After Rhinos and Wolves, Scientists Wants To Create Artificial Wombs

When you look at it, the last two northern white rhinos on Earth spend their days as if they were not the last two northern white rhinos on Earth. They lumber majestically along a dun and dusty landscape, as their ancestors have done for millions of years.

They graze with dedication on tremendous amounts of grass — more than 100 pounds a day — uprooting the plant with the flat, powerful lips that evolution painstakingly bestowed. They wallow in the mud, or rest in the shade of acacia trees, or gaze, placidly, in the direction of Mount Kenya. Sometimes, they let egrets rest on their hulking, primordial backs.

Then again, as the last two northern white rhinos on Earth, Najin and Fatu have lives that are singular. Armed rangers at the Ol Pejeta Conservancy guard them from poachers every minute of every day. Buses of tourists and schoolchildren gather at the conservancy’s electric fence, angling for a glimpse of the tail ends of an evolutionary line that’s been stretching back to the time horses were the size of dogs and the continent of Australia had not yet broken free of Antarctica.

Normally, northern white rhino females would live with their young in small herds, but Najin and Fatu have only each other. The last male northern white rhino, Sudan, died in 2018. Najin and Fatu, his daughter and granddaughter, have health issues that make it impossible for them to reproduce; and so in a term both clinical and heartbreaking, the species is already considered "functionally extinct," its remaining two members living in an evolutionary twilight.

Some animals are so endangered and elusive that we don’t even know if they still exist; many extinctions happen without human awareness or acknowledgment. But we will know the exact minute when northern white rhinos go extinct. We will be able to mark the day dolefully on a calendar.

And yet. For the past 50 years, and in anticipation of their demise, scientists have been banking tissue samples of the species in repositories like San Diego’s Frozen Zoo.

For some time now, they have been retrieving eggs from Najin and Fatu and fertilizing them with sperm collected from northern white rhinos that have already perished. Thirty-nine viable embryos have been created via IVF. In 2023, scientists and veterinarians achieved the first successful IVF pregnancy in a rhino species, using both an embryo and surrogate from the relatively more plentiful southern white as proof that the technique could work. The fetus was only 70 days old when the mother died of a bacterial infection. Since then, three northern white rhino embryos have been transplanted into southern white rhinos, but none of these interspecies transfers has been successful.

In February, scientists from Colossal Biosciences reported that they were nearing a breakthrough. Colossal is a for-profit company that was co-founded in 2021 by billionaire and serial entrepreneur Ben Lamm and Harvard geneticist George Church with the mission of using recent scientific developments — in gene editing, in collecting and analyzing ancient DNA, in cellular biology, and in embryology, among others — to "de-extinct" lost animals.

In early 2025, the company reported the creation of 38 "woolly mice," in which gene edits had been made to replicate the long, thick fur and cold-resistant metabolism of woolly mammoths. (Though technically just a quality-control step to see how the genes would be expressed in an animal whose DNA is well understood, the mice turned out to be so freakishly adorable that people showed up at the lab trying to get their hands on one, and Colossal had to beef up its security.)

Then, in April 2025, the company announced with much fanfare that it had extracted DNA from a 72,000-year-old skull and a 13,000-year-old tooth, used computational biology to figure out which genes did what within that DNA, made 20 edits to the cells of gray wolves that would cause them to express certain phenotypes, or physical traits, created embryos from those edited cells, and then de-extincted the dire wolf.

"We are pleased to announce that, for the first time ever in history, we have successfully resurrected a prehistoric pop-culture icon," proclaimed a promotional video by Krampus director Michael Dougherty.

Artificial wombs have been on Colossal’s agenda since the company’s very earliest days, back when Lamm called up Church with a question about algae. Church is widely recognized as the father of synthetic biology and was one of the first scientists to edit the human genome with CRISPR, a technology that works like "molecular scissors" to cut DNA at precise points.

He is also a TED Talk darling with a knack for supporting scientifically plausible ideas that sound like science fiction; he has discussed editing genes to make them do such things as age in reverse, encode and store digital information like books, and be resistant to the damage caused by radiation they would be exposed to in interplanetary travel. He has applied for 170 patents. He sees himself as an intellectual provocateur.

"I think that’s probably my main role, not just in Colossal but in everything I do," Church said. "I don’t try to change opinion about things, but I do try to help people see what is possible, and listen very carefully to what society wants and doesn’t want, as it is a moving target. Almost everything that’s really cool in technology at one point somebody hated, and usually the haters are particularly loud about it."

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3D-Printed Eggs Hatched Their First Chicks

One biotechnology company has focused its efforts on de-extinction has hatched viable chicks from 3D-printed artificial eggs, a development that could reshape how researchers approach avian conservation and reproductive intervention. The eggs, fabricated using additive manufacturing techniques, successfully maintained the thermal, gaseous, and structural conditions necessary for embryonic development through to hatching.

