Volkswagen's announcement that no evidence of forced labor was found in its supply chain in Northwest China's Xinjiang Uygur Autonomous Region not only refutes lie spun by some anti-China forces in the West, it also reflects an intensified tussle between European business and political circles, as the latter politicizing human rights issues runs counter to market rules and European companies' interests, said Chinese experts. They also warned Europe against following the US in weaponizing claims of "forced labor," as such move will hurt Europe's interests more than the US.

The audit on Volkswagen's jointly owned plant in Xinjiang was carried by Loening Human Rights & Responsible Business GmbH, among the site's 197 employees in SAIC-Volkswagen (Xinjiang) Automotive Co.

The audit encompassed on-site document checks in Urumqi city as well as interviews with staff and executives of the legal entity in Xinjiang. Several on-site inspections, including walkabouts of the outdoor premises of the plant were also part of the auditing process.

As of November 1, 2023, the legal entity had 197 employees, of which 150 employees are of Han ethnicity, accounting for 76.1 percent, and 23.9 percent of employees are ethnic minorities including Uygurs.

Loening said that the employees are qualified, having worked for the company for a long time of up to 10 years, have a low work intensity and are being remunerated above the average in the region. Overtime work is next to non-existent.

There were no indications of any use of forced labor among the employees at the plant, it said.

The result serves as a strong rebuttal to certain Western countries' smear campaign hyping the claims of "forced labor" in Xinjiang, as the audit process was conducted independently, in accordance with US and European standard and in line with the truth, a professor specializing in human rights issues at Southwest University of Political Science and Law, who requested anonymity, told the Global Times.

Earlier this year, Volkswagen investors demanded that the carmaker request cooperation from SAIC to conduct an independent audit of labor conditions at the site in Xinjiang, Reuters reported. Volkswagen's China chief Ralf Brandstaetter said there was no evidence of human rights violations or forced labor when he toured the site in February.

Big German companies, such as Volkswagen, have become targets of blame by some forces in Europe over human rights issues in China, because Germany has the closest trade cooperation with China within the EU, said Cui Hongjian, a professor with the Academy of Regional and Global Governance with Beijing Foreign Studies University. He said that those forces intend to use big corporations to pressure Germany and they believe once Germany changes its stance on China, it would help form a tougher stance against China within the EU.

Cui noted that the Volkswagen case has proved that the tendency in EU using political issues to poison cooperation has repulsed the European business circle. Big European companies now find the judicial and legal environment they thrived on has been eroded by certain China hawks in the EU, noting that cases such as forcing companies to prove their innocence will be repeated as long as some in Europe still see China as a threat.

In September 2022, the European Parliament proposed a regulation to ban products made using forced labor, including child labor, in the European Union (EU) internal market. However, the regulation has stalled, as member states struggle to agree on a common position that would allow inter-institutional negotiations to begin.

Part of the rationale behind Europe's "forced labor" move is to push for supply chain reconstruction, which might run against market rules as well as companies' interests, said Yan Shaohua, a research associate professor at the Center for China-Europe Relations, Fudan University. He noted that Volkswagen's example mirrors a tussle between business and political circles in Europe and helps to clear some misperceptions toward Xinjiang in Europe.

Dispel misunderstanding

"Forced labor" topic has been frequently abused by Western countries, especially the US, to pressure foreign companies who do business with China and Chinese companies. Similar to Volkswagen, US shoe company Skechers had a batch of its products manufactured in China seized by US customs, citing the so-called Uyghur Forced Labor Prevention Act, the Global Times learned from sources in 2022.

In order to meet the demand of the US customs, Skechers organized an independent investigation conducted by a third party, which found no evidence to support the "forced labor" allegations.

In September, US Department of Homeland Security said in a statement that it added three Chinese companies - Xinjiang Tianmian Foundation Textile Co Ltd, Xinjiang Tianshan Wool Textile Co. Ltd, and Xinjiang Zhongtai Group Co. Ltd - to the Uyghur Forced Labor Prevention Act (UFLPA) Entity List for their business practices involving "persecuted" minorities in Xinjiang, media reported.

