Tuesday, July 25, 2023

 

Pioneering research: Non-invasive brain stimulation with superior accuracy


ERC Consolidator Grant for Charité neuroscientist Surjo Soekadar


Grant and Award Announcement

CHARITÉ - UNIVERSITÄTSMEDIZIN BERLIN

Prof. Surjo R. Soekadar 

IMAGE: PROF. SURJO R. SOEKADAR © CHARITÉ | WIEBKE PEITZ view more 

CREDIT: © CHARITÉ | WIEBKE PEITZ




Prof. Surjo Soekadar, Einstein Professor of Clinical Neurotechnology at Charité – Universitätsmedizin Berlin, works in the field of advanced technologies for brain stimulation and brain-computer interfaces. He and his team develop and test systems that enable communication between the brain and external devices. Applications for these technologies include ways for severely paralyzed patients to control exoskeletons using their thoughts alone. Still, these systems are reaching their limits, and areas of the brain located deeper inside the skull are difficult to reach. Now, researchers hope to change that with a new generation of these interfaces that are equipped with high-resolution sensors and use a highly effective stimulation method. The European Research Council (ERC) is providing about two million euros in funding over the next five years to support these efforts.

Brain-computer interfaces (BCIs) work based on the electrical fields generated by the brain itself, which can be measured through the scalp. BCIs use this information to translate brain activity into signals to control external devices, such as prostheses, robots, and exoskeletons. This method can allow people with severe paralysis to move or communicate. There are also “bidirectional” BCIs, which can deliver targeted electrical stimulation to prompt brain activity, thereby simulating the perception of touch when a person controls a prosthesis, for example. BCI systems are medically useful in areas such as neurological rehabilitation, where they can be used for goals like restoring the ability to communicate or move in people with the severest forms of paralysis.

Broadening the range of treatments involving BCIs

Soekadar is on a mission to improve quality of life for people with neurological and psychiatric diseases and disorders. He has been in charge of the Research Section Translation and Neurotechnology and the Clinical Neurotechnology Laboratory at the Department of Psychiatry and Neurosciences at Campus Charité Mitte for five years now. Soekadar recognized the therapeutic potential of BCI systems early on. In addition to restoring sensorimotor functions, the goal now is to use BCIs to treat psychiatric disorders. Soekadar plans to use the new funds provided by the European Research Council to overcome significant hurdles on the path to safe and effective bidirectional brain-computer interfaces that are noninvasive.

Arguably the biggest of these impediments is the human skull itself. When brain activity is measured from outside the bones through methods such as electroencephalography (EEG), BCI accuracy has been limited so far. But implanting electrodes or sensors into the skull is a laborious and high-risk process. Soekadar’s team is looking for alternatives. They are currently testing the use of quantum sensors, a type of ultra-precise sensor which can measure brain activity on the surface of the head with significantly greater accuracy than EEG and other non-invasive methods. With support from the Einstein Foundation Berlin and in cooperation with the Physikalisch-Technische Bundesanstalt (PTB), Germany’s national metrology institute, and Technische Universität Berlin (TU Berlin), a prototype version of this kind of quantum BCI has already been created. The high-tech sensors are based on gaseous atoms that work as magnetic field probes, responding to electrical signals generated by the brain. These are known as optically pumped magnetometers (OPMs).


The principle behind the novel bidirectional brain-computer interface: Quantum sensors measure brain activity with superior accuracy while areas of the brain close to the surface or located deeper within the brain are stimulated using interfering magnetic fields. © Charité | Larissa Bulavina and Surjo Soekadar

CREDIT

© Charité | Larissa Bulavina and Surjo Soekadar



World’s first non-invasive bidirectional brain-computer interface

Even with the rapid advances being made in neurotechnology, there is not yet a bidirectional BCI based on non-invasive methods – that is, techniques that do not require any surgical intervention. There are two reasons for this. One is the sensitivity required of the sensors, and the other is the strength of the stimulation needed to reach the brain through the bones of the skull. Other signals arising in the process can interfere, making it impossible to measure and interpret brain signals reliably, at least so far. “This is exactly the problem we aim to solve,” Soekadar explains. “Here at Charité, we plan to develop the world’s first bidirectional brain-computer interface based on quantum sensors and a method called temporal interference magnetic stimulation, or TIMS for short, a highly effective form of neurostimulation. Our aim is to make this system accessible to alleviate symptoms of psychiatric disorders such as depression.”