Biological eggs are deceptively complex structures. The shell is not merely a passive container — it regulates gas exchange, moisture retention, and mechanical protection throughout incubation. Replicating this with a manufactured substitute requires precise engineering of porosity, wall thickness, and material thermal conductivity.

The 3D-printed shells in this experiment were designed to mimic the calcium carbonate microstructure of natural avian eggshells, allowing carbon dioxide to escape and oxygen to diffuse inward at rates close to those of a living egg. The internal membrane layers, which govern humidity exchange and protect against bacterial intrusion, were also synthetically reproduced. Getting these parameters right is the difference between a developing embryo and a failed one.

For de-extinction programs and conservation breeding efforts, access to fertile eggs from critically endangered species is a persistent bottleneck. Natural eggs are fragile, difficult to transport, and irreplaceable. An artificial vessel that can host a transferred embryo — or eventually a synthesized one — would give reproductive biologists far greater flexibility in managing genetic material across geographic distances.

The chicken was an obvious proof-of-concept species given its well-documented embryology and short incubation period of approximately 21 days. Scaling the approach to larger or taxonomically distinct birds, such as the California condor or various crane species, would require species-specific calibration of every physical parameter involved. Shell porosity alone varies considerably between bird families.

There are also practical risks worth noting. Artificial incubation environments can introduce subtle variations in temperature or humidity that affect developmental outcomes in ways that may not be visible at hatching but could manifest as physiological defects later. Long-term health tracking of chicks hatched through this method has not yet been published, and that data will be necessary before the technique can be considered reliable for conservation-critical animals.

The use of 3D printing in this context is not arbitrary. Conventional manufacturing cannot easily produce the graded porosity and curved geometries that biological eggshells exhibit. Additive processes, particularly those using ceramic or polymer composites, allow researchers to iterate on shell designs and test specific structural hypotheses without retooling an entire production line.

This kind of precision fabrication is already well established in orthopedic implants and microfluidic devices. Its application to reproductive biology follows a similar logic: biological interfaces demand tolerances that only bespoke manufacturing can provide. Readers interested in how additive manufacturing is being applied across biomedical contexts can explore 3D printing in biomedical engineering for broader technical context.

Introducing artificially incubated animals into wild populations or breeding programs will face regulatory scrutiny. Wildlife agencies in the United States and Europe require documented evidence of developmental equivalence before accepting captive-bred individuals into managed populations. A chick hatched from a printed egg would need to clear the same behavioral and physiological benchmarks as any other captive-bred bird.

The de-extinction angle adds a further layer of complexity. If the goal is eventually to gestate embryos reconstructed from ancient DNA — as some startups have publicly suggested — an artificial egg is only one component of an extremely long technical chain, each link of which carries its own uncertainties.

For now, the hatching of live chicks from fabricated shells is a measurable engineering result. The startup behind the work is positioning the technology as a platform for both conservation and, longer term, de-extinction applications. Whether those applications prove out depends on how well the underlying engineering holds up under conditions far more demanding than a chicken hatchery.

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China Installs Floating Wind Turbines

An energy company was reported to have successfully installed the world's largest single-unit floating offshore wind turbine off the coast of southern China.

The 16-megawatt system, known as Three Gorges Pilot, was completed in waters too deep for a traditional fixed-bottom foundation near Yangjiang in Guangdong province. Company representatives published a statement detailing the installation on 3 May 2026.

Floating wind turbines are designed to operate where depths make conventional offshore wind farms, which need to be anchored to the seafloor, impractical. Instead, the turbine sits atop a massive, floating platform that can be anchored in place, dramatically expanding the amount of ocean area available for wind power development.

Built by China Three Gorges (CTG) Corp., Three Gorges Pilot is a 16-megawatt turbine mounted atop a semisubmersible platform. The rotor spans 827 feet (252 meters), with the blade tip rising more than 886 feet (270 m) above the water.

The Three Gorges design follows on the heels of a turbine deployed last year by China Huaneng Group and Dongfang Electric Corp. Its primary improvements are at the structural and system engineering levels.

The new platform is designed to survive inclement conditions in the deep ocean, including waves higher than 66 feet (20 m) and wind speeds up to 164 mph (264 km/h) ‪—‬ the equivalent of a Category 5 hurricane.

It utilizes a sophisticated mooring system that combines suction anchors, anchor chains and high-strength polyester lines, along with ballast and monitoring systems, to keep the platform stable and prevent undue drift, company representatives said in a statement.

The design also includes several features intended to help absorb and distribute the force of the wind and water, thereby increasing the platform's durability and extending its operational lifespan.

