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The Giant Python: An Ancient Legend from Taiwan

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Fossil vertebrae of a massive python, measuring nearly 4 meters long, were unearthed from the Chiting Formation in Taiwan, indicating its existence during the Middle Pleistocene.

An artistic reconstruction of a python and Toyotamafimia in Middle Pleistocene Taiwan. Image credit: National Taiwan University, Fossil Vertebrate Evolution and Diversity Laboratory / Cheng-Han Sun.

The Python genus comprises nearly 10 species of snakes within the Pythonidae family, found across tropical and subtropical regions of the Eastern Hemisphere.

In Africa, pythons inhabit tropical zones south of the Sahara, being absent from the southwestern tip of southern Africa and Madagascar.

In Asia, their range extends from Bangladesh, Nepal, India, Pakistan, and Sri Lanka, across Myanmar to Indochina, southern China, Hong Kong, Hainan, and throughout the Malay region of Indonesia, and the Philippines.

“There are currently no living members of the Python genus on the main island of Taiwan,” notes Yi Lu Liau and colleagues from National Taiwan University.

A recent study involved paleontologists who analyzed a large, single trunk vertebra found near Tainan, Taiwan.

This vertebra dates back to the Middle Pleistocene, approximately 800,000 to 400,000 years ago.

The researchers classified this specimen as belonging to the Python genus, marking the first discovery of python fossils on mainland Taiwan.

Using measurements from a 3D reconstruction of the specimen, researchers estimated that this ancient snake reached lengths of about 4 meters, surpassing the size of modern snakes in Taiwan.

While Taiwan is home to over 50 snake species, none match the size indicated by these fossils.

“This fossil is not only the largest but also the most surprising snake fossil discovered in Taiwan,” the researchers stated.

The fossil was recovered from the Chiting Formation, a geological unit rich in fossils from southern Taiwan, where large herbivores such as saber-toothed cats, massive crocodiles, mammoths, and extinct rhinos have also been found.

Collectively, these findings suggest a complex, predator-dominated ecosystem during the Middle Pleistocene, in stark contrast to Taiwan’s current fauna.

“A top predator has gone extinct, as shown by the discovery of this enormous Python. Alternatively, previously documented saber-toothed tigers and large crocodiles indicate rapid changes in Taiwan’s modern biodiversity,” the scientists concluded.

“We propose that the top predator niche in today’s ecosystems may have remained vacant since the Pleistocene extinction event.”

“Future discoveries and in-depth analyses should further explore this hypothesis and illuminate the origins of modern biodiversity in the Far East.”

For more details regarding this discovery, refer to the study published in the journal Historical Biology.

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Yi Lu Liau and colleagues. Unexpected snake fossil (Pythonidae, Python) discovered in Taiwan. Historical Biology, published online on January 16, 2026. doi: 10.1080/08912963.2025.2610741

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Source: www.sci.news

Fossils of Pleistocene-age Denisova Homo Species Discovered in Taiwan

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According to an analysis of ancient proteins, the 190,000-10,000 fossil mandibles found in the Taiwanese Pengu Channel in the 2000s belonged to male Denisovan. The findings provide direct evidence that Denisovan occupied a diverse climate, from the cold Siberian mountains to the warm, humid subtropical latitudes of Taiwan.

The concept of artist Peng Denisovan walking under the bright sun during the Pleistocene of Taiwan. Image credit: Cheng-Han Sun.

“Recent discoveries and reanalysis of fossil specimens, along with the application of molecular technology and new dating methods, revealed unexpected diversity among the archaic Hymonin of mid- to late Pleistocene East Asia before the arrival of modern humans.”

“Identifying Denisovan is an important example of such advances.”

“Denisovan was recognized as a group of humankinds that differ from Neanderthals and modern humans by analyzing fragmentary bone and teeth DNA excavated from Denisova Caves in the Altai Mountains of Siberia.”

“Their nuclear genome shows that Denisovan formed its own clade as a sister group of Neanderthals, forming a calculated genome difference between the two clades that occurred more than 400,000 years ago.”

“Genetic evidence also shows the flow of genes between Denisovans, modern people, and Neanderthals.”

“Studies of incorporated denisova DNA in modern human populations suggest the existence of multiple genomically distinct denisova populations, once distributed across Asia in the eastern part of the continent and perhaps part of the islands Southeast Asia.”

“However, outside the Denisova caves, direct molecular evidence of Denisovan has been found only from a single site on the Tibetan Plateau.”

