Tuesday, July 13, 2021


Safe space: the cosmic importance of planetary quarantine




As the pace and ambition of space exploration accelerates, preventing Earth-born organisms from hitching a ride has become more urgent than ever



A rocket carrying Nasa’s Perseverance rover to Mars launches from Florida in July 2020. Photograph: Xinhua/Rex/Shutterstock

The long read


by Geoff Manaugh and Nicola Twilley

Tue 13 Jul 2021


“This, what you’re doing today, never happens,” Nasa’s David Seidel told us. “This is a rare chance,” agreed the director of the Jet Propulsion Laboratory, Michael Watkins, welcoming us into the lab’s spacecraft assembly facility, located in the hills outside Pasadena, California. The exceedingly unusual adventure awaiting us was a trip into the clean room where Perseverance, Nasa’s latest Mars rover, having been assembled under conditions of exacting sterility, sat awaiting shipment to Cape Canaveral.

Our visit, in December 2019, had been prefaced by a long email laying out extremely detailed rules: we were instructed not to wear any perfume, cologne, makeup or dangly earrings; flannel, wool or frayed clothing was not allowed; even our fingernails had to be smooth, rather than jagged. After a quick welcome, our phones and notebooks were confiscated, and a hi-tech doormat vacuum-brushed the soles of our shoes. In the gowning room, we were issued with face wipes, a sterile full-body “bunny suit”, plastic overshoes, hood, gloves and face mask, then offered a mirror in which to admire the final look. Finally, we were sent through the air shower – an elevator-sized chamber studded with nozzles that blasted us with pressurised air from all sides, in order to dust off any final stray particles – before stepping out into a white-floored, white-walled room filled with white-suited engineers.


The rover itself – a white go-kart the size of an SUV – was cordoned off behind red stanchions. The obsessive attention to cleanliness required in order to enter the rover’s presence was, in part, to protect the machine’s sensitive optical equipment and electronics: volatile chemicals, loose fibres or even flakes of human skin could damage its delicate circuitry or settle on one of its 23 camera lenses. But the primary purpose was planetary quarantine: preventing the importation of Earth life to Mars. “I don’t know that we can say it’s the most sterile object that humans have ever created,” said one engineer. “But it’s extremely clean.”

It is a condition of space exploration that we cannot search for life on alien planets without bringing along very small amounts of very small Earth life. This process is known as forward contamination, and minimising it, if not preventing altogether, is the ultimate responsibility of Nasa’s planetary protection officer – “the second-best job title at Nasa,” according to Cassie Conley, who held it from 2006 until 2018. (The best job title, Conley told us, was director of the universe, but that position was sadly eliminated in an institutional reorganisation.)


The practice of planetary quarantine dates back to the 1950s, when it became clear that rocket technology was shortly going to put outer space within human reach for the first time. In an ideal universe, the robotic spacecraft that we send to explore the cosmos would be sterile. (Humans are, by definition, contaminants.) In reality, for technical and economic reasons, they are not. But the consequences of transferring biological material between celestial bodies are a fractal example of unknown unknowns: we don’t know what forms of Earth life might survive a space journey, which of them might then flourish in whatever extraterrestrial conditions await them, and whether life even exists elsewhere in the solar system, let alone how it might be harmed by Earth life – or vice versa.

Faced with such extreme uncertainty, but unwilling to stay at home, spacefarers, like so many before them, have turned to quarantine as the buffer that will allow them to explore space without endangering Earth or inadvertently polluting the cosmos. Quarantine as a practice – a period of time, traditionally 40 days, in which a suspicious person or object is watched for signs of disease until proven safe – was formalised and named during t e Black Death in the 14th century. Its rationale, and its implications, have become familiar to generations of humans during outbreaks over the subsequent centuries, most recently during the Covid-19 pandemic. On a daily basis, the complex calculus of quarantine is used to balance freedom of movement and risk in the global commodities trade – in cattle, for example, or citrus, or cacao plants. In a cosmic context, however, where the potential threat is almost entirely speculative but the stakes are existential, what role should quarantine play?

The person in charge of protecting “all the planets, all the time” – as international planetary protection policy puts it – works out of a small office inside Nasa’s headquarters, a squat, undistinguished building in Washington DC. Just a couple of blocks north, in between the US Botanic Garden and the Air and Space Museum, lies a fairly recent addition to the Mall: the National Museum of the American Indian. It was established in response to the revelation that the National Museum of Natural History held the skeletons of nearly 20,000 Native Americans in its collections. Those remains, collected by force as the spoils of colonisation, are a reminder of the much larger toll incurred when two long-separated biospheres came into contact: “The greatest destruction of lives in human history,” according to the geographer W George Lovell. The concept of planetary quarantine arose at least partially in response to the catastrophic impact of that initial encounter.
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It is impossible to know how many people lived in the Americas in 1491, before European explorers made first contact, but historians estimate that nine out of every 10 people in the New World died in the century or so that followed – most from infectious diseases. Before the conquistadors had even set foot in the major cities of South and Central America, their microbes had travelled ahead of them, passed from body to body, causing mass deaths. Without any previous exposure to smallpox, measles, influenza, typhus or diphtheria, the indigenous people of the Americas had no immunity to these common Old World diseases – and no concept of quarantine, having never had much need for it.

In 1957, as the Soviets successfully launched Sputnik and the cold war militarisation of space began to ramp up, some scientists began to worry that the encounter between Earth organisms and any lifeforms that might exist elsewhere in the solar system might also result in mutually assured destruction. Even prior to Nasa’s founding in 1958, the Stanford microbiologist Joshua Lederberg had begun making the case for an international agreement to prevent the contamination of extraterrestrial environments with Earth life, and vice versa. “We are in a better position than Columbus was to have our cake and eat it, too,” he wrote, arguing that planetary quarantine was essential to the “orderly, careful, and well-reasoned extension of the cosmic frontier”.
Neil Armstrong, Buzz Aldrin and Michael Collins speaking to their wives through the window of a mobile quarantine facility in July 1969. Photograph: Nasa Nasa/Reuters

Lederberg seems to have been primarily motivated by concern for the scientific loss that would occur if Earth life wiped out alien life, rather than the ethical dimensions of such a tragedy. “The overgrowth of terrestrial bacteria on Mars would destroy an inestimably valuable opportunity of understanding our own living nature,” he argued.