In response, Chinese Foreign Ministry spokesperson Wang Wenbin said that China has made clear time and again that the allegations of "forced labor" in Xinjiang are nothing but an enormous lie propagated by people against China to smear our country's image.

Washington is determined to spin "forced labor" lie in order to strip China from the global supply chain, as Xinjiang remains a relatively small market for the US. However, Xinjiang's market is much more important for Europe, thus if Europe follows the US to weaponize "forced labor" claims, European companies and its economy will feel the pinch, Cui said.

In 2021, Xinjiang recorded around 261.8 billion yuan ($41 billion) in foreign trade with EU countries in the first 11 months of the year, up 30 percent year-on-year.

As agreed between China and the EU, the 24th China-EU Summit will be held in Beijing on Thursday, Foreign Ministry spokesperson Hua Chunying announced on Monday.

Wang Yiwei, director of the Institute of International Affairs at the Renmin University of China said that as usual, human rights issue will be discussed between the two sides. "The Volkswagen case has proved that the reckless smearing of China and politicians' thwarting of China-Europe cooperation out of ideological prejudice has provoked antipathy among Europe's business communities, while the public is eager to get a more rational and objective picture of China."

The Vietnamese version of China's hit reality show Sisters Who Make Waves has recently been released on the country's national television platform VTV3 and sites like YouTube. The show is crowded with Vietnam's hottest celebrities and has become highly popular, attracting a wide range of local viewers. The original show made a similar splash in the Chinese entertainment market when it was first released in 2020.

The Chinese version included stars like Zhang Yuqi, who has gained over 13 million viewers on China's Sina Weibo, and the Vietnamese show is star-studded as well. 53-year-old Vietnamese singer Hồng Nhung has joined the show, along with actress Ninh Dương Lan Ngọc and model H'Hen Niê.

Wanghe Minjun, a TV industry expert, told the Global Times that celebrities on the show need to be successful women, but also need to have contrasting personalities.

"Like all reality shows, the program needs tension and something that can spur discussion," said the expert, such as "a woman who has been to red carpet events many times but still remains childish in everyday life."

The show has become popular on YouTube, with an episode released two weeks ago having been viewed by 4.97 million viewers.

"A singer can connect with listeners' emotions through her voice. Listening to Hồng Nhung is like watching a movie unfold in my mind. I'm impressed that her skill is increasing as she gets older," a Vietnamese netizen said in a post on YouTube.

Xu Shuming, a cultural sociologist, told the Global Times that Sisters Who Make Waves is actually an "encouraging show that gives the audience an image of modern women's potential in the social sphere."

"Compared to shows about young idols, ones about mature and successful women can be more eye-catching since they can draw the attention of a larger group of people," Xu told the Global Times.

Vietnamese actress and singer Chi Pu joined the original Chinese show for its 2023 season and became widely popular with domestic viewers.

Her appearance on the show reassured the international market about the "universal acceptance of the subject of women's power," Wanghe told the Global Times. Chi Pu's Chinese journey was also significant for the later Vietnamese adaptation.

The original Chinese version is available on China's video platform Mango TV, which collaborated with Vietnamese platforms VTV3 and YeaH1 Group, as well as production company STV Production.

"With the advantages of multiple platforms and a large audience, we are confident in creating a reality show that will be successful in the Vietnamese entertainment market in 2023," Le Phuong Thao, the chief investment representative of YeaH1 Group, told the media.

So far, the Vietnamese version of Sisters Who Make Waves has attracted a total of 33 sponsors, the highest ever for a Vietnamese reality TV show.

The show's international success also indicates that the burgeoning Chinese entertainment industry is able to produce cultural IP of a "global standard," Wanghe said.

Other Chinese reality shows like Street Dance of China and Our Songs, a singing program, have also been adapted into Vietnamese and Spanish versions. The singing program Super Vocal has also been brought to audiences in North America.

"Chinese IP is good not only because of the shows' creativity, but also the growing Chinese entertainment industry. Its scale has convinced many international insiders," Wanghe told the Global Times.