TIMS, the novel brain stimulation method, is to play a key role in this. TIMS is based on overlapping magnetic fields that reinforce or attenuate each other. Soekadar’s research team established the principle in their work under a previous ERC Starting Grant and then built a prototype with support from the SPARK-BIH innovation program. Now, as part of the upcoming BNCI2 ERC Consolidator Grant project, plans call for expanding on the prototype and ultimately combining it with the quantum BCI. “This combination is set to unlock a wide range of possibilities for both research and clinical applications,” Soekadar says. For example, it should make it possible to stimulate activity in even deeper areas of the brain, depending on certain brain states.

Using high-resolution quantum sensors should also allow for a level of measurement accuracy that was previously only available with invasive methods. “We hope to use the system to identify patterns of activity in the brain that are responsible for producing certain clinical symptoms. Then, as the second step, we plan to target these symptoms through a closed-loop neuromodulation,” Soekadar explains. Because the system is a non-invasive one, it will be available for broad clinical use, achieving lasting improvement in quality of life for many patients. At the same time, there are ethical challenges and cybersecurity aspects to navigate as the researchers forge ahead into previously unknown dimensions of therapeutic neuromodulation.


Prof. Surjo R. Soekadar
After studying medicine at Johannes Gutenberg University Mainz, Ruprecht Karls University Heidelberg, and University of Maryland / Johns Hopkins University in Baltimore (USA), Surjo Soekadar earned his doctorate at the Central Institute of Mental Health (CIMH) in Mannheim in 2005. He went on to complete his residency in psychiatry and psychotherapy at the University Hospital for Psychiatry and Psychotherapy in Tübingen and spent three years as a visiting fellow at the National Institute of Neurological Disorders and Stroke (NINDS) in Bethesda, Maryland. After returning to Tübingen, Soekadar became the head of the Applied Neurotechnology Research Group and completed the habilitation process in 2017. In 2018, he was appointed to serve as Germany’s first professor of clinical neurotechnology at Charité – Universitätsmedizin Berlin, with support from the Einstein Foundation Berlin.

ERC Consolidator Grant
ERC Consolidator Grants are designed to support excellent Principal Investigators who are pursuing groundbreaking research in Europe at the career stage at which they may still be consolidating their own independent research team. The program is aimed at researchers who have completed a doctorate seven to 12 years in the past. Consolidator Grants are awarded by the European Research Council (ERC) as part of the Horizon Europe initiative. Each project receives about two million euros in funding for a five-year term.


 

Fengyun-4A satellite and machine learning model advance solar photovoltaic resource mapping in China


China's pursuit of carbon neutrality gets a boost with Fengyun-4A satellite and machine learning model


Peer-Reviewed Publication

INSTITUTE OF ATMOSPHERIC PHYSICS, CHINESE ACADEMY OF SCIENCES

FY-4A 

IMAGE: FY-4A IS THE FIRST OF THE LATEST GENERATION OF CHINESE GEOSTATIONARY SATELLITES. view more 

CREDIT: NATIONAL SATELLITE METEOROLOGICAL CENTER, CHINA METEOROLOGICAL ADMINISTRATION




China's commitment to achieving carbon neutrality takes a significant step forward with the successful collaboration between the Institute of Atmospheric Physics, Chinese Academy of Sciences (IAP/CAS), Harbin Institute of Technology (HIT) and the National Satellite Meteorological Center (MSMC) of China Meteorological Administration. Together, they have made notable progress in solar resource assessment, a critical element for utilizing photovoltaic (PV) energy efficiently.