Others felt humans had a moral responsibility to avoid causing harm elsewhere in the galaxy. CS Lewis, better known for chronicling the fantasy world of Narnia, also wrote a space-themed trilogy in which he despaired at the idea that a flawed and sinful humanity, “having now sufficiently corrupted the planet on which it arose”, would overcome “the vast astronomical distances which are God’s quarantine regulations” and “seed itself over a larger area”. In the science community, one of Lederberg’s allies, the young astronomer Carl Sagan, later wrote that if there was life on Mars, humans must leave the planet alone. “Mars then belongs to the Martians, even if they are microbes,” he declared.

Largely as a result of Lederberg and Sagan’s campaign, the International Council of Scientific Unions, a non-governmental organisation dedicated to international cooperation in the advancement of science, formed Cospar, the Committee on Space Research, which still sets the ground rules for extraterrestrial exploration.

Cassie Conley, the former planetary protection officer, who often wears her hair in a long braid, is personally more aligned with Lewis. “I don’t particularly like humans,” she told us, as we sat in her office, the light outside fading. “I think we screwed up this planet well enough that we don’t deserve another one – but that’s just my personal bias and I’m very careful not to bring it into my job.”

Conley got that job when some of the tiny worms she had sent into orbit aboard the space shuttle Columbia in 2003, in order to study muscle atrophy in microgravity, were found to have survived the shuttle’s disastrous explosion. Her experiment provided an inadvertent demonstration that multicellular life might be able to survive a meteorite impact – and thus potentially spread between planets on meteors – and it caught the eye of then planetary protection officer John Rummel.
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Rummel invited Conley to Washington on a year’s placement, and then, as he gradually eased his way toward the exit, left her to inherit the role. As a scientist, Conley is deeply curious about what we might find elsewhere in the universe. “I’m very interested in understanding the evolution of life,” she told us. But she is more invested in ensuring that we don’t do something that precludes the possibility of answering those questions before we even have the ability to ask them. “The best way to prevent forward contamination is simple: don’t go there,” she said. “But we’ve already decided we want to go there, so it’s a case of: in the absence of information, don’t do something that might reduce your ability to get information in the future.”

Back in the 1960s, as the scientific community tried to decide what form planetary protection should take, Nasa engineers were faced with two irreconcilable demands: internally, management insisted that anything the agency sent into space must be utterly sterile, while, on national television, John F Kennedy promised that the US would put a man – and his trillions of accompanying bacteria – on the moon by the end of the decade. In the absence of any absolute certainties, Cospar dithered, eventually deciding that planetary quarantine would have to operate based on a complex algebra of acceptable risk, in which the probability that a viable microbe would be brought to a planet on a landing craft would be divided by a guesstimate of how likely it was to survive there, in order to arrive at a global contamination allowance that could be divided between each spacefaring nation.

To fill in the parameters in that formula, Nasa began looking at the bacterial kill rates of different sterilisation techniques used in the food-processing industry, as well as in the army’s bioweapon laboratories at Fort Detrick in Maryland. Using a particularly hardy spore-forming bacteria as their model for a series of tests, Nasa scientists fumigated, irradiated and baked spacecraft components before smashing them to see how many bugs survived, lurking in cracks and in the threads of screws and bolts. They determined that it was possible to clean a spacecraft sufficiently well that only one in every 10,000 landings would transport a viable microorganism.
Engineers in Nasa’s jet propulsion laboratory in Pasadena, California with the Perseverance rover in 2019. Photograph: Nasa/JPL-Caltech/AFP/Getty



The likelihood that Earth life could survive on a particular solar system body was even harder to pin down. Somewhat arbitrarily, Cospar recommended that, for planets of biological interest, the total acceptable risk be kept to no more than a one in 1,000 chance of seeding another planet with terrestrial life in the course of exploring it. In the end, “acceptable” simply meant a figure that was the best engineers could achieve without breaking the budgets of member states’ space agencies. The total risk – a 0.1% chance of contamination – was then divided up among the spacefaring nations, with the US, as one of just two spacefaring superpowers, receiving nearly half of the total allocation.

Once astronauts get involved, though, all bets are off. Cospar’s framework is intended to cover only the short window of time during which a planet remains uncontaminated (and thus alien) enough to be of “biological interest”. Originally, this period was set at an optimistic 20 years – in the heady days of the space race, scientists estimated that, for example, dozens of missions to Mars would take place during that time, allowing its indigenous biology to be thoroughly understood. It has since been extended.

By the mid-70s, as the Apollo programme drew to a close and as Viking 1 and Viking 2, the first Martian landers, sent back data that painted a picture of a much harsher, drier environment than many scientists had hoped for, it began to seem as if the rest of the solar system was lifeless – making the need for quarantine moot. Indeed, many at Nasa and other space agencies chafed under planetary protection protocols, whose implementation made missions more expensive and limited onboard experiments to those whose hardware could survive the rigours of decontamination.

Crafting the original Cospar standards for what measures would adequately protect an imagined form of life in an unknown landscape from an inadequately defined threat was little more than an exercise in speculative extrapolation. In the 90s, Nasa embarked on a series of research programmes designed to reduce this uncertainty. The better the data in their models of probable contamination, the more precisely tailored the level of protection could be. (In human terms, this is analogous to implementing quarantine based on data from robust testing and contact tracing, so that most normal life and economic activity can continue, as opposed to a complete, indiscriminate lockdown.)

