Nearly 35 percent of a group of 15.8 million Chinese adults were classified as overweight, while the prevalence of overweight and obesity was higher in northern China than southern China, according to media reports on Monday, citing a study on the prevalence of overweight and obesity in China. The topic of obesity triggered a wide discussion online on Monday, with many calling for a focus on healthier lifestyles.

A study titled "Prevalence of obesity and associated complications in China: A cross-sectional, real-world study in 15.8 million adults" was published in Diabetes, Obesity and Metabolism, a journal of pharmacology and therapeutics on August 17.

The study showed a digital version of the China obesity situation based on the BMI (body mass index) classification of overweight and obesity in the country, with 34.8 percent of the 15.8 million adult participants being considered overweight, and 14.1 percent diagnosed as obese.

Being overweight and obesity were more prevalent in male than female participants, with 41.1 percent of male participants being overweight. The prevalence of being overweight peaked at age 50-54 years-old in males and at age 65-69 years-old in females, according to the study.

The study was based on data obtained from 519 Meinian health check-up centers across 243 cities, with eligible participants aged 18 years-old and above. The prevalence rates of overweight and obesity nationwide were standardized according to the 2010 China census by age group and sex, according to the study.

According to both WHO and Chinese BMI classifications, the prevalence of both overweight individuals and obesity was higher in northern China than southern China, with the highest prevalence seen in North China's Inner Mongolia Autonomous Region, East China's Shandong Province and North China's Hebei Province, according to the study. 

Experts have noted that several factors have contributed to the high obesity rates in China such as sedentary lifestyles and a decrease in physical activity. Especially in teenagers, instances of being overweight or obese have become one of the serious challenges faced by young people, as it is reported that about 30 million teenagers are dealing with being either overweight or obese. 

The country has recognized the severity of the obesity and has carried out measures to address the rising trend.  In a notice released in July on improving China's basic public health services in 2023, the country has stressed the work in health services on key groups including prevention of overweight and obesity in children.

In 2020, Chinese authorities set a goal of reducing the average annual growth rates of overweight and obese children and adolescents by 70 percent from a baseline in the next 10 years.

Chinaqw.com, a professional website providing comprehensive information services to overseas Chinese around the world, has recently received feedback from some Chinese students studying in the US, who said they had problems when entering the country and during their studies, which has affected their academic pursuits. 

According to the website, three Chinese students were recently detained and interrogated by personnel from the US Customs and Border Protection and the Department of Homeland Security for an extended period of time. The US officials confiscated electronic devices such as laptops and smartphones without any basis or valid permission and demanded access to the devices by requesting passwords. 

They repeatedly asked the students about their membership of the Communist Party of China and military background. Eventually, the US officials refused entry to the three Chinese students and coerced them into signing documents to abandon their visas.

According to feedback from the students involved, the methods used by the US authorities were harsh and illegal, and the questions asked were manipulative and threatening. 

Another Chinese student who went to the US to pursue a PhD in Electrical Engineering stated that he was interrogated by US law enforcement officers for a duration of 12 hours. The US authorities started by questioning his parents’ status as farmers and continuously harassed him about the source of his study funds. 

They searched his phone and seized photos related to his electrical engineering studies and his military interests, suspecting him of being a member of military personnel sent to the US to steal intelligence. The US authorities also refused the student’s request for a translator and did not inform him of his right to contact the Chinese Embassy in the US and other external parties. 

One student was suspected of having connections with the Wagner Group and was deported due to content related to the Ukraine crisis in a social media group chat. Another student was suspected of concealing work experience in the immigration process because he used pinyin to write the name of his previous employer instead of the official English name in his visa application materials. As a result, he was deported on the grounds of discrepancy in his visa application materials.

Another Chinese student was recently charged by the FBI under the so-called Presidential Proclamation 10043, accusing him of “intentionally concealing military education experience” and committing “visa fraud,” which carries a maximum sentence of 10 years in prison. But the student only attended a few classes that the US authorities deemed “sensitive,” and he was unjustly accused. Moreover, the FBI stole the student’s personal information from his study application materials and used it as “evidence,” severely violating his privacy.