Utilizing data from the Advanced Geostationary Radiation Imager onboard the Fengyun-4A (FY-4A) satellite, a random forest model, and a physical model chain that converts irradiance to PV power, the team has generated a detailed PV resource map, shedding new light on China's solar energy potential.

FY-4A, the first of the latest generation of Chinese geostationary satellites, significantly enhances solar resourcing and forecasting with its high-resolution capabilities. GAO Ling from NSMC explains that the satellite's wider field-of-view has improved the reliability of the current solar radiation product over China compared to using measurements from Himawari or Meteosat satellites, especially towards the edge of the satellite disk.

Prof. XIA Xiang'ao, the corresponding author from IAP/CAS, explains that their work goes beyond conventional global horizontal irradiance (GHI) approaches used in most studies; the team's research extends to effective irradiance, a crucial factor for precise solar resource assessment for PV applications. 

 

This extension, from irradiance resourcing to PV resourcing, is thought to be a defining characteristic of the latest energy-meteorology-style of solar resource assessment, said HIT professor YANG Dazhi, the co-corresponding author of the paper.

Indeed, what sets this research apart is the integration of a highly advanced workflow known as the physical model chain. By leveraging a sequence of energy meteorology models in cascade, the team achieves remarkably accurate estimates of in-plane irradiance. This innovative approach holds profound implications for the future of solar resource assessment.

The solar PV resource map resulting from this collaborative research is of immense value to stakeholders involved in designing, planning, and operating solar energy systems. The comprehensive insights into China's solar energy landscape empower decision-makers to make informed choices for a sustainable and green energy future.

The research findings were published in the journal Renewable and Sustainable Energy Reviews. The first author of the paper is Dr. SHI Hongrong from IAP/CAS.

As China progresses towards carbon neutrality, the successful combination of advanced technology and pioneering research embodied by the FY-4A satellite and AI model sets a new standard for solar resource mapping, inspiring positive change in the global pursuit of renewable energy.

Satellite coverage

 

European project to develop 6G network architecture to improve communications performance and capabilities


Business Announcement

UNIVERSIDAD CARLOS III DE MADRID

DESIRE6G 

IMAGE: EUROPEAN PROJECT TO DEVELOP 6G NETWORK ARCHITECTURE TO IMPROVE COMMUNICATIONS PERFORMANCE AND CAPABILITIES view more 

CREDIT: DESIRE6G




The Universidad Carlos III de Madrid (UC3M) is participating in a European research project for the creation of autonomous communications networks, which are faster, more reliable and more efficient than current 5G networks in order to meet the demands of the new generation of applications. The research team is developing a control and management platform without human intervention.

5G networks are currently being deployed commercially. However, the increasing demands of the digital age require performance conditions that are not met by current systems. The challenge for the next generation of mobile communications is to allow advanced uses in a simpler and more autonomous way than current 5G.

"Future applications are expected to demand much more bandwidth, as well as much lower and bounded latencies [i.e., they demand immediacy]. The applications include autonomous vehicles, spatial computing and augmented reality," says Carlos Bernardos, a lecturer from UC3M's Telematics Engineering Department and a project researcher.

Due to this requirement, the European consortium that makes up the DESIRE6G project will design and develop a contactless organisation, management and control platform through native integration of artificial intelligence, to support the requirements of extreme URLLC applications (i.e. requiring ultra-fast and reliable communications).

"The project's developments will allow applications such as autonomous driving, industrial robotics, spatial computing or augmented reality to be viable and more efficient. With current technologies, these examples of applications are directly unfeasible or have fields of use which are limited to a narrow set of cases," Bernardos says. Furthermore, this new network architecture is also expected to reduce energy consumption. "Reducing the energy consumption and carbon footprint of communications networks is a growing concern due to the importance of networks in today's multi-level society."