In the past two decades, a series of missions has begun to fill in some of the gaps in our knowledge of conditions in the solar system, sending back promising news of briny oceans on one of Jupiter’s moons, Europa, and abundant sources of molecular energy on Enceladus, one of Saturn’s satellites. A series of probes and rovers sent to Mars has returned signs of liquid water and seasonal methane clouds. “Mars continues to surprise us,” Conley said. “This is a good problem to have.” Even the Earth’s moon seems more interesting than it used to, with recent observations confirming the presence of water ice at its poles and in the “cold traps” created by permanently shadowed regions.
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Meanwhile, a lot of new research, much of it Nasa-funded, has redefined our understanding of the extraordinary capabilities of Earth microbes. In deep caves and deserts, thermal vents at the bottom of the sea, and even cans of irradiated ground meat, researchers have discovered microbes that can survive crushing pressure, blistering heat and caustic alkalinity, without sunlight, water or any of life’s typical thermodynamic levers. Many of these so-called extremophiles seem well adapted to Martian conditions, particularly beneath that planet’s surface.

To learn more, we visited the New Mexico home of the speleo-biologist (a researcher of cave-dwelling organisms) Penelope Boston, who, at the time of our visit in August 2012, was serving on Nasa’s planetary protection advisory committee. Boston’s first real caving experience, decades earlier, was in the nearby Lechuguilla Cave, where she twisted her ankle, popped a rib, acquired an infection that swelled her eye shut, and discovered several novel organisms – microbes whose metabolism, life cycle and chemical proclivities rendered them almost unrecognisable as biology.

“I really think it’s the subsurface of Mars where the greatest chance of extant life, or even preservation of extinct life, would be found,” Boston told us as we sat on her couch, surrounded by space-themed art and memorabilia. The cave organisms that Boston has since spent much of her career studying exist on an entirely different timescale, she explained, reflecting an environment in which they have few or no predators but extremely limited sources of energy. “I think this is a long-term, evolutionary repository for living organisms,” Boston said. On Mars, whose environment seems to oscillate between freezing aridity and something that is perhaps more clement, Boston speculates that subterranean life could lie dormant for millennia, reawakening only when conditions improve.
An image captured by Perseverance on Mars. Photograph: Nasa/JPL-Caltech/Zuma Wire/Rex/Shutterstock


Boston’s work has led her to implement planetary protection protocols here on Earth, to avoid introducing surface life into the extreme depths that she explores. Nasa’s current planetary protection officer, the bio-geochemist Lisa Pratt, who took over from Conley in 2018, has discovered the extraordinary capabilities of subterranean life herself: her earlier research included the discovery of slow-growing bacteria living under enormous pressure at the bottom of a goldmine in South Africa, where they subsist solely on the byproducts of radioactive energy.

Unfortunately, the other extreme environment in which many of these extremophiles thrive is the spacecraft assembly room in which we visited Perseverance, the rover Nasa was about to send to look for life on Mars. Nasa’s rigorous cleaning and decontamination processes turn out to inadvertently select for the kinds of microorganisms that don’t mind high heat, extreme aridity and low nutrient levels. Dotted around the facility, in between the rover, its heat shield and its descent stage, were what the microbiologist Kasthuri Venkateswaran called “witness plates” – two-inch-square samples of the materials used to build the spacecraft, which he periodically swabs to develop a snapshot of the room’s bacterial inhabitants.

Venkateswaran, who is universally known as Venkat, told us that his inventories of clean-room biodiversity have revealed the mundane and the extraordinary living side by side. “I don’t want to see the headline that dog shit is in the Jet Propulsion Laboratory clean room,” he warned us, before admitting that, despite all the precautions, microbes that are found almost exclusively in dogs’ guts still show up on his witness plates, shed by engineers with pets. Meanwhile, in 2009, Venkat discovered an entirely new genus of extremely salt- and acid-tolerant bacteria on the surface of a spacecraft, which he named Rummeliibacillus, after John Rummel, the former planetary protection officer. In 2016, researchers came across Rummeliibacillus again, this time in soil from Antarctica. Other novel organisms isolated from the clean room have since shown up in a Colorado mine and a hydrothermal vent at the bottom of the Indian Ocean.

Venkat’s microbial census serves several purposes. He archives them, storing thousands of strains of bacteria in a special freezer in anticipation of a future scenario in which life is discovered in a sample from Mars, and researchers need to rule out the possibility that we actually carried it there and back with us. He also uses them as model organisms with which to develop new cleaning and sterilisation technologies. “If we’re able to knock these hardies, then we will be able to kill the other stuff also,” he said.

Recently, he has started sending some of the toughest candidates up for 18-month stints aboard the International Space Station, to test whether they might be able to survive a lengthy journey under the intense UV radiation of space. One strain of Bacillus pumilus, named SAFR-032 (where SAF stands for spacecraft assembly facility), was damaged but not killed by its vacation in the vacuum of space – which, Venkat told us, means it could “potentially survive for millions of years once deposited on the Martian surface”. (He is now analysing the survivors to see whether their unique UV-resistant biochemistry could be adapted for use in sunscreen.)

Some of Earth’s extremophiles are now Martians; that much is evident. “We know there’s life on Mars already because we sent it there,” Nasa’s former chief scientist John Grunsfeld admitted in 2015. Whether these microbes can emerge from dormancy and grow – whether they, as Venkat put it, are capable of “making the red planet green” – is much less well understood. Nasa’s research programme was designed to accumulate the data necessary to produce a more efficient planetary quarantine programme. But while it has yielded a wealth of new knowledge about Earth and space, it seems to have raised more questions than it has answered.

“We can use all these wonderful instruments that we load on to vehicles like Curiosity and we can send them there,” Penelope Boston admitted. “We can do all this fabulous orbital stuff. But, frankly speaking, as a person with at least one foot in Earth science, until you’ve got the stuff in your hands – actual physical samples – there is a lot you can’t do.”