To celebrate birthdays, my 2- and 4-year-old party animals got vaccinated. Measles, mumps, rubella, chicken pox, diphtheria, tetanus and whooping cough for the older one (thankfully combined into just two shots), and hepatitis A for the younger.

Funnily enough, there were no tears. Just before the shots, we were talking about the tiny bits of harmless germs that would now be inside their bodies, teaching their immune systems how to fight off the harmful germs and keep their bodies healthy. I suspect my girls got caught up in the excitement and forgot to be scared.

As I watched the vaccine needles go in, I was grateful for these medical marvels that clearly save lives. Yet the topic has become fraught for worried parents who want to keep their kids healthy. Celebrities, politicians and even some pediatricians argue that children today get too many vaccines too quickly, with potentially dangerous additives. Those fears have led to reductions in the number of kids who are vaccinated, and along with it, a resurgence of measles and other diseases that were previously kept in check.

Doctors and scientists try to reduce those fears with good, hard data that show vaccines are absolutely some of the safest and most important tools we have to keep children healthy. (Here’s a handy list of papers if you’d like to dig deeper.) A study published online March 10 in Pediatrics shows a particularly compelling piece of data on the impact of vaccines.

In 2000, doctors began using a vaccine called PCV7, which protected children against seven kinds of Streptococcus pneumoniae bacteria. PCV13 came along in 2010, adding six more types of bacteria to the protective roster. These bacteria can cause many different illnesses such as ear infections, meningitis and blood infections called bacteremia. In young children, these infections can sometimes be quite dangerous (and hard to diagnose).
Medical records that span these pre- and post-vaccine time periods, kept by Kaiser Permanente Northern California, offered a chance to see these pneumococcal vaccinations in action. Before the vaccine existed, 74.5 of 100,000 kids ages 3 months to 36 months got pneumococcal bacteremia. After PCV13, that number had plummeted to 3.5 per 100,000. That’s a 95.3 percent reduction.

This plunge is striking, says study coauthor Tara Greenhow, a pediatric infectious disease specialist at Kaiser Permanente Northern California in San Francisco. Along with earlier results, the new study shows that pneumococcal vaccines are highly effective, she says.

As you check out the graph, pay attention to the data points you don’t see. Those are the babies and toddlers who didn’t end up sick, thanks to a vaccine.

Pluto may get its smattering of red spots from the fallout of its hazy blue skies, researchers say.

Haze particles from the dwarf planet’s atmosphere settle onto all of Pluto’s surfaces. But some regions may become redder and darker than others because parts of the atmosphere collapse, exposing those spots to more surface-darkening radiation from space, researchers report March 22 at the Lunar and Planetary Science Conference in The Woodlands, Texas.

“The atmospheric haze on Pluto was a spectacular surprise,” says NASA New Horizons mission scientist Andrew Cheng, a physicist at Johns Hopkins University. When the New Horizons spacecraft flew past Pluto in 2015, scientists weren’t expecting to see haze reaching at least 200 kilometers above the dwarf planet’s surface; nor were they expecting to see the haze divided into about 20 delicate and distinct layers (SN Online: 10/15/15).
These discoveries led researchers to suspect that the layers formed as a result of weak winds blowing across Pluto’s surface and over its mountains. Cheng and colleagues describe how the winds would shape the haze layers in a paper accepted in Icarus and posted online February 24 at arXiv.org. The team also explains how the atmosphere may affect the color of the dwarf planet’s surface features.
“Haze particles continually fall out onto the surface and rapidly build up,” Cheng says. This process should effectively “paint” the entire surface a uniform color — but Pluto isn’t a single color. It has strikingly bright and dark terrains, with some of the highest contrast found in the solar system. These dark and light regions form because portions of Pluto’s atmosphere periodically collapse, with air freezing and falling onto the dwarf planet’s surface, he and colleagues suggest.
When a section of the atmosphere collapses, parts of the surface are exposed directly to radiation from space, which would darken the surface particles there, Cheng explains. The richness of the reds, the team says, cannot be explained without some kind of collapse of the atmosphere, which does eventually redevelop.