To achieve this goal, the research team is using terahertz communication, artificial intelligence and machine learning to design new hardware and software components that will be the basis of the new wireless communication system. The system to be developed will be tested in two scenarios using extended reality and a digital twin application (a virtual replica of a product to efficiently adapt new solutions to the real product).

The DESIRE6G project is a three-year project (from January 2023 to December 2025) and is funded by the European Commission's Horizon Europe program (GA 101096466). The consortium is made up of 14 partners including universities, technology-based SMEs and other industry-related organisations: University of Amsterdam (project coordinator), Ericsson (technical coordinator), Telefónica, Nvidia, Nubis, Accelleran, Solidshield, Polytechnic University of Catalonia, University of Oulu in Finland, Universidad Carlos III de Madrid, University of Budapest, Consorzio Nazionale Interuniversitario per le Telecomunicazioni, NEC Laboratories Europe and Scuola Superiore Sant'Anna.

More information: https://desire6g.eu/ 


 

Opting for olive oil could boost brain health


Regular olive oil consumption associated with 28% lower risk of fatal dementia


Reports and Proceedings

AMERICAN SOCIETY FOR NUTRITION

Dr. Anne-Julie Tessier 

IMAGE: ANNE-JULIE TESSIER, RD, PHD, POSTDOCTORAL FELLOW AT THE HARVARD T.H. CHAN SCHOOL OF PUBLIC HEALTH view more 

CREDIT: ANNE-JULIE TESSIER




A new study suggests that incorporating olive oil into your diet could help reduce the risk of dying from dementia. As many countries face rising rates of Alzheimer’s disease and other forms of dementia, the study offers hope that healthy lifestyle factors such as diet can help to prevent or slow the progression of these devastating conditions.

 

“Our study reinforces dietary guidelines recommending vegetable oils such as olive oil and suggests that these recommendations not only support heart health but potentially brain health, as well,” said Anne-Julie Tessier, RD, PhD, a postdoctoral fellow at the Harvard T.H. Chan School of Public Health. “Opting for olive oil, a natural product, instead of fats such as margarine and commercial mayonnaise is a safe choice and may reduce the risk of fatal dementia.”

 

Tessier will present the findings at NUTRITION 2023, the flagship annual meeting of the American Society for Nutrition held July 22–25 in Boston.

 

Dementia includes a range of conditions in which impairments in thinking or memory affect a person’s daily activities. Alzheimer’s, a progressive and fatal disease affecting an estimated 5.7 million Americans, is the most common form of dementia.

 

The study is the first to investigate the relationship between diet and dementia-related death. Scientists analyzed dietary questionnaires and death records collected from more than 90,000 Americans over three decades, during which 4,749 study participants died from dementia.

 

The results indicated that people who consumed more than half a tablespoon of olive oil per day had a 28% lower risk of dying from dementia compared with those who never or rarely consumed olive oil. In addition, replacing just one teaspoon of margarine and mayonnaise with the equivalent amount of olive oil per day was associated with an 8-14% lower risk of dying from dementia.

 

Research suggests that people who regularly use olive oil instead of processed or animal fats tend to have healthier diets overall. However, Tessier noted that the relationship between olive oil and dementia mortality risk in this study was independent of overall diet quality. This may suggest that olive oil has properties that are uniquely beneficial for brain health.

 

“Some antioxidant compounds in olive oil can cross the blood-brain barrier, potentially having a direct effect on the brain,” said Tessier. “It is also possible that olive oil has an indirect effect on brain health by benefiting cardiovascular health.”

 

Previous studies have linked higher olive oil intake with a lower risk of heart disease. Incorporating olive oil as part of a Mediterranean dietary pattern has also been shown to help protect against cognitive decline.

 

Tessier cautioned that the research is observational and does not prove that olive oil is the cause of the reduced risk of fatal dementia. Additional studies such as randomized controlled trials would be needed to confirm the effects and determine the optimal quantity of olive oil to consume in order to reap these benefits. Overall, however, the study aligns with dietary recommendations and bolsters the evidence that using olive oil in place of margarine or mayonnaise can help to support a healthy diet.