Experts in the field of study abroad services pointed out that while the US claims to be open, inclusive, and supportive of academic freedom, it has politicized and weaponized academic research, and abused the concept of “national security” to suppress and persecute Chinese students in the US. 

During US Secretary of State Antony Blinken’s visit to China in June, China and the US reached a consensus on expanding cultural and educational exchanges. However, while the US claims to welcome more Chinese students to study in the US, it continues to suppress them. The US’ “tolerance” and “freedom” are false, and its true intention is to restrain China by suppressing Chinese students, experts warned.

The actions of the US will undoubtedly have a chilling effect both within and outside the US, they said, adding that Chinese students planning to study in the US should carefully assess the risks and think twice before making a decision.

The Senj Wind Farm, a project of the Belt and Road Initiative (BRI), is an example of the mutually beneficial and win-win cooperation between Croatia and China, said Luci Veljacic, manager of the Grupa Company in southern Croatia, in a recent interview with Xinhua.

"For me and my company it was a great honor to be part of the Senj Wind Farm project," Veljacic said, adding that in July 2019, the Grupa Company was offered a contract for supervision and implementation of safety and health protection, fire protection and environmental protection during construction of the Senj Wind Farm project.

Despite numerous unfavourable conditions, including the extremely complex mountainous terrains, the COVID-19 pandemic, snow, strong winds and thunderstorms during the construction process, the Senj Wind Farm, undertaken by China's Norinco International Cooperation Ltd. (Norinco International), was completed on schedule and "without any worker injuries, deaths or incidents," Veljacic noted.

"During the construction, all legal regulations of Croatia and the European Union (EU) and all safety measures were observed to the maximum," Veljacic said.

The Grupa Company is one of the more than 70 contractors from across Croatia participating in the construction, and among the daily turnover of about 300 workers during the construction, more than half of them were from Croatia, Veljacic said, adding that most Croatian workers were from the local Lika-Senj County.

Moreover, participation in the project has made many Croatian companies gain extensive professional experience, which will certainly make them more competitive in the EU market, not just in Croatia, Veljacic said.

Veljacic hailed the "exceptional" cooperation with the Chinese side during the construction process.

"We had an exceptional cooperation, both professional and friendly, with all Chinese companies and workers at the Senj Wind Farm project," Veljacic said, noting that in spite of the language barrier, "we successfully communicated, negotiated, solved daily problems and performed work safely."

In addition, "We also found time to socialize during the project, getting to know the cultures of the two countries ... we talked about history, music, education, customs and the like," Veljacic added.

Veljacic was deeply impressed by the hard work and expertise of the Chinese workers during the construction process.

"During this project, Chinese workers performed the most demanding work and showed exceptional expertise, professionalism, endurance and technological progress," she said, adding that she and her company colleagues also received a lot of help from Chinese engineers who "were always ready to help with their professional knowledge and experience."

The Senj Wind Farm, located on the Adriatic coast of western Croatia and inaugurated in December 2021, produces about 530 million kilowatt-hours (kWh) of green electricity each year and reduces Croatia's carbon dioxide emissions by about 460,000 tonnes per year.

In the eyes of Veljacic, the Senj Wind Farm is a project valuable and important not only for the Lika-Senj County but also for the whole Croatia, as it can significantly contribute to the total annual production of electricity from clean and renewable sources, reduce electricity imports and further promote low-carbon development.

"With this project, Norinco International has become one of the largest investors in green energy and the green economy in Croatia ... The example of the Senj Wind Farm project, the joint successful cooperation of Chinese and Croatian workers and companies will certainly be further developed," Veljacic said.

Most people don’t live close to a coral reef. If we want to visit one, we have to travel far, to the tropical waters that are home to these beautiful and diverse ecosystems. But, it turns out, most coral reefs aren’t that far from people. And it’s those really accessible reefs that we should be worrying about, a new study argues.