Observations from NASA’s Kepler spacecraft also support the idea that Pluto’s atmosphere collapses. In fact, as Pluto moves away from the sun, most, if not all, of its atmosphere may collapse onto the dwarf planet’s surface, reported Carey Lisse, also of Johns Hopkins University, at the conference.
Exactly how much of Pluto’s atmosphere freezes out during its year, which lasts for 248 Earth years, isn’t clear. But that is currently being monitored, says Timothy Dowling, an atmospheric scientist at the University of Louisville in Kentucky, who was not involved in the new work. Pluto, he notes, won’t complete the first lap that humans have watched it make around the sun until 2178.

The moon’s origin story does not add up. Most scientists think that the moon formed in the earliest days of the solar system, around 4.5 billion years ago, when a Mars-sized protoplanet called Theia whacked into the young Earth. The collision sent debris from both worlds hurling into orbit, where the rubble eventually mingled and combined to form the moon.

If that happened, scientists expect that Theia’s contribution would give the moon a different composition from Earth’s. Yet studies of lunar rocks show that Earth and its moon are compositionally identical. That fact throws a wrench into the planet-on-planet impact narrative.
Researchers have been exploring other scenarios. Maybe the Theia impact never happened (there’s no direct evidence that the budding planet ever existed). Instead of a single colossal collision, scientists have proposed that a string of impacts created miniature moons largely from terrestrial material. Those mini moons merged over time to form one big moon.

“Multiple impacts just make more sense,” says planetary scientist Raluca Rufu of the Weizmann Institute of Science in Rehovot, Israel. “You don’t need this one special impactor to form the moon.”

But Theia shouldn’t be left on the cutting room floor just yet. Earth and Theia were built largely from the same kind of material, new research suggests, and so had similar compositions. There is no sign of “other” material on the moon, this perspective holds, because nothing about Theia was different.

“I’m absolutely on the fence between these two opposing ideas,” says UCLA cosmochemist Edward Young. Determining which story is correct is going to take more research. But the answer will offer profound insights into the evolution of the early solar system, Young says.
The moon is an oddball. Most of the solar system’s moons are way out among the gas giant planets. The only other terrestrial planet with orbiting satellites is Mars. Its moons, Phobos and Deimos, are small, and the prevailing explanation says they were probably asteroids captured by the Red Planet’s gravity. Earth’s moon is too big for that scenario. If the moon had come in from elsewhere, asteroid-like, it would probably have crashed into Earth or pulled off into space. An alternate explanation dating from the 1800s suggested that moon-forming material flew off of a fast-spinning young Earth like children tossed from an out-of-control merry-go-round. That idea fell out of favor, though, when scientists calculated that the spin speeds required were impossibly fast.
In the mid-1970s, planetary scientists proposed the giant-impact hypothesis and the mysterious planet-sized impactor (named Theia in 2000 for the Greek deity who was mother of the moon goddess Selene). The notion made sense given that the early solar system was like a game of cosmic billiards, with giant space rocks frequently colliding.

A 2001 study of lunar rocks collected during the Apollo missions cast doubt on the giant-impact hypothesis. The research showed that the Earth and moon had surprising similarities. To determine a rock’s origin, scientists measure the relative abundance of oxygen isotopes, which act something like finger-prints at a crime scene. Rocks from Earth and its moon, the scientists found, had seemingly identical mixes of oxygen isotopes. That didn’t make sense if much of the moon’s material came from Theia, not Earth. Using impact simulations, Rufu and colleagues recently estimated that the chance of a Theia collision yielding an Earthlike lunar composition is very slim.

Studies of other elements in Apollo rocks, such as titanium and zirconium, also suggest that the Earth and moon originated from the same material. Young and colleagues recently repeated the oxygen isotope measurements with the latest techniques, hunting for even the slightest difference between Earth and the moon. In January 2016, the team published the results in Science. “We measured the oxygen to the highest precision available,” Young says, “and, gosh, the Earth and moon still look identical.”
Some scientists have built simulations of a giant Theia impact that fashion a moon made mostly from terrestrial material. But the scenarios struggle to match the modern positions and movements of the Earth-moon system.