“In Baishiya Karst Cave in Xiahe, the mandible and rib bone are identified as denisovan based on protein sequence.”

With label Penguo 1New Denisovan fossils were collected in the 2000s through drage activities related to commercial fishing from the seabed (60-120 m) about 25 km from Taiwan’s west coast.

The area is located 4,000 km southeast of Denisova’s Caves and 2,000 km southeast of Baishayakarst Caves.

It was part of the Asian mainland during the low sea level episodes of Pleistocene.

“Penghu 1 is under 450,000 years old, with the most likely age range from 10,000 to 70,000 or 130,000 to 190,000 years old, depending on the content of trace elements, biostratigraphic evidence, and past changes in sea level,” the researchers said.

“Direct uranium dating of Penghu 1 failed due to the effects of uranium from seawater.”

Using ancient proteomic analysis, Dr. Tsutaya and his colleagues extracted proteins from bone and dental enamel from the fossils, recovering 4,241 amino acid residues.

These variants are rare in modern human populations, but are more common in areas associated with the genetic temptation of Denisovan.

Furthermore, morphological analysis of Penghu 1 reveals a robust jaw structure with large molars and distinctive root structures. This is a feature consistent with the properties found in Tibetan Denisovan specimens, suggesting that these properties are lineage and possibly gender characteristics.

“It is clear that two contrasting groups of Hymonin – the small-tooth Neanderthal with tall but flexible mandibles and the low but robust mandible (as a population or as a male character) coexist during the late mid- and early Pleistocene Eurasia,” the scientists said.

“The latter form is rare or absent in neonatal fossils from Africa and Eurasia, and is therefore not a primitive retention that is likely developed or enhanced, as it was probably developed or enhanced in Deniso Banklade, after genetic separation from Neanderthals more than 400,000 years ago.”

“Recent discoveries of the island from Southeast Asia (Homo Flores Ensis and Homo Lusonensis) and South AfricaHomona Lady) highlights the diverse evolution of the genus Homoin contrast to the strain Homo sapiens. ”

“The Dentgrat morphology of Dennisovan can be interpreted as another such distinct evolution that took place in our genus.”

result It was published in the journal today Science.

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Takumi Tsutaya et al. 2025. Mandible Denisovan from Pleistocene Taiwan. Science 388 (6743): 176-180; doi: 10.1126/science.ads3888

Source: www.sci.news

Taiwan remains cautious as Trump’s tariffs exclude tips

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Taiwan, the heart of the global supply chain for computer chips, woke up to news on Thursday that President Trump had placed a new 32% tariff on the island’s exports to the US. Excluding semiconductors.

The decision not to impose tariffs on the chip sector does not mean they will not come to Taiwan or anywhere else, including South Korea, another major source of tipping.

Taiwanese companies have spent billions of dollars over decades building networks of factories that carry out the complex processes of etching small circuits into silicon.

These chips, and the wide range of electronic devices that include them, are Taiwan’s major exports. And they are increasingly becoming the focus of Taiwan-US geopolitical ties, and have undergone significant changes in trading since Trump took office.

Trump has previously said that Taiwan has gained unfair control in building semiconductors and threatened to impose tariffs on the sector. He also denounces Taiwan, which relies on the US for political support for China’s claim that Taiwan is part of its territory and is too little to its own secure.

Taiwanese officials and businesses are rushing to ease the blow of Washington’s tariff threat. Last month, President Lai Qingte said that Taiwan is interested in purchasing natural gas from its long-term projects in Alaska.

A few weeks ago, the Taiwanese semiconductor manufacturer, the world’s largest chip maker, said it would spend $100 billion in the US to expand its operations in Arizona. TSMC announced plans for the factory during Trump’s first term and received great financial support under former President Joseph R. Biden.

When he announced the tariffs in Taiwan on Wednesday, Trump praised TSMC for his investment in the US. He and his aides hope that South Korean giants Samsung and SK Hynix and other chip companies that have pledged to invest in US businesses during the Biden administration, like Taiwan’s global wafer, will pledge to spend more.

Semiconductors are a complex target for tariffs as the supply chain for creating them is global and highly specialized. Most advanced chips are manufactured in Taiwan, but many are sent to other countries, such as Malaysia, for testing. Second, you can place the chips on an iPhone or artificial intelligence server in Mexico or China before these devices are sold to people all over the world.

“In reality, very few semiconductors are imported directly to the US. Most are incorporated into the final product,” said Jimmy Goodrich, senior advisor to technical analysis at RAND Corporation.