 

Tessier will present this research at 8:13 a.m. EDT on Monday, July 24, during the Nutrition-related Factors in Aging and Chronic Disease Poster Theater Flash Session in the Sheraton Boston, Fairfax (abstract; presentation details).

 

Please note that abstracts presented at NUTRITION 2023 were evaluated and selected by a committee of experts but have not generally undergone the same peer review process required for publication in a scientific journal. As such, the findings presented should be considered preliminary until a peer-reviewed publication is available.

 

This release may include updated numbers or data that differ from those in the submitted abstract.

 

About NUTRITION 2023

NUTRITION 2023 is the flagship meeting of the American Society for Nutrition and the premier educational event for nutritional professionals around the globe. NUTRITION brings together lab scientists, practicing clinicians, population health researchers, and community intervention investigators to identify solutions to today’s greatest nutrition challenges. Our audience also includes rising leaders in the field – undergraduate, graduate, and medical students. NUTRITION 2023 will be held July 22-25, 2023 in Boston. https://nutrition.org/N23 #Nutrition2023

 

About the American Society for Nutrition (ASN)

ASN is the preeminent professional organization for nutrition research scientists and clinicians around the world. Founded in 1928, the society brings together the top nutrition researchers, medical practitioners, policy makers and industry leaders to advance our knowledge and application of nutrition. ASN publishes four peer-reviewed journals and provides education and professional development opportunities to advance nutrition research, practice, and education. Since 2018, the American Society of Nutrition has presented NUTRITION, the leading global annual meeting for nutrition professionals. http://www.nutrition.org

 

Find more news briefs from NUTRITION 2023 at: https://www.eurekalert.org/newsroom/nutrition2023.

 

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These eight habits could lengthen your life by decades


Large study details life expectancy gains associated with healthy lifestyle choices

Reports and Proceedings

AMERICAN SOCIETY FOR NUTRITION

Impact of lifestyle factors on life expectancy in males 

IMAGE: THE ESTIMATED IMPACT OF ADOPTING DIFFERENT NUMBERS OF HEALTHY LIFESTYLE FACTORS ON ADDITIONAL YEARS OF LIFE EXPECTANCY AMONG MEN AS COMPARED TO MEN WITH NONE OF THESE HABITS. WHILE ADOPTING MORE HEALTHY LIFESTYLE FACTORS AT A YOUNGER AGE IS ASSOCIATED WITH THE GREATEST GAINS IN LIFE EXPECTANCY, ADOPTING EVEN A FEW OF THESE FACTORS OR ADOPTING THEM AT AN OLDER AGE CAN STILL BRING SIGNIFICANT GAINS. view more 

CREDIT: VA MILLION VETERAN PROGRAM




A new study involving over 700,000 U.S. veterans reports that people who adopt eight healthy lifestyle habits by middle age can expect to live substantially longer than those with few or none of these habits. The eight habits are: being physically active, being free from opioid addiction, not smoking, managing stress, having a good diet, not regularly binge drinking, having good sleep hygiene, and having positive social relationships.

 

According to the results, men who have all eight habits at age 40 would be predicted to live an average of 24 years longer than men with none of these habits. For women, having all eight healthy lifestyle factors in middle age was associated with a predicted 21 additional years of life compared to women with none of these habits.

 

“We were really surprised by just how much could be gained with the adoption of one, two, three, or all eight lifestyle factors,” said Xuan-Mai T. Nguyen, health science specialist at the Department of Veterans Affairs and rising fourth-year medical student at Carle Illinois College of Medicine. “Our research findings suggest that adopting a healthy lifestyle is important for both public health and personal wellness. The earlier the better, but even if you only make a small change in your 40s, 50s, or 60s, it still is beneficial.”

 

Nguyen will present the findings at NUTRITION 2023, the flagship annual meeting of the American Society for Nutrition held July 22–25 in Boston.