Perseverance, or Percy, as Nasa has begun to call it, which embarked on its journey to Mars just a few months after our visit, and landed safely in February 2021, represents the first step towards alleviating that frustration. We marvelled at it from behind stanchions as engineers pointed out the UV spectrometer intended to search for trace organic chemistry, and the tiny chunk of Martian meteorite, recovered from Oman and donated by London’s Natural History Museum, that is mounted on to the instrument’s robotic arm to serve as a calibration target. We scribbled notes about which deodorant technicians are allowed to wear (Mitchum unscented) on special, shiny blue clean-room paper, bonded with polyethylene so it doesn’t shed lint and particles – in the context of spacecraft assembly, normal paper is considered a contaminant. But the part we really wanted to see – the carousel of 43 cigar-sized metal tubes that will ultimately hold the Martian rocks that Perseverance will drill and cache – wasn’t there.

As it turned out, the tubes were in a nearby building, awaiting final sterilisation: oven-baking at high temperatures for an extended period in a process that would damage the other instruments on the rover but will successfully eliminate any trace of terrestrial biochemistry. After that, they would be shipped to Cape Canaveral separately, in a vacuum backfilled with inert gas. “They don’t get installed until right before we actually find our way out to the top of the rocket itself, because we want to keep them as pristine as possible,” David Gruel, the mission assembly, test and launch operations manager, told us. “They’re certainly the cleanest thing we’ve ever taken to Mars.”

“Officially, every time we go into space, we go into quarantine first,” the retired Italian astronaut Paolo Nespoli told us. “I did a total of five official quarantines – one time at Cape Canaveral and four times with the Russians in Baikonur.”

Even before humanity tackles the much larger challenge of sending people to another planet – and bringing them safely back, along with any alien germs they might have picked up – quarantine has become an essential part of the spaceflight pre-launch timeline. The practice can be traced back to Apollo 7, an 11-day mission that was intended to test the future lunar command module. All three astronauts came down with severe head colds, and, in microgravity, the congestion proved more debilitating than on Earth. Tempers frayed, culminating in a minor mutiny in which the astronauts defied ground control by refusing to wear their helmets during re-entry and landing, so that they could still “pop” their ears and relieve sinus pressure.

Charles Berry, the Nasa flight surgeon at the time, immediately instituted a strict quarantine protocol to protect astronauts from any exposure to germs that might make them sick in space, even refusing to let Richard Nixon have a prelaunch dinner with the Apollo 11 astronauts. “I guess that’s as close as I ever came to getting fired in my life,” Berry recalled in his Nasa oral history. “If they came down with anything, whatever it was – a cough, a sniffle or anything else – we were going to have to prove that it didn’t come from the moon.”

Nespoli didn’t pay much attention to quarantine during his spaceflight days: “You do it because it needs to be done.” That said, he was intrigued by the difference between the American implementation of quarantine and its Russian equivalent. “Somehow the quarantine in the United States, it’s a very hectic time,” he said. Nasa keeps astronauts busy with technical meetings, training sessions, rigid mealtimes and treadmill sessions in the tiny exercise room. “You do this, you do that – a lot of things are happening,” Nespoli recalled. The astronauts are confined to a single, artificially lit building in order to shift their circadian clock on to the flight schedule, or MET (Mission Elapsed Time), as it’s officially known. “It doesn’t matter if it’s 3am outside. They tell you it’s 10 o’clock in the morning and you get bright light,” he said. “You get shifted in this way.”

“Now, the Russians, to be frank, they don’t care.” Nespoli laughed. “They have a completely different attitude.”

In Baikonur, the crew stay in a huge compound originally built to house the head of the Russian space agency. The astronaut Scott Kelly wrote that it is “affectionately called ‘Saddam’s Palace’ by Americans,” thanks to its marble floors, glittering chandeliers, ensuite Jacuzzis and pressed linen tablecloths. “I wouldn’t say it’s a vacation, because it’s not quite like that, but it’s much more relaxed,” Nespoli told us. He recalled going for walks in the extensive grounds, unwinding with the help of the in-house massage therapist, and enjoying three-course lunches and dinners every day.

“You still do the training and the technical stuff,” Nespoli said, but the Russians seem to understand that the crew needs to rest and recharge, letting go of Earthly stress before the rigours of space.

Reflecting on quarantine during the early months of the Covid-19 pandemic, Nespoli was struck with renewed force by this prior experience. “Quarantine in Baikonur is really a moment where you just let go of everything,” he said. Beyond its obvious value in risk reduction, under the right circumstances quarantine can also offer an emotional and intellectual buffer – a necessary psychological cushion before crossing from one world to another.

Similarly, the extended isolation posed by space travel itself – trapped for months on end in a confined space, connected to friends and family only through video calls – was made bearable by considering the alternative. “I was glad I was inside,” Nespoli said, “because if I was outside, I would have been dead. I think you can look at that as like lockdown in a certain way: you are quarantined, but you feel kind of free, because you are safe.”


This is an edited extract from Until Proven Safe: The History and Future of Quarantine by Geoff Manaugh and Nicola Twilley, published by Macmillan on 22 July and available at guardianbookshop.com

Follow the Long Read on Twitter at @gdnlongread, listen to our podcasts here and sign up to the long read weekly email here.

South Africa violence ‘rarely seen in history of our democracy’

President Cyril Ramaphosa addresses unrest in response to jailing of Jacob Zuma




01:03South Africa military deployed to tackle violence over Zuma jailing – video


Jason Burke and agencies
Tue 13 Jul 2021 

South African president Cyril Ramaphosa has said the deadly violence gripping the country is unprecedented post-apartheid as he deployed troops to help police crush the violence and looting prompted by the jailing of ex-president Jacob Zuma.

Ten people have died, some with gunshot wounds sustained before the army was deployed, and 489 people have been arrested. Among those killed was a 15-year-old boy who was shot in the chest with a rubber bullet, local media reported.

Jacob Zuma’s imprisonment is a victory for South Africa’s post-apartheid constitution
Mark Gevisser

Around 2,500 soldiers were sent to the streets of the country’s two most densely populated provinces, Gauteng, where Johannesburg, the country’s largest city and economic powerhouse is located, and KwaZulu-Natal, Zuma’s home province. In Durban, the largest city in KwaZulu-Natal, paramedics were attacked during the violence, local agency News24 reported.