It’s time to think outside the giant-impact box, some scientists argue. Not one but many impacts contributed to the moon’s formation, Rufu and colleagues proposed January 9 in Nature Geoscience. The moon, they say, has an Earthlike composition because most of the material flung into orbit from these impacts came from Earth.

Mini-moon merger
The multi-impact hypothesis was first put forward in 1989, though scientists at the time didn’t have the computer power to run the simulations that could support it. Rufu and colleagues recently revisited the proposal with computer simulations of multiple impactors, each about a hundredth to a tenth of Earth’s mass, smacking into the early Earth.

Any impactors that were direct hits would have transferred lots of energy into the Earth, excavating terrestrial material into space. Debris from each impact combined over centuries to form a small moon, the simulations show. As more impacts rocked Earth over tens of millions of years, more moons formed. Gravity pulled the moons together, combining them. Over roughly 100 million years, according to this scenario, around 20 mini moons ultimately merged to form one mighty moon (SN Online: 1/9/17).
The multimoon explanation yields the right lunar mix in simulations roughly 20 percent of the time, better than the 1 to 2 percent for the giant-impact hypothesis, the researchers note. “The biggest takeaway is that you cannot explain everything with one shot,” Rufu says.

Planetary scientist Robin Canup finds the scenario convincing. “To me, this appears to be a real contender alongside the one big impactor hypothesis,” says Canup, of the Southwest Research Institute in Boulder, Colo.

Don’t discount Theia
But the Theia hypothesis has recently found fresh support. The odds of Theia resembling Earth’s composition enough to yield an Earthlike moon may be a lot higher than originally thought, new chemical analyses suggest. Most of the material that makes up Earth came from the same source as a type of meteorite called enstatite chondrites, planetary scientist Nicolas Dauphas of the University of Chicago reported January 26 in Nature.

Just as with oxygen, the isotopic mix of various other elements in Earth’s rocks serves as a fingerprint of the rocks’ origins. Some of these elements are iron-lovers, such as ruthenium, which quickly sink toward Earth’s iron-rich core (SN: 8/6/16, p. 22). Any ruthenium found close to Earth’s surface, in the mantle, probably arrived late in Earth’s development. Iron-indifferent elements like calcium and titanium don’t sink to the core; they stay in the mantle. Their isotopes record what went into Earth’s assembly over a much longer period of time. By looking at the iron-lovers and iron-indifferent elements together, Dauphas created a timeline of what types of space rocks added to Earth’s mass and when.
A mix of different rocks, including some resembling enstatite chondrite meteorites, supplied the first 60 percent of Earth’s mass, Dauphas says. The remaining balance came almost exclusively from the meteorites’ precursors. In total, around three-quarters of Earth’s mass came from the same material as enstatite chondrites, Dauphas estimates. If Theia formed at around the same distance from the sun as Earth, then it primarily formed from the same material, and consequently had a similar isotopic composition. So if the moon formed largely from Theia, it makes sense that lunar rocks would have a similar composition to Earth, too.
“Most of the problem is solved, in my opinion, if you admit that the great impactor’s material was no different than that of the [early] Earth,” says cosmochemist Marc Javoy at the Institute of Earth Physics of Paris. “It’s the simplest hypothesis” and would mean that the material gobbled up by budding planets in the inner solar system was fairly uniform in composition, offering insight into the arrangement of material that built the solar system.

The notion that Earth is made from the same material as enstatite chondrites “doesn’t make many people happy,” says geochemist Richard Carlson of the Carnegie Institution for Science in Washington, D.C. The isotopes in Earth’s mantle and the meteorites may match, but the relative abundance of the elements themselves do not, Carlson wrote in a commentary in the Jan. 26 Nature. An additional step in the process is needed to explain this compositional mismatch, he says, such as some of the element silicon getting stashed away in Earth’s core.

“What we have now are a lot of new ideas, and now we need to test them,” says Sarah Stewart, a planetary scientist at the University of California, Davis.