Eva Maire of the University of Montpellier in France and colleagues started by breaking up all of the world’s coral reefs into 1-kilometer-square cells. They then calculated how much travel time sat between each of those cells and the nearest human settlement, doing their best to account for whether a person would have to use a boat, a road or a meager track to reach the reef.
Fifty-eight percent of the cells are less than 30 minutes from people, the group reports February 15 in Ecology Letters. Most of those reefs can be found in the Caribbean, the Coral Triangle off Southeast Asia, the Western Indian Ocean and around islands in the Pacific. Others, such as those in the Coral Sea or the northwest Hawaiian Islands, are largely inaccessible, requiring 12 hours or more to reach — too far for a quick fishing jaunt.

Being close to people means that a reef and its resources can be more easily accessed and exploited. Proximity to a market — a source of income for fishermen with easy access to a rich catch — may make that even easier. The researchers found that a quarter of the reefs were within four hours of a major market, and nearly a third were more than 12 hours away. And how close a reef sat to a market appears to matter when it comes to the amount of fish swimming on the reef — those that are closer have lower amounts of fish, the team calculated.

Then the group looked at the pattern of protection for reefs. Many reefs are in marine protected areas that have been set up to limit exploitation. But the reefs most likely to be in a protected area are those that are far from people. An isolated coral reef is more than twice as likely to be protected than average.

The pattern is easy to explain. To set up a protected area, a government has to get everyone who is using that swath of ocean — for fishing, recreation, tourism or anything else — on board with the restrictions that will be placed on usage. And it’s a lot easier to do that with remote patches that not many people are using.

The problem with this, Maire and her colleagues note, is that it means that we may be protecting areas of the ocean that don’t really need protection. And it’s possible that the global goal of protecting 10 percent of the ocean by 2020 “can be met without actually reducing human impacts on the seascape,” they write.

There needs to be more work analyzing the pattern of marine protected areas before any such conclusion can be drawn. And there’s also something to be said for protecting coral reefs now, before they’re totally exploited. Corals already face an uphill battle for survival, given the threats of climate change and ocean acidification. Setting some reefs aside before fishermen and others can do damage doesn’t seem like a bad idea.

BALTIMORE — Metamaterials, among the most intricate and skillfully designed configurations of matter ever devised by science, could be improved with the help of Legos.

Famous for their use in cloaking devices, metamaterials are artificial structures that play unnatural tricks with light and sound and other vibrations. Scientists have investigated the use of such materials for soundproofing rooms or protecting buildings from the shaking of earthquakes, among other things. But to do their jobs, metamaterials must be properly designed and fabricated using precisely manufactured components. Testing ideas for new metamaterials is therefore time-consuming and expensive.
So Paolo Celli and colleagues at the University of Minnesota sought alternatives. They considered 3-D printing, Celli said March 15 at a meeting of the American Physical Society. But the printing process can be slow and the “ink” isn’t cheap, so they rejected that idea. “That’s when we thought, ‘Why don’t we use Lego bricks?’” he said. Legos are relatively cheap and can rapidly be rearranged into all sorts of configurations.

Celli and colleagues arranged Lego bricks on a base plate attached to a wooden frame and investigated how the arrangements influenced the way vibrations traveled through the plate. For some arrangements, certain vibration wavelengths could not be transmitted. Manipulation of the Legos allowed the scientists to determine what processes created the forbidden wavelength zones (known as bandgaps), providing valuable data for future designs of real metamaterials.

Further experiments showed how Lego arrangements could identify metamaterial architectures that might provide a shield for buildings at risk from earthquake waves. “We might be able to design a metamaterial shield that might block some frequencies that can be harmful to that structure,” Celli said.

Ahmed Elbanna, a materials researcher at the University of Illinois at Urbana-Champaign, called the work with Legos exciting and said in principle it could be applicable to designing metamaterials for some applications. He said he was “a little bit more skeptical” that it could result in useful earthquake protection.

Celli emphasized that the motivation behind the work was not solely to produce better metamaterials. “We’ve been looking for an agile and versatile experimental platform,” he said, “but we were also looking for something that people can relate to…. We think that this platform is probably very powerful” for promoting this branch of physics to a broader community.