“Over the past few days and nights, there have been acts of public violence of a kind rarely seen in the history of our democracy,” said Ramaphosa in a televised address on Monday, adding that he was speaking with “a heavy heart”.

Overwhelmed police are facing mobs who have ransacked stores, carting away anything from crates of alcohol to beds, refrigerators and bath tubs.

Ramaphosa said he had “authorised the deployment of defence force personnel in support of the operations” of the police.

Earlier the army said they would assist police “to quell the unrest that has gripped both provinces in the last few days”.

It was the second successive day Ramaphosa had addressed the country on the violence.

South Africa’s supreme court sentenced Zuma to 15 months in prison for contempt, after he defied its order to give evidence at an inquiry investigating high-level corruption during his nine years in power, which ended in 2018.



01:02Jacob Zuma sentenced to 15 months in prison for contempt of court – video


It is the first time a former president has been jailed in post-apartheid South Africa and has been seen as a landmark for the rule of law in the troubled country, as well as a victory for Ramaphosa.

Ramaphosa ousted Zuma, who faced a slew of corruption allegations, in 2018 after taking over the leadership of the ruling African National Congress the previous year.

Zuma’s jailing will further strengthen the moderate and pragmatic faction of the ruling party, and significantly undermine the entrenched networks within the government and South Africa’s bureaucracy loyal to the former leader, analysts say.

Zuma’s core supporters, echoing the ex-president’s line, say he is the victim of a witch-hunt orchestrated by political opponents. The 79-year-old former anti-apartheid fighter remains popular among many poor South Africans.


Health service buckling as third coronavirus wave fuelled by Delta variant sweeps across South Africa


The centre of the unrest is Zuma’s home region, KwaZulu-Natal. In its capital, Pietermaritzburg, smoke billowed from the roof of a large shopping mall on Monday. Banks, shops and fuel stations in the city were shut.

A police helicopter hovered over the Johannesburg suburb of Soweto, where looters casually made off with giant TV sets, microwave ovens, clothes and linen, for hours. Many businesses were shuttered. A mall in Johannesburg’s upmarket Rosebank suburb closed early following “a tipoff that the looters are on their way,” a security guard told AFP.

In the meantime, chemists helping the government’s Covid-19 vaccination campaign warned that the unrest gripping the country would slow inoculations in the continent’s worst-hit country.

“Our vaccination programme has been severely disrupted just as it is gaining momentum,” said Ramaphosa.

– With Agence France-Presse



Rocky Mountain glaciers experienced about a month of melt during 10-day heat wave: expert

Adam Lachacz
CTVNewsEdmonton.ca Digital Journalist
Published Sunday, July 11, 2021



EDMONTON -- The recent heat wave amplified glacier melt in the Rocky Mountains along the Icefields Parkway, resulting in lasting consequences for Alberta and areas relying on glacial headwaters.

University of Alberta atmospheric sciences associate professor Jeff Kavanaugh examined the impacts the heat wave had on the Wapta Icefield, a headwater source for waters flowing past Calgary.

He looked at temperatures registered at weather stations along the Icefields Parkway, a 232-km stretch of highway winding along the Continental Divide that is home to 100 glaciers.

“What I saw was that it was incredibly warm,” Kavanaugh said, as he compared temperatures experienced in the area over the past 12 years.

Temperatures at that time of year were around 16 degrees Celsius at the elevation where the glacier is located. On June 29, the temperature was at 27 degrees Celsius.

Last year during the same time in June, there was one day where the ice field encountered temperatures around 26 degrees, however, it was for a matter of hours.

“We were about nine degrees, 10 degrees Celsius higher, on average, for the entire 10-day span (of the heat wave),” Kavanaugh said.

Sustained warm temperatures were even experienced during the night meaning glaciers saw little cooling respite.

“With this bump up, we didn’t see cooling,” he added. “A quite dramatic change.

“We’ve had an additional month of melt, equivalently, built into this brief heat dome time.”

Kavanaugh calculated that the glacial melt experienced during the heat wave was about three times the amount of the average melt between 2009 and 2020. According to him, the amount he calculated was confirmed by data collected at headwater discharge stations at Lake Louise.

GLACIAL LIFECYCLE AT RISK AS CLIMATE CONTINUES TO WARM

For Kavanaugh, an alarming trend has been the level at which the snow accumulation zones for glaciers are moving higher and higher in elevations per year.

“Glaciers grow where you receive more snowfall every year than what melts away,” he explained. “That is generally high up in the mountains.

“With that build up of snow, year-over-year, eventually, the snow gets thick enough to compact into ice. Then eventually that ice becomes thick enough to start to deform under its own weight. That is what we call a glacier.”

The natural lifecycle for a glacier, Kavanaugh says, is for it to grow during the winter, forcing its extremities to flow toward lower elevations where they slowly melt.

“A glacier is always a battle between accumulation, flow, and melt,” he acknowledged.

“Right now what we are seeing is the elevation at which snow persists year-in year-out is rising. So you have a smaller area gathering snow and a larger and larger area losing snow and ice mass.”

“The mass balance is changing,” Kavanaugh added.

That change over time was unsustainable, but as more events like the recent heat wave occur, the risk of losing glaciers increases significantly, Kavanaugh says, since there is more glacial ice exposed.

“Now that we’ve exposed more glacial ice, the rest of the summer will have an outsized impact on melt,” he said. “This year will get a lot of melt, which will be great for agriculture, our populations, and healthy for the fish.

“But this is unsustainable because we are losing the area in which ice is accumulating and we are increasing the area in which it is being lost.”

LOSS OF GLACIERS HAS ‘MASSIVE’ IMPACT ON WATER SUPPLY


Glaciers supply much of Alberta and western Canada with drinking water, especially at times of the year when other sources of water are at their lowest, Kavanaugh said.

