk, which are 18 units in size,” says Daniel Bojar, senior lecturer in bioinformatics at the University of Gothenburg. 

Over half of global coastal settlements are retreating inland due to intensifying climate risks

Hurricane Florence moved toward the U.S. East Coast as it intensified to a Category 4 storm, with one-minute sustained winds of 130 mph Monday September 10, 2018. This image, captured by the GOES East satellite at 10:00 am ET, showed Florence in the western Atlantic, about 600 miles southeast of Bermuda, at Category 3 intensity. The storm had developed a small but well-defined eye and a symmetrical appearance typical of major hurricanes that are rapidly intensifying.
Image Credit: NOAA

For centuries, coastlines have attracted dense human settlement and economic activity. Today, more than 40 percent of the global population lives within 100 kilometers of the coast, facing accelerating sea-level rise, coastal erosion, flooding, and tropical cyclones. 

Although moving away from the coast - known as “retreat” - is often viewed as an adaptive strategy, its global extent and drivers have remained unclear. A new study published in Nature Climate Change fills this gap by providing the first global evidence that coastal retreat is driven more by social and infrastructural vulnerability than by historical exposure to hazards. 

The study was conducted by an international team led by researchers from Sichuan University and included remote sensing experts from the University of Copenhagen (Alexander Prishchepov and Shengping Ding, IGN). It maps settlement movements across 1,071 coastal regions in 155 countries. By integrating nighttime light observations with global socioeconomic datasets, the researchers found that 56% of coastal regions have retreated from the coast from 1992 to 2019, and 16% of regions, including the Copenhagen area in Denmark, have moved closer to the coast, while 28% have remained stable. 

New study shows why some minds can’t switch off at night

Photo Credit: Cottonbro Studio

Australian researchers have found compelling evidence that insomnia may be linked to disruptions in the brain’s natural 24-hour rhythm of mental activity, shedding light on why some people struggle to ‘switch off’ at night. 

Published in Sleep Medicine, the study led by the University of South Australia (UniSA) is the first to map how cognitive activity fluctuates across the day in individuals with chronic insomnia, compared to healthy sleepers. 

Insomnia affects about 10% of the population, and up to 33% of older adults, with many reporting an overactive or ‘racing’ mind at night. 

While this has long been linked to cognitive hyperarousal, it has remained unclear where these thought patterns stem from. 

After nearly 100 years, scientists may have detected dark matter

Gamma-ray image of the Milky Way halo (with details).
Gamma-ray intensity map excluding components other than the halo, spanning approximately 100 degrees in the direction of the Galactic center. The horizontal gray bar in the central region corresponds to the Galactic plane area, which was excluded from the analysis to avoid strong astrophysical radiation.
 Image Credit: ©2025 Tomonori Totani, The University of Tokyo

In the early 1930s, Swiss astronomer Fritz Zwicky observed galaxies in space moving faster than their mass should allow, prompting him to infer the presence of some invisible scaffolding — dark matter — holding the galaxies together. Nearly 100 years later, NASA’s Fermi Gamma-ray Space Telescope may have provided direct evidence of dark matter, allowing the invisible matter to be “seen” for the very first time.

Dark matter has remained largely a mystery since it was proposed so many years ago. Up to this point, scientists have only been able to indirectly observe dark matter through its effects on observable matter, such as its ability to generate enough gravitational force to hold galaxies together. The reason dark matter can’t be observed directly is because the particles that make up dark matter don’t interact with electromagnetic force — meaning dark matter doesn’t absorb, reflect or emit light.

Immunology: In-Depth Description

Image Credit: Scientific Frontline / AI generated

Immunology is the branch of biomedical science concerned with the structure, function, and disorders of the immune system—the complex network of cells, tissues, and organs that protect an organism from foreign invaders. Its primary goal is to understand how biological systems identify and eliminate pathogens (such as bacteria, viruses, fungi, and parasites) while maintaining tolerance for the body's own healthy tissue (distinguishing "self" from "non-self").

Flowering discovery could lead to more reliable mungbean yields

Mungbean flowers at UQ Gatton.
Photo Credit: Megan Pope

New breeding opportunities for an important cash crop have been unlocked by University of Queensland and Grains Research and Development Corporation (GRDC)-supported research. 

Queensland Alliance of Agriculture and Food Innovation PhD candidate Caitlin Dudley, supported by a GRDC Research Scholarship, has revealed key insights about mungbean flowering through extensive field trials. 

“Our research found that when mungbean flowers, and how long they flowers, are independent traits with distinct genetic controls,” Ms Dudley said. 

“That’s important to know because it opens opportunities for breeders to optimize flowering time to improve yield for specific growing environments.