One recently proposed test for the moon’s formation is based on temperature, though it seems to be consistent with both origin stories. A new study comparing the moon’s chemistry with glass forged by a nuclear blast suggests that temperatures during or just after the moon’s inception reached a sizzling 1400° Celsius. That means any plausible moon-forming scenario must involve such high temperatures, researchers reported February 8 in Science Advances.
High heat causes rocks to leach light isotopes of zinc. The green-tinged glass forged in the heat of the 1945 Trinity nuclear test in New Mexico lack light isotopes of zinc, says study coauthor and geologist James Day of the Scripps Institution of Oceanography in La Jolla, Calif. The same goes for lunar rocks. Such high temperatures during or just after the moon’s formation fit with the giant-impact hypothesis, he says. But Rufu calculates that her multi-impact hypothesis also yields high enough temperatures.
So maybe temperature can’t resolve the debate, but probing the composition of Earth and the moon’s deep interiors could prove the mini-moon explanation right, says Rufu. Without a single giant collision, the interiors of the two worlds may not have been well mixed, she predicts. Dauphas says that measuring the compositions of other planets could lend credence to his Earthlike Theia proposal. Mercury and Venus would also have formed largely from the same kind of material as Earth and therefore also have Earthlike compositions, he says. Future studies of the solar system’s inhabitants could confirm or rule out these predictions, but that will require a new chapter of exploration.

New observations of the whirling cores of dead stars have deepened the mystery behind a glut of antimatter particles raining down on Earth from space.

The particles are antielectrons, also known as positrons, and could be a sign of dark matter — the exotic and unidentified culprit that makes up the bulk of the universe’s mass. But more mundane explanations are also plausible: Positrons might be spewed from nearby pulsars, the spinning remnants of exploded stars, for example. But researchers with the High-Altitude Water Cherenkov Observatory, or HAWC, now have called the pulsar hypothesis into question in a paper published in the Nov. 17 Science.

Although the new observations don’t directly support the dark matter explanation, “if you have a few alternatives and cast doubt on one of them, then the other becomes more likely,” says HAWC scientist Jordan Goodman of the University of Maryland in College Park.

Earth is constantly bathed in cosmic rays, particles from space that include protons, atomic nuclei, electrons and positrons. Several experiments designed to detect the showers of spacefaring particles have found more high-energy positrons than expected (SN: 5/4/13, p. 14), and astrophysicists have debated the excess positrons’ source ever since. Dark matter particles annihilating one another could theoretically produce pairs of electrons and positrons, but so can other sources, such as pulsars.
It was uncertain, though, whether pulsars’ positrons would make it to Earth in numbers significant enough to explain the excess. HAWC researchers tested how positrons travel through space by measuring gamma rays, or high-energy light, from two nearby pulsars — Geminga and Monogem — around 900 light-years away. Those gamma rays are produced when energetic positrons and electrons slam into low-energy light particles, producing higher-energy radiation.
The size and intensity of the resulting gamma-ray glow indicated that the positrons slowly dissipated away from their pulsar birthplaces, getting bogged down by magnetic fields that permeate the galaxy and twist up the particles’ trajectories. That sluggish departure suggests the particles wouldn’t have made it all the way to Earth, the researchers conclude, and therefore couldn’t explain the excess.

Astrophysicist Dan Hooper of Fermilab in Batavia, Ill., disagrees. He still thinks pulsars are the best explanation for the rogue antimatter. The gamma ray measurements are just one method for studying how cosmic ray particles propagate through space. Other methods indicate that the pulsars’ positrons should be able to make the trek across the galaxy swiftly enough to get to Earth, he says. “I have every confidence that those particles are now reaching the solar system.”

Ruling out pulsars still wouldn’t point the finger at dark matter. “I think they’ve made a good case that these pulsars are not the source,” says astrophysicist Gregory Tarlé of the University of Michigan in Ann Arbor. Instead, Tarlé thinks that scientists can explain the excess positrons by better understanding what happens as cosmic ray particles travel through space. Protons interacting with the interstellar medium — particles that permeate the spaces between stars — could produce positrons that would explain the observations, without invoking either dark matter or pulsars.