“It’s much more difficult than saying, “I’m going to slap the tariffs on steel,” added Martin Cholzenpa, a senior fellow at the Peterson Institute for International Economics. ”

Even the chips made by TSMC at its Arizona factory must leave the US to be packaged in other devices before they fall into the hands of American consumers.

“The chips currently made in Arizona will need to leave the US for a while before they can go back,” Ho said. “That’s just a fact of the global chip supply chain now.”

Trump announced 32% tariffs on Taiwanese goods exported to the US on Wednesday, with Taiwan sending nearly a quarter of its exports directly. In addition to non-taxable chips, Taiwan mainly exports electronic devices and components. Taiwan’s US Chamber of Commerce has said that Taiwan plays an integral role in the US economy, urging officials in Washington and Taipei to strengthen relations.

On Thursday, the Taiwanese government accused the tariffs of being unreasonable and unfair to Taiwan. The government will serve as a strong protest against US trade representative Lee Hui-Chy. The Taiwanese Cabinet said in a statement.

Taiwan’s exports to the US have been increasing in recent years, reflecting an increase in demand for Taiwan’s advanced technologies, including electronics and semiconductors, the statement said. President Lai said the Taiwanese government is concerned about the global impact of tariffs.

The Taiwanese government was “too optimistic about its relationship with Trump,” said Jason Huss, a senior fellow at the Hudson Institute and a former member of the Taiwan Congress for the opposition Nationalist Party. “I thought Trump was a bit naive to think it was good for them, especially after the TSMC announcement.”

Chris Buckley I contributed a report from Taipei, Taiwan.

Source: www.nytimes.com

The story of Taiwan’s semiconductor dominance: How it was achieved and why it will be maintained | Taiwan

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THsinchu Science Park on Taiwan’s west coast is so lush, with well-planned and clearly signed roads and modern, well-maintained buildings that from the outside, most visitors would not even realise they were visiting one of the world’s most important factories.

Once known for its fish ball street food, Hsinchu is now known as Taiwan’s Silicon Valley, a tech-centric microcosm that channels workers from schools to universities and into the world’s leading semiconductor industry that’s crucial to global supply chains.

Chips, or semiconductors, are the tiny technological components that power almost everything: your computers, your mobile phones, your cars, etc. A single chip contains tens of billions of transistors needed to make electronic devices work, and the most advanced chips (mainly made in Taiwan) contain even more.

Taiwanese semiconductors were thrust into the spotlight this week after Donald Trump rehashed old accusations that Taiwan has stolen U.S. business, using the allegation to question whether the U.S. would continue its longstanding support for Taiwan if he is re-elected president in November.

“They took over almost 100% of our semiconductor industry,” he argued in an interview with Bloomberg. “We should never have allowed that to happen.”

In some parts of Taiwan, Trump’s comments were like a gangster asking for protection money, given that the United States is Taiwan’s most important security partner in countering the threat of Chinese annexation.

There is little evidence to support Trump’s claim that Taiwan has stolen U.S. property, but there is no denying that Taiwan controls nearly 100% of the cutting edge of the global semiconductor industry.

Taiwan produces about 90% of the world’s most advanced semiconductors, most of which are produced through Taiwan Semiconductor Manufacturing Co. (TSMC), the world’s largest producer and a major supplier to Apple and Nvidia.

“Taiwan was simply more competitive than other countries,” said Raymond Kuo, a political scientist at the RAND Corporation.




People walk in front of the TSMC (Taiwan Semiconductor Manufacturing Company) logo at the Taiwanese semiconductor contract manufacturing and design company’s building in Hsinchu. Photo: SOPA Images Limited/Alamy

Manufacturers like TSMC rose to prominence by focusing on research and development and relentless efficiency, allowing them to pack more transistors onto a smaller chip than their competitors. Taiwanese workers are highly educated, and in a society where salaries are low compared to the cost of living, semiconductor jobs are well-paying but highly demanding. Taiwan’s labor protection laws are much weaker than those in the United States and other countries. For Taiwanese people, working for TSMC or a similar company is seen as a prestigious job with a bright future.

“[Companies] Masters or PhD holders can run the factory in three shifts. [fabrication plants] “Every day, new chipmakers are coming in,” Kuo said. “There’s also a whole secondary industry ecosystem built to support them.”

Taiwan’s vice minister for science and technology said on Thursday that Taiwan has spent 30 to 40 years developing its industries so “it is impossible to simply replace and difficult to imitate.”