Asked if he played with Legos as a child, Celli replied, “a lot.”

Spiders eat insects. That’s why some of us are reluctant to kill spiders we find at home — we figure they’ll eat the critters we really don’t want around. But a new study reveals that the spider diet is far more diverse than we learned in elementary school. Spiders are insectivores, sure, but many also have a taste for plants.

Only one species of spider is known to be completely vegetarian. Bagheera kiplingi jumping spiders of Mexico survive mostly on bits of acacia trees, Science News reported in 2008. And while scientists have yet to find any other vegetarian species, plant-eating appears to be very common, particularly among jumping spiders and spiders that make webs outdoors.

Martin Nyffeler of the University of Basel in Switzerland and colleagues combed books and journals for reports of spiders consuming plant material. There is evidence of veggie-eating among more than 60 species of spiders, representing 10 families and every continent but Antarctica, the team reports in the April Journal of Arachnology.

Perhaps past scientists can be forgiven for overlooking the plant-eating behavior, as spiders can’t eat solid material. They have a reputation for sucking the juices out of their prey, but that’s not quite the right description. Instead, a spider covers its prey with digestive juices, chews the meat with its chelicerae and then sucks the juices in. This eating style means, though, that spiders can’t just cut a piece of leaf or fruit and chow down.

Some spiders feed on leaves either by digesting them with enzymes prior to ingestion (similar to prey) or piercing a leaf with their chelicerae and sucking out plant sap. Others, such as the vegetarian Bagheera kiplingi, drink nectar from nectaries found on plants or in their flowers. More than 30 species of jumping spiders are nectar feeders, the researchers found.

“During such [feeding], the spiders were seen pushing their mouthparts deep into flowers to drink nectar, similar to the way nectar-drinking insects feed,” the researchers write. And this isn’t accidental behavior — some spiders can feed on 60 to 80 flowers in an hour.

Pollen is probably another common plant-based food source for spiders, especially those that make webs outdoors. That’s because spiders eat their old webs to recycle the proteins. And when they eat their webs, they eat anything that might be caught on the sticky strands, such as calorie-rich pollen. Spiders might also be consuming tiny seeds and fungal spores this way, though the latter may be a risky meal as there are many fungi whose spores will kill spiders.
The researchers also found some cases of spiders intentionally eating pollen and seeds, and they also note that many spiders are eating plant material when they munch on plant-eating insects. Just how common plant-eating is among spiders isn’t yet known, but it could be even more common, especially among species that create webs outdoors.

“The ability of spiders to derive nutrients from plant materials is broadening the food base of these animals,” Nyffeler says. “This might be one of several survival mechanisms helping spiders to stay alive for a while during periods when insect prey is scarce.”

And with reports of spiders eating a whole menu of other non-insect foods — including crustaceans, earthworms and small vertebrates in the wild; and sausage and soy milk in the lab — it’s clear that we need to call them something other than insectivores.

When your barista says today’s cuppa joe has rich, spicy notes found only in Colombia’s soil or ‘terroir,’ he or she might not be completely full of … beans.

Before going global, the coffee bean plant originated in Ethiopia, while cacao was first cultivated in the Amazon. Both coffee and cacao beans undergo fermentation prior to roasting. Wild yeast and other microbes that live on the bean digest the pulp that coats the beans, altering flavor and color as well. Researchers wondered, are these yeasts a product of the plants’ current geography or their original roots?

So, they bought unroasted coffee and cacao beans from 27 countries, isolated bean yeasts and analyzed the yeasts’ genes. While coffee and cacao yeasts are even more diverse than wine yeasts, strains that came from the same continents and countries had more in common genetically with their immediate neighbors. Still, some cacao strains from South America share genes with European vineyard yeast and North American oak tree yeast. Such hybrids are probably the result of human trade and travel, the team reports March 24 in Current Biology.

Determining the flavor fallout of all this yeast diversity requires further study, but wine yeasts from different locales are linked to specific chemical profiles.

Resistance may soon be futile. With machine implants worthy of a Star Trek villain, a new breed of beetle takes walking instructions from its human overlords.