“Glaciers pick up the slack right when we need it the most,” he said, as they provide water supply after the snow pack has melted away, rainfall is at its lowest, and evaporation from the landscape is at its maximum.

“We’ve come to rely on these summer supplies of water provided by the glaciers. And they’re not going to last much longer.”

With files from CTV News Edmonton’s David Ewasuk



UN sets out Paris-style plan to cut extinction rate by factor of 10

Ambitious draft goals to halt biodiversity loss revealed, with proposed changes to food production expected to ‘raise eyebrows’

The agreement, to be scrutinised at the Kunming summit, aims
 to address how to feed the world’s growing population while 
protecting the environment. 
Photograph: David Talukdar/REX/Shutterstock

The age of extinction is supported by


Patrick Greenfield
@pgreenfielduk
Mon 12 Jul 2021 

Eliminating plastic pollution, reducing pesticide use by two-thirds, halving the rate of invasive species introduction and eliminating $500bn (£360bn) of harmful environmental government subsidies a year are among the targets in a new draft of a Paris-style UN agreement on biodiversity loss.

The goals set out by the UN Convention on Biological Diversity (CBD)to help halt and reverse the ecological destruction of Earth by the end of the decade also include protecting at least 30% of the world’s oceans and land and providing a third of climate crisis mitigation through nature by 2030.

The latest draft of the agreement, which follows gruelling virtual scientific and financial negotiations in May and June, will be scrutinised by governments before a key summit in the Chinese city of Kunming, where the final text will be negotiated.

Alongside the 2030 draft targets, new goals for the middle of the century include reducing the current rate of extinctions by 90%, enhancing the integrity of all ecosystems, valuing nature’s contribution to humanity and providing the financial resources to achieve the vision.

The Guardian understands that the summit, scheduled for October, is expected to be delayed for a third time due to the coronavirus pandemic. It is now likely to take place in Kunming in the first half of 2022, pending in-person preparatory negotiations that could happen in Switzerland early next year.


UN’s Kunming biodiversity summit delayed a second time

Read more


Basile van Havre, co-chair of the CBD working group responsible for drafting the agreement, said the goals were based on the latest science. He added that, if adopted, it could represent a significant shift in global agriculture.

“Change is coming [in food production],” he said. “There will be a lot more of us in 10 years and they will need to be fed so it’s not about decreasing the level of activity. It’s about increasing the output and doing better for nature.

“Cutting nutrient runoff in half, reducing pesticide use by two-thirds and eliminating plastic discharge: those are big. I’m sure they’re going to raise some eyebrows as they present significant change, particularly in the agriculture.”

Last month, Van Havre warned the world was running out of time for an ambitious deal at Kunming, which is part of a multi-decade ambition to live in harmony with nature by 2050.

Scientists have warned that humanity is causing the sixth mass extinction in the planet’s history, driven by overconsumption of resources and overpopulation. One million species are at risk of extinction largely due to human activities, according to the UN’s assessment, threatening the healthy functioning of ecosystems that produce food and water.
The plan includes the goal of protecting 30% of the world’s oceans by 2030. 
Photograph: Soumyabrata Roy/NurPhoto/REX/Shutterstock

In the latest set of 21 targets to be negotiated at Kunming, nature-based solutions such as restoring peatlands and adopting regenerative agriculture will contribute at least 10 GtCO2e (gigatonnes of equivalent carbon dioxide) a year to global climate crisis mitigation efforts – around a third of the 32 GtCO2e annual emission reductions needed as identified in the UN Environment Programme emissions gap report 2020 – while ensuring there are no negative impacts on biodiversity.
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“We wanted to put [the contribution of nature] into an absolute number. We don’t control what is happening on the climate change agenda but science is telling us this is what we can bring to the issues,” Van Havre said. “The challenge is going to be how we do the carbon accounting.”

Other targets include efforts to restore freshwater and marine habitats, maintain genetic diversity of wild and domesticated species, increase financial flows to developing countries, improve business disclosures on how their activities damage the environment and respect the rights of indigenous communities in biodiversity decision-making.

Prof Sir Robert Watson, who has previously led the UN’s scientific organisations for climate and biodiversity, and has held various senior roles within the UK government, Nasa, the World Bank and the US government, welcomed the draft targets but cautioned that some were unrealistic and difficult to measure. Governments have failed to fully meet targets to stem the destruction of nature for consecutive decades, including the aims for the 2010s, which are known as the Aichi targets.

“Overall, the paper recognises and addresses all of the key issues, as did the 20 Aichi targets. The question is whether governments can set appropriate national targets and regulatory and legislative frameworks to enable the other actors, especially the private sector and financial institutions, to play their part,” Watson said.

“I would have hoped that the paper would have explicitly acknowledged that the issues of biodiversity, climate change and land degradation must be addressed together and the goals, targets and actions of the three conventions should be jointly developed and harmonised.”

The targets and goals must now be negotiated at in-person talks, where they will be updated after feedback from national governments. Once agreed, the final accord will be adopted by the 196 parties to the CBD.

Elizabeth Maruma Mrema, executive secretary of the CBD, said: “Urgent policy action globally, regionally and nationally is required to transform economic, social and financial models so that the trends that have exacerbated biodiversity loss will stabilise by 2030 and allow for the recovery of natural ecosystems in the following 20 years, with net improvements by 2050.”

Find more age of extinction coverage here, and follow biodiversity reporters Phoebe Weston and Patrick Greenfield on Twitter for all the latest news and features

 

Natural landscapes key to Canadian cities, rural areas for building climate resilience, experts say

'We're being reminded that climate change is happening faster than we were even anticipating'

The Nature Trust of B.C. purchased 61 hectares of land in the South Okanagan known as the Park Rill Floodplain. Officials say preserving the land will help in the fight against climate change. (Supplied by the Nature Trust of B.C.)

In the South Okanagan area of B.C. lies an important area of grassland and wetlands known as the Park Rill Floodplain.