 

For the study, scientists used data from medical records and questionnaires collected between 2011-2019 from 719,147 people enrolled in the Veterans Affairs Million Veteran Program, a large, nationally representative study of U.S. veterans. The analysis included data from adults age 40-99 and included 33,375 deaths during follow-up.

 

Overall, the results showed that low physical activity, opioid use, and smoking had the biggest impact on lifespan; these factors were associated with around a 30-45% higher risk of death during the study period. Stress, binge drinking, poor diet, and poor sleep hygiene were each associated with around a 20% increase in the risk of death, and a lack of positive social relationships was associated with a 5% increased risk of death.

 

According to researchers, the findings underscore the role of lifestyle factors in contributing to chronic diseases such as type 2 diabetes and heart disease that lead to premature disability and death. The results also help to quantify the degree to which making healthy lifestyle choices can help people reduce their risk of such diseases and live longer.

 

“Lifestyle medicine is aimed at treating the underlying causes of chronic diseases rather than their symptoms,” said Nguyen. “It provides a potential avenue for altering the course of ever-increasing health care costs resulting from prescription medicine and surgical procedures.”

 

The estimated gain in life expectancy from adopting the eight healthy lifestyle factors grew slightly smaller with age but remained significant, meaning that adopting healthier habits at an older age can still help you live longer. “It is never too late to adopt a healthy lifestyle,” said Nguyen.

 

As an observational study, the research does not definitively prove causality, Nguyen noted. However, the findings align with a growing body of research supporting the role of lifestyle factors in preventing chronic diseases and promoting healthy aging.

 

Nguyen will present this research at 8:29 a.m. EDT on Monday, July 24, during the Nutrition-related Factors in Aging and Chronic Disease Poster Theater Flash Session in the Sheraton Boston, Fairfax (abstract; presentation details).

 

Please note that abstracts presented at NUTRITION 2023 were evaluated and selected by a committee of experts but have not generally undergone the same peer review process required for publication in a scientific journal. As such, the findings presented should be considered preliminary until a peer-reviewed publication is available.

 

The estimated impact of adopting different numbers of healthy lifestyle factors on additional years of life expectancy among women as compared to women with none of these habits. While adopting more healthy lifestyle factors at a younger age is associated with the greatest gains in life expectancy, adopting even a few of these factors or adopting them at an older age can still bring significant gains.

CREDIT

VA Million Veteran Program


About NUTRITION 2023

NUTRITION 2023 is the flagship meeting of the American Society for Nutrition and the premier educational event for nutritional professionals around the globe. NUTRITION brings together lab scientists, practicing clinicians, population health researchers, and community intervention investigators to identify solutions to today’s greatest nutrition challenges. Our audience also includes rising leaders in the field – undergraduate, graduate, and medical students. NUTRITION 2023 will be held July 22-25, 2023 in Boston. https://nutrition.org/N23 #Nutrition2023

 

About the American Society for Nutrition (ASN)

ASN is the preeminent professional organization for nutrition research scientists and clinicians around the world. Founded in 1928, the society brings together the top nutrition researchers, medical practitioners, policy makers and industry leaders to advance our knowledge and application of nutrition. ASN publishes four peer-reviewed journals and provides education and professional development opportunities to advance nutrition research, practice, and education. Since 2018, the American Society of Nutrition has presented NUTRITION, the leading global annual meeting for nutrition professionals. http://www.nutrition.org

 

Find more news briefs from NUTRITION 2023 at: https://www.eurekalert.org/newsroom/nutrition2023.