Hirotaka Sato and his colleagues at Nanyang Technological University in Singapore inserted electrodes into flower beetles (Mecynorrhina torquata) to stimulate specific leg muscle groups. By altering the order of electrical zap sequences, the team was able to control a beetle’s gait. Changing the duration of the electrical signals also altered the insects’ speed and step length, Sato and colleagues report March 30 in the Journal of the Royal Society Interface.

Scientists have already made cyborg insects that can fly, scuttle, and crawl, but controlling things like speed could allow biobots to do more complex tasks. Cyborg beetles and other insects provide a more energy efficient and easier-to-assemble alternative to plain old robots and double as a means to study insect locomotion, the researchers argue.

Dome effect dōm ih-fekt n.
Airborne black carbon, also called soot, can cause the dome effect by warming the atmosphere’s top layer and blocking sunlight that would otherwise warm the surface air. The reduced temperature difference between the two layers lowers the boundary between them. This effect traps pollution around major cities, worsening air quality, new research suggests.

Researchers observed the dome effect around several of China’s megacities in December 2013. The compressed near-surface layer of the atmosphere led to thick hazes of pollution, the researchers report online March 16 in Geophysical Research Letters. Reducing local black carbon emissions from industry, biofuel burning, diesel vehicles and coal burning would quickly improve air quality around many megacities, the researchers propose.

The sperm whale is one of the odder-looking cetaceans swimming the oceans. Its massive, blocky head is unlike anything sported by other whales. The space above the mouth holds two large, oil-filled organs stacked one on top of the other — the spermaceti organ on top, and another below it called the (we did not make this up) junk. And in the last couple of decades, scientists have determined that the two organs amplify and direct the sonar clicks that the whales use to navigate in the water.

But there have long been suggestions that the massive head could serve another purpose — to ram other whales. The hypothesis dates back to the 19th century, when sperm whales sometimes rammed — and even sank — whaling vessels. “The structure and strength of the whale’s head is admirably designed for this mode of attack,” wrote Owen Chase, first mate of the Essex, which was sank by a whale and inspired the tale of Moby Dick.

Scientists have largely been leery of this hypothesis, though, in part because ramming would risk damage to organs used to generate sound, and because no one had seen a sperm whale ram another. Or at least no one had ever reported such an event in the scientific literature. But a new study, appearing April 5 in PeerJ, shows that Owen and his whaling buddies just may have been right.

Olga Panagiotopoulou of the University of Queensland in Australia and colleagues created computer simulations of a sperm whale’s head and what might happen when the head rammed another object. Partitions of connective tissue inside the junk, they found, appear to reduce the stresses created by impact, “and thus potentially function as a protective mechanism during ramming,” the team writes.

An impact creates tension in the connective tissue that serves as partitions between pockets of oil in the junk. That tension disperses the impact over a greater volume of the head, protecting both bone and soft tissue from injury. When the connective tissue was removed from the simulations, stresses increased by 45 percent and it became more likely that the skull would crack.

Scars on the heads of sperm whales tend to be around the junk, which may indicate that the whales avoid contact over the spermaceti organ — behind which is the whale’s sound generating system, the researchers note. So if the whales are ramming into one another, they probably can do so without hurting their ability to generate sonar clicks.

But are sperm whales really ramming each other? There is other evidence to suggest they just might be. For one, male sperm whales are as much as three times bigger than females, and such size differences are often found in species in which males compete through fighting. There are those sunken whaling ships, too, which add to the argument that ramming behavior may have been something natural for the whales.
But there’s also a report from a wildlife pilot who, on January 30, 1997, while flying over the Gulf of California, saw two males swim directly toward each other at a speed of about 17 kilometers per hour — and then collide, forehead to forehead.

Just before impact, the whales dove just below the surface of the water. That may explain why no one else has reported such sperm whale contests: If they’re occurring below the water’s surface, a person would have to be directly above the event, or in the water with the whales. And besides, if two 50-ton mammals are about to go head-to-head, it might be best to get out of the way.