It's home to species at risk like the peregrine falcon and the western screech owl. And as of last week, the 61 hectares of land are now protected from development after being purchased by the Nature Trust of B.C.

The area is being added to the White Lake Basin Biodiversity Ranch conservation complex in the South Okanagan, said Jasper Lament, CEO of the Nature Trust of B.C.

"Grasslands are very important carbon sinks ... and the White Lake Basin Biodiversity Ranch is a key grassland landscape in the southern interior of British Columbia," he said.

Investing in natural infrastructure like the Park Rill Floodplain will be key to building climate resilience in Canada, according to a new report by the International Institute for Sustainable Development (IISD) released Monday.  

The report's authors said one-third of Canada's public infrastructure — from roads to buildings to wastewater facilities — is crumbling under the pressures of climate change and extreme weather conditions. 

More than 200 wildfires were burning in B.C. on Friday as a recent heat wave and parched conditions combined to raise the fire risk in many parts of the province to high or extreme. (Darryl Dyck/The Canadian Press)

But there is a glimmer of hope. The report's authors said that preserving and investing in natural infrastructure — a naturally occurring area managed by people — could be one solution to deal with changing weather patterns and increasing temperatures. 

"The Prairies alone this past decade have experienced some of the costliest extreme weather on record: flooding, drought, wildfires, and that's just the past 10 years," said Darren Swanson, lead author of the report and an associate with the IISD.

"That's really the catalyst for why this is important. It's important to design infrastructure with the future in mind, because designing infrastructure based on past climate just doesn't cut it anymore."

What needs to happen

Investing in natural infrastructure, like salt marshes or green roofs and trees in urban settings, and incorporating natural elements into man-made landscapes will help to build climate resilience, according to Swanson and the report's contributors. But investing in natural infrastructure can only be one piece of the puzzle, they say.

Swanson said more money, effort and thought need to be put into making infrastructure in the country more climate-resilient.

Using concrete in buildings that respond better to freeze-thaw cycles; beefing up stormwater and drainage systems; and dealing with changing rainfall patterns are other ways both the public and private sector could strengthen Canada's infrastructure, according to the report.  

Governments on the municipal, provincial and federal levels also need to be investing and planning for climate change, Swanson said.

"We're being reminded that climate change is happening faster than we were even anticipating," he said. 

"Even with the recent heat dome across western Canada and the northwestern United States, that was coming and happening quicker than what the climate models were projecting. The timeline is quite urgent because we are seeing the [changes] now." 

At least 200 people fled their homes on a moment's notice after a fast-moving wildfire tore through the community of Lytton in B.C.'s Fraser Valley almost two weeks ago. Conditions in the area were dangerously dry and windy after the record-breaking heat wave. (Edith Loring Kuhanga/Facebook)

The report notes the estimated infrastructure deficit to deal with climate resilience in the country ranges from $150 billion to $1 trillion. That number is $25-30 billion alone for First Nations, the report says, which notes northern Indigenous communities are at the greatest risk from drastic climate change.

But the responsibility to invest in making sure buildings, roads and information systems are climate-resilient shouldn't fall only to governments, Swanson said — the private sector also needs to keep this top of mind. 

"We're seeing that there needs to be more and diverse financing sources to really pave the way, so to speak, to seeing climate-resilient infrastructure become really mainstream," Swanson said. 

"Investments in billions of dollars, both built and natural, are really needed to close this infrastructure gap."

ABOUT THE AUTHOR

Stephanie Dubois is a journalist with CBC Edmonton. Share your stories with her at stephanie.dubois@cbc.ca

 

CFL legend Allen to join Raiders' coaching staff

Damon Allen will work with the NFL's Las Vegas Raiders' coaching staff as part of the Bill Walsh Diversity Coaching Fellowship program.

Volume 90%
 

Damon Allen will work with the NFL's Las Vegas Raiders' coaching staff as part of the Bill Walsh Diversity Coaching Fellowship program.

It's the same program former CFL quarterback Henry Burris participated in last year with the Chicago Bears. The Bears decided to keep Burris on their staff for the 2021 season.


Allen, 57, played 23 seasons in the CFL with Edmonton (1985-88, 1993-94), Ottawa (89-91), Hamilton (1992), Memphis (1995), B.C. (1996-2002) and Toronto (2003-07). He led teams to four Grey Cup titles and three times was named the championship game MVP.

When Allen retired in 2008, he was the leading passer in pro football history (72,381 yards). He has since been passed by Drew Brees (80,358), former CFL star Anthony Calvillo (79,816) and Tom Brady (79,204).

Allen's older brother, Marcus, spent 11 seasons as a running back with the Raiders (1982-92), when the team was based in Los Angeles. Marcus Allen ran for 191 yards and scored two touchdowns in claiming MVP honours in leading the franchise past Washington 38-9 in Super Bowl XVIII.

Marcus Allen was inducted into the Pro Football Hall of Fame in 2003. Damon Allen was enshrined in the Canadian Football Hall of Fames in 2012.

Damon Allen will embark on his coaching tenure with the Raiders July 23.

"I'm thankful to the Bill Walsh Diversity Coaching Program for giving coaches a chance to take part in this fellowship," Allen said in a statement. "I'm beyond excited that the Las Vegas Raiders selected me for this opportunity to learn, collaborate and communicate with some of the best minds in the NFL."

Damon Allen also ran for 11,920 yards during his CFL career, which ranks him third all-time. He entered Canada's Sports Hall of Fame in 2018.

The fellowship program offers minority coaches a chance to work with NFL coaches and staffs during training camp., It was established in 1987 and is named after Bill Walsh, a three-time Super Bowl-winning head coach who died in 2007, and allows participants the chance to use NFL training camps, off-season workout programs and minicamps to observe and gain experience to ultimately gain a full-time NFL coaching position.

This report by The Canadian Press was first published July 12, 2021.