 


 

Wormlike animals are first amphibians shown to pass microbes to their offspring


Peer-Reviewed Publication

FLORIDA MUSEUM OF NATURAL HISTORY

Image 1 

IMAGE: RESEARCHERS HAVE DEMONSTRATED THAT UNIQUE CAECILIAN PARENTING BEHAVIORS, LIKE SKIN-FEEDING AND COILING, PROMOTE BACTERIAL TRANSFER TO OFFSPRING. view more 

CREDIT: KOUETE ET AL., 2023




Caecilians are an elusive type of amphibian that primarily live underground and look like a cross between a worm and a snake. One of the few things that is known about caecilians is their unique method for feeding their young. Mothers produce a special layer of fatty skin tissue, which juvenile caecilians tear off with baby teeth that evolved specifically for that purpose.

new study shows that skin-feeding does more than provide nutrients for young caecilians. It also helps the mother pass microbes from her skin and gut down to her young, inoculating them to jump-start a healthy microbiome. This is the first direct evidence that parental care in an amphibian plays a role in passing microbes from one generation to the next.

“There's still a remarkable amount of caecilian biology that we just don't know anything about, mostly because they can be hard to find,” said David Blackburn, the Florida Museum’s curator of herpetology. “To our knowledge, this is the first published study of a caecilian microbiome.”

Across the animal kingdom, there are many different strategies for parental care. Human mothers give their babies breastmilk, emperor penguins regurgitate food for their chicks, and female koalas feed their young a special form of feces.

Among amphibians, caecilians are unique for feeding their young at all. Previous efforts to understand amphibian microbiomes focused on frogs and salamanders, the more well-known orders of the Amphibia class. Those studies, however, came back inconclusive largely because there are few frog and salamander species that care for their young after they’re born or hatched — most simply lay eggs and leave them to develop on their own.

Not so with caecilians.

“When you find the eggs, you always find the mother,” said Marcel Talla Kouete, first author of the study and a doctoral candidate in the University of Florida School of Natural Resources and Environment. “I've never seen a juvenile without an attending mother.” 

Kouete said this is why he became fascinated by caecilians as he began working on them. Since this parenting behavior first came to light in 2006, scientists have noticed that even once skin-feeding ends, mother and babies stay together, with the former coiling her body around the latter. Kouete wondered whether the behavior served another function in addition to providing nutrients, reasoning that there was likely some transfer of the microbes from the surface of the mother’s skin, similar to bacterial transmission in other animals.

In humans, microbes move onto the skin as babies pass through the mother’s birth canal and into the body via breastmilk. These microbes help keep the human body alive and well, forming a microscopic community known as the microbiome, and perform essential tasks like breaking down complex carbohydratestraining the immune system and producing vitamins. A growing body of research seeks to better understand the relationship between disease and microbiome health. 

Kouete and his colleagues focused their research on Herpele squalostoma, a caecilian species from central Africa that participates in skin-feeding behavior. They took samples from the environment as well as the skin and guts of 14 juveniles, nine female adults and six male adults. They then sequenced the bacteria colonies of each.

The researchers found that every juvenile shared some part of their skin and gut microbiome with their attending mother. This transfer happens both when the mother coils around the young, engaging in skin-to-skin contact, and when the juveniles eat the mother’s skin.

Samples taken from the surrounding soil, water and leaves showed that the immediate environment was the least important source for juvenile microbiomes.

In addition to shedding light on caecilian biology, Kouete’s paper contributes to the neglected research topic of African microbes. Despite the great genetic diversity on the African continent, microbiome research thus far has primarily focused on the Global North.

Until recently, caecilians have rarely been studied, in part, because they are native to the tropical regions of the Americas, Africa and Southeast Asia, where there has been a limited scientific presence. The H. squalostoma specimens used in the study were sampled in Cameroon, where Kouete is from.

For future investigation, the research team is curious about how microbiomes benefit caecilians and contribute to their health. “Is there an evolutionary advantage? If so, are these benefits absent when parental care is circumvented?” Kouete asked. This paper lays the groundwork for future studies by identifying some of the microbes present.

“This study is a bit like going out into the world and figuring out all the frogs that live in a forest,” Blackburn said. “We might find ground frogs, tree frogs and burrowing frogs; big species and small; ones that breed in this way or that way. Based on those characteristics, you could start inferring what role they play in the forest ecosystem, which is what we’d like to do with the caecilian microbiome.”