Three Gorges engineers incorporated a 66-kilovolt dynamic subsea cable. It's a specialized underwater power cable designed to carry high-voltage electricity while moving and flexing with the rest of the submersible platform.

Adopting a wave-shaped design, it's engineered with high-flexibility conductors, reinforced armor layers for tensile strength and fatigue-resistant insulation and sheathing.

Most of the turbine's assembly was completed on land, at Tieshan Port in southern China. It was then towed offshore and connected in its final location for testing. At peak operational efficiency, the turbine is expected to generate about 44.65 million kilowatt-hours of electricity annually.

For context, an average U.S. home consumes roughly 10,500 KWh of electricity per year, based on figures from the U.S. Energy Information Administration — meaning the turbine could power around 4,200 homes annually.

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A Casual Walk Led To A 1,500-Year-Old Warrior Sword Scabbard

A usual morning walk in the Austrått district of Sandnes took an unexpected turn when a local resident discovered a stunning, 1,500-year-old gold scabbard that archaeologists believe once belonged to a warrior leader.

This week, the Archaeological Museum at the University of Stavanger in Norway announced its recent acquisition of a magnificent sheath, thanks to a curious hiker out for a stroll one morning.

Gleaming gold, the rectangular object, measuring 2.4 inches wide and one inch tall, is just a piece of the magnificent sword it once held in place. It likely belonged to a prominent figure in the 6th century, as only the most powerful and wealthy individuals would have carried a scabbard so rich in material and design.

The intricately designed scabbard, which was buried intentionally, differs from other decorative swords of the era by showing signs of frequent use. This suggests that the man who wore it had fought many battles or, at the very least, carried the sword publicly as a display of his status or achievements, according to Popsci.

This find is particularly significant as it marks the first time a scabbard of this kind has been discovered in Rogaland. It is one of only 17 identified in Northern Europe overall, making it exceptionally rare, according to a press release from the museum.

An uprooted tree first alerted the curious hiker during a morning walk near the southwest coast of Norway. A storm had ripped it from the ground and deposited it along his path. With a stick, he poked at the debris and struck gold. Once he spotted it, he promptly alerted authorities, not yet understanding the significance of what he had uncovered.

Though small and weighing barely a pound, it once held a sword of real value. The design, featuring serpentines and beaded golden threads or wiring meant to enhance its glittering glow, communicated how special it was. The craftsmanship displayed could only have been commissioned or inspired by a leader, as reported by the Smithsonian.

"Whoever wore the sword it was on was probably the leader in this area in the first half of the 6th century and had a warrior retinue of loyal men attached to him," said on-site archaeologist Håkon Reiersen in a press release.

Described as a surprising and rare find, the scabbard reversed a phrase commonly used in archaeology. While it was "well-preserved," the condition of note, according to researchers, was its excessive use, which set it apart. "The Hove discovery," as per Popsci, "is distinct for its clear evidence of heavy usage and wear."

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China Plans To Deploy Robotic Porter To The Moon

China has announced that its planned Chang’e-8 mission will feature a new robotic "Moon mechanic." This robot, the team behind it explains, will act like a construction worker to help assemble and lug equipment around once deployed.

Developed by the Hong Kong University of Science and Technology (HKUST), the robot weighs around 220 pounds (100kg) and has 4 wheels to move across the rough Lunar surface. Unlike previous moon rover-type robots, this new one comes with a pair of robotic arms for handling and manipulating tools.

This is important as most existing tools and systems for space programs are designed around how the human body works, specifically astronauts’ arms and hands.

So, without redesigning these tools, it makes sense to produce robots that can use them too.

"We have heard that Chang’e-7 is probably going to see the first humanoid robot landing on the [moon’s] South Pole. But our robot will go to a different part of the South Pole – it is a very large area, and we are curious about all of it," HKUST professor Gao Yang explained.

"This will be a novel demonstration of humanoid robotics on the moon and by China. We are very proud of this design," she added.

According to the design team, it also comes with artificial intelligence (AI) to enable it to operate semi-autonomously. This combination of rover wheels and humanoid robot arms is designed to get the best of both worlds when on the moon.

The wheels will provide excellent reliability and energy efficiency for traversing the Lunar surface, while the arms provide great dexterity to manipulate objects. According to the team, when the lander reaches the moon’s surface, the robot will deploy to carry out tasks like carrying scientific instruments and placing sensors in specific locations.

It will also act as a "porter" to install equipment, potentially help build infrastructure, and collect lunar soil/rock samples. To this end, the robot symbolizes changes in moon missions’ objectives from pure observation and sample collection to more of an on-site engineering project.

Planned future missions, like Chang’e-8, will see limited infrastructure setup and deployment of a network of sensors. It will also be used as a test-bed for long-term habitation and preparatory work for permanent bases.

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