The conflict leaves physicists with their work cut out for them. “In order to prove that it’s dark matter, you have to prove that it’s not something ordinary,” says HAWC researcher Brenda Dingus of Los Alamos National Laboratory in New Mexico. Although the new result disfavors the most obvious ordinary candidates, Dingus says, other possibilities are still in the running. “We need to look harder.”

“The strangest place in the whole universe might just be right here.” So says actor Will Smith, narrating the opening moments of a new documentary series about the wonderful unlikeliness of our own planet, Earth.

One Strange Rock, premiering March 26 on the National Geographic Channel, is itself a peculiar and unlikely creation. Executive produced by Academy Award–nominated Darren Aronofsky and by Jane Root of the production company Nutopia and narrated by Smith, the sprawling, ambitious 10-episode series is chock-full of stunningly beautiful images and CGI visuals of our dynamic planet. Each episode is united by a theme relating to Earth’s history, such as the genesis of life, the magnetic and atmospheric shields that protect the planet from solar radiation and the ways in which Earth’s denizens have shaped its surface.
The first episode, “Gasp,” ponders Earth’s atmosphere and where its oxygen comes from. In one memorable sequence, the episode takes viewers on a whirlwind journey from Ethiopia’s dusty deserts to the Amazon rainforest to phytoplankton blooms in the ocean. Dust storms from Ethiopia, Smith tells us, fertilize the rainforest. And that rainforest, in turn, feeds phytoplankton. A mighty atmospheric river, fueled by water vapor from the Amazon and heat from the sun, flows across South America until it reaches the Andes and condenses into rain. That rain erodes rock and washes nutrients into the ocean, feeding blooms of phytoplankton called diatoms. One out of every two breaths that we take comes from the photosynthesis of those diatoms, Smith adds.
As always, Smith is an appealing everyman. But the true stars of the series may be the eight astronauts, including Chris Hadfield and Nicole Stott, who appear throughout the series. In stark contrast to the colorful images of the planet, the astronauts are filmed alone, their faces half in shadow against a black background as they tell stories that loosely connect to the themes. The visual contrast emphasizes the astronauts’ roles as outsiders who have a rare perspective on the blue marble.
“Having flown in space, I feel this connection to the planet,” Stott told Science News . “I was reintroduced to the planet.” Hadfield had a similar sentiment: “It’s just one tiny place, but it’s the tiny place that is ours,” he added.
Each astronaut anchors a different episode. In “Gasp,” Hadfield describes a frightening moment during a spacewalk outside the International Space Station when his eyes watered. Without gravity, the water couldn’t form into teardrops, so it effectively blinded him. To remove the water, he was forced to allow some precious air to escape his suit. It’s a tense moment that underscores the pricelessness of the thin blue line, visible from space, that marks Earth’s atmosphere. “It contains everything that’s important to us,” Hadfield says in the episode. “It contains life.”

Stott, meanwhile, figures prominently in an episode called “Storm.” Instead of a weather system, the title refers to the rain of space debris that Earth has endured throughout much of its history — including the powerful collision that formed the moon (SN: 4/15/17, p. 18). Stott describes her own sense of wonder as a child, watching astronauts land on our closest neighbor — and how the travels of those astronauts and the rocks they brought back revealed that Earth and the moon probably originated from the same place.

It’s glimpses like these into the astronauts’ lives and personalities — scenes of Hadfield strumming “Space Oddity” on a guitar, for example, or Stott chatting with her son in the family kitchen — that make the episodes more than a series of beautiful and educational IMAX films. Having been away from the planet for a short time, the astronauts see Earth as precious, and they convey their affection for it well. Stott said she hopes that this will be the ultimate takeaway for viewers, for whom the series may serve as a reintroduction to the planet they thought they knew so well. “I hope that people will … appreciate and acknowledge the significance of [this reintroduction],” she said, “that it will result in an awareness and obligation to take care of each other.”
Editor’s note: This story was updated on March 19, 2018, to add a mention of a second executive producer.