Molly Bletz, Brandon LaBumbard and Douglas Woodhams of the University of Massachusetts Boston are also authors on the paper.

 

PKU researchers reconstruct earliest known composite-tiled roofs


Peer-Reviewed Publication

PEKING UNIVERSITY




Researchers from Peking University School of Archaeology and Museology collaborated with the Gansu Provincial Institute of Cultural Relics and Archaeology to reconstruct the world’s earliest composite-tiled roofs. Their findings were consolidated in an article titled “Reconstructing the earliest known composite-tiled roofs from the Chinese Loess Plateau,” published in the international journal Scientific Reports on May 19, 2023.

With support from projects like “Archaeological China: Settlements and Society in the Hetao Region,” the researchers used 5,000 pieces of terracotta tiles dating back to the early Longshan culture, excavated from the Qiaocun Ruins in Lingtai County, Gansu Province. By means of morphological measurement, quantitative analysis, 3D modeling, and computer simulation, the researchers then reconstructed the earliest known splicing technology of composite-tiled roofs, achieving a major breakthrough in the research on the traceability of composite terracotta tiles.

Existing archaeological discoveries indicate that the earliest ceramic tiles in the world appeared in Greece circa late 3,000 BC, but only in simple forms. Accelerator Mass Spectrometry (AMS) radiocarbon dating results show that the absolute age of tiles unearthed from the relic site of Qiaocun date back to 2400-2200 BC, proving these as the earliest composite tiles. 

In the Western Zhou Dynasty (1046-771 BC), terracotta tile manufacturing was significantly developed in central Shaanxi Province, forming the Longshan Western Zhou culture, which further spread to the rest of Asia including South Korea, Japan, the Russian Far East and Southeast Asia.

To avoid the limitations of previous studies, the research team recruited experts in the fields of archaeology, architecture, relic protection and computer simulation to conduct cross-disciplinary research, overcoming difficulties such as the small sample size and the fragility of the samples.

The study of the Qiaocun Ruins is an important part of the “Archaeology China” project titled “Settlements and Society in the Hetao Region.” The recent findings suggest a strong relation between the roofed buildings in Qiaocun and increasing social interactions in public affairs management in the Loess Plateau, which promotes the social complexity and civilization process of this region.

doi: https://doi.org/10.1038/s41598-023-35299-x

 

This spider mimics ants to trick predators, but it’s not foolproof


Peer-Reviewed Publication

PEKING UNIVERSITY




In the immense world of the animal kingdom, a host of species have developed their unique mimicry skills to attract prey or confuse predators. The deceptive act, however, is not always reliable. A recent Peking University study observes a jumping spider’s unlikely story of survival — by copycatting the movements of ants (with some flaws). 

Zhang Wei, a zoology researcher at Peking University School of Life Sciences, has recently published a paper in iScience. Her research focuses on how the spider species Siler Collingwoodi imitate certain features of ants as part of their survival tactics.

To understand how ant-mimicry helps these spiders avoid being eaten, Zhang’s research team has collected wild ant-mimicking spiders from four geographic locations in southern China's Hainan Province. 

 

The research team explored the role of the spider’s brilliant coloration and how it serves as camouflage to protect against predators through trajectory analysis and locomotor characteristics of S. Collingwoodi

However, S. Collingwoodi’s ant mimicry proves to be imperfect. As shown from the experiment of the spider tested against a mantis and a predatory spider, out of 17 trials, the spider launched five attacks, all of which were toward the non-mimic control. The praying mantises, however, attacked both prey species with equal alacrity. 
 

Throughout the long process of ecological adaptation, animals have developed tactics of mimicry to increase their survival chances. Traditionally, perfect mimicry that features high resemblance in movement patterns has gained widespread attention in the research field as it might result in higher predator deception, but Zhang’s research results show that it may not be entirely foolproof against the animals’ predators.

doi: https://doi.org/10.1016/j.isci.2023.106747