While other countries are trying to catch up, some reports suggest the gap is widening. Taiwan’s monopoly on the components that literally power the world raises concerns about the vulnerability of global supply chains, especially if China’s leaders were to one day order an invasion or attack.

“It’s not hard to imagine Beijing using its control of these production facilities to coerce other countries into submitting to its subjugation,” Kuo said. “Semiconductors will become another tool Beijing can use to coerce other countries economically and politically.”

During the pandemic, the world got a firsthand look at how a supply chain crisis and chip shortage can affect global trade, as factory closures snowballed into a global chip shortage, delaying manufacturing and sending prices of autos and other products soaring.

In response to the crisis, other countries have tried to diversify their supply sources, mainly through Taiwanese companies setting up new manufacturing plants overseas, but with limited success.

Thanks to U.S. incentives, some of Taiwan’s production has shifted to the U.S., and TSMC is spending billions to build new factories overseas, including a $65 billion investment in three factories in Arizona. In Arizona The facility revealed challenges in replicating the Taiwanese model for a variety of reasons, including differences in approaches to labor rights and worker demands.

TSMC founder and former chairman Morris Chang previously said the cost of the U.S. project would be much higher, describing it as a “wasteful, expensive and wasteful endeavor.”

For Taiwan, this advantage is a good thing from a national security perspective: Geopolitical observers call Taiwan’s semiconductor industry a “silicon shield,” serving as an incentive for the international community to keep Taiwan away from Beijing’s control.

In response to Trump’s remarks, Taiwanese officials emphasized the strength of U.S.-Taiwan relations and extensive international cooperation in the semiconductor sector (Taiwan is home to several foreign semiconductor companies), but also indicated their intention to keep Taiwan’s research and development domestic and maintain its industrial dominance.

“Diversification means countries have less reason to defend Taiwan,” Kuo said. “Why should they defend it when they can easily switch to another supplier?”

Source: www.theguardian.com

Nvidia reveals cutting-edge AI technology at Taiwan Tech Expo

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According to the CEO of the AI hardware company, the next industrial revolution has already begun. The announcement was made at a crowded stadium in Taipei on Sunday by Nvidia, as they revealed new products and plans to drive advancements in artificial intelligence.

Jensen Huang, the CEO of Nvidia, is currently attending Computex, Taiwan’s largest technology exhibition, alongside CEOs from major semiconductor companies such as AMD, Intel, and Qualcomm. The focus of the event is on establishing AI as a mainstream technology in the industry.

Having been born in Taiwan, Huang is a prominent figure on the island, and his presence has generated significant interest from the media and the public. Nvidia is recognized as the leader in specialized chips and hardware essential for the development and operation of cutting-edge AI systems.

During his address at the National Taiwan University’s Sports Center, Huang mentioned the collaboration between companies and countries with Nvidia to revamp their traditional data centers into high-speed computing facilities, focusing on creating an AI factory for the mass production of artificial intelligence.

He introduced the Nvidia ACE generation AI, which can generate lifelike human avatars for industries like customer support. Several top technology companies, including Foxconn and Siemens, are leveraging Nvidia’s platform to develop AI-driven autonomous robots.

Nvidia recently unveiled its Blackwell platform, and Huang disclosed plans to launch an “Ultra” version in 2025. He also provided a glimpse of their upcoming graphics processing unit architecture, codenamed Rubin. Huang emphasized Nvidia’s commitment to accelerating the release of new GPU products annually.

In his forward-looking speech, Huang predicted that generative AI would play a significant role in almost every interaction with the internet or computers in the future. He concluded by praising Taiwan’s advanced semiconductor industry, which plays a crucial role in manufacturing essential components for various technologies.

Keynote addresses at Computex are also expected from AMD’s Lisa Su and Qualcomm’s Cristiano Amon, outlining their companies’ plans in AI. Other speakers include Intel’s CEO Pat Gelsinger and Arm’s president Rene Haas, highlighting the significance of AI-accelerated technologies.

Taiwanese manufacturers are pivotal to technology companies’ AI strategies as they produce advanced semiconductors required for powerful AI applications. Foxconn, known for electronics production, has shifted towards AI hardware, with their CEO projecting substantial growth in the AI server market.

Despite Taiwan’s crucial role in the global supply chain, there are concerns over China’s territorial claims and potential use of force. Tensions between Beijing and Taipei have escalated, with China conducting military exercises near Taiwan, including simulated blockades.

Source: www.theguardian.com