Former CFL quarterback Allen to join Raiders’ coaching staff as part of Walsh program



 https://www.canoracourier.com/former-cfl-quarterback-allen-to-join-raiders-coaching-staff-as-part-of-walsh-program-1.24341179

Picture Courtesy of THE CANADIAN PRESS/Chris Young



Richard Branson's disappointing space jaunt


Opinion by Holly Thomas

Mon July 12, 2021



'Indescribably beautiful': Branson recounts historic space flight 04:03


(CNN)On Sunday, Richard Branson fulfilled his boyhood dream by launching himself 53 miles high to the edge of space. "To all you kids out there -- I was once a child with a dream, looking up to the stars. Now I'm an adult in a spaceship ... If we can do this, just imagine what you can do," Branson gushed at the top of the flight, while his three companions -- Virgin Galactic employees Beth Moses, Colin Bennett and Sirisha Bandla -- floated around him.

The journey was a landmark moment for the fledgling space tourism industry, and with Amazon founder Jeff Bezos in hot pursuit (Bezos' own self-funded trip to space is slated for July 20), and Elon Musk planning to launch an all-civilian crew into orbit later this year, the billionaire space race looks set to kick space tourism into gear in earnest in the near future. But the implications of these developments aren't quite as rosy as Branson's overly optimistic message implies -- and dreaming big billionaire-style might come at a hefty toll for the rest of us.

First, there's the environmental cost of space travel. Virgin Galactic claims that the carbon footprint for passengers of its suborbital space flight is comparable to that of a business class ticket on a transatlantic flight (which is about 0.2 kilograms per kilometer or 0.44 pounds per .62 miles -- amounting to a massive 2,220 kilo output per passenger over a typical 11,100-kilometer flight or 2.45 tons over a 6,897-mile flight).


But space flights are longer than transatlantic ones, and carry far fewer passengers. Per passenger, per kilometer, Branson's 11,260-kilometer (6,996-mile) journey to the edge of space cost 12 kilograms (26 pounds) of CO2. The company says that emissions will be offset -- but it's still an enormous price to pay for the sake of a few minutes in zero gravity.


Branson's advice to Bezos after historic space flight 00:51

Blue Origin -- Jeff Bezos' space company -- claims its ship's environmental impact will be comparably low thanks to its liquid hydrogen/liquid oxygen engines, which don't emit carbon. However the production of hydrogen fuels depends heavily on fossil fuels like natural gas, and the steam reformation process which creates them releases carbon dioxide.

Whether the environmental impact of such trips is offset or not -- let's hope they are -- this feels like a weird moment for the richest people in the world to direct their outrageous resources toward an endeavor with no immediate benefits to the overwhelming majority of society.

At the time of this writing, the Western US is experiencing another day of record-breaking temperatures, with over 24 million people under heat alerts and more than 100 deaths (which some Oregon officials are referring to as a mass casualty event). Across 12 states, 55 large fires burned 768,307 acres over the weekend, and Death Valley reported a low temperature of 107.7 degrees overnight -- the highest overnight low ever recorded in North America. According to scientists, the recent heat wave in the Pacific Northwest would have been "virtually impossible" without the effect of human-caused climate change. Mitigating further climate damage is the most urgent challenge currently facing the planet -- one which should interest the world's billionaires far more than that of stepping just over the well-trod threshold of space.

The often-cited financial incentive for getting in on the space tourism game -- which looks set to boom to the tune of about 5 billion dollars by 2025 -- sounds relevant until you consider the fact that the men hoping to cash in are already rich beyond most people's wildest dreams. Branson is worth nearly $8 billion, with his Virgin Group operating in 35 countries worldwide, owns more than 40 companies and employs a workforce more than 60,000 strong. Jeff Bezos and Elon Musk have been tripping over each other throughout the coronavirus pandemic, trading places as the world's richest person -- with Bezos currently valued at about $211 billion, an all-time world record. If these three men pooled their resources, they could tackle any number of pressing global problems -- and still be wealthier than almost anyone on Earth.

For all Branson's enthusing over imagination, his trip into space was effectively a much-diluted, far posher version of a feat already achieved more than 60 years ago by Yuri Gagarin's groundbreaking flight in Vostok 1. Gagarin, a Soviet carpenter's son who survived the Nazi occupation of Russia, actually accomplished something far greater, by orbiting for 108 minutes before returning to Earth. With reserved tickets for future Virgin Galactic flights priced between $200,000 and $250,000, the only barrier Branson has broken is that between the super-rich and their ability to spend a few minutes floating just within the sub-orbital zone which allows passengers to experience weightlessness.

Astronauts who have traveled far further than Richard Branson tend to describe a feeling of unity and coherence, and an overwhelming sense of the Earth's fragility, when they look back on the bright globe hanging in the blackness of space.
In his book "The Orbital Perspective," NASA astronaut Ron Garan said that he couldn't help thinking, as he gazed back upon this "paradise," of "the nearly one billion people who don't have clean water to drink, the countless number who go to bed hungry every night, the social injustice, conflicts, and poverty that remain pervasive across the planet."

If only Richard Branson had paid a little more attention to those who paved the way.


Holly Thomas is a writer and editor based in London. She tweets @HolstaT. The opinions expressed in this commentary are solely those of the author. View more opinion articles on CNN.

Space travel is open for business, but what about the environmental impact?


Cameron FrenchCTVNews.ca writer


Published Monday, July 12, 2021 


TORONTO -- Billionaire Sir Richard Branson rocketing to space on his Virgin Galactic winged rocket ship was another step in the beginnings of what some see as a significant new era of space exploration – space tourism.

But the promise of a future with regular launches carrying private citizens into orbit and beyond also comes with concerns about the environmental impact of all those rocket launches, including their potential carbon footprints and the impact of elements they will deposit in the upper atmosphere.

It’s an issue that hasn’t garnered much attention in the past, likely because the amount of emissions from factories, cars, jet airplanes and various other sources is currently much more significant than from space rockets. In 2020, for instance, there were 114 attempted orbital launches in the world, according to NASA. That compares to the airline industry’s more than 100,000 flights each day on average, according to flightradar24.com.

But the new version of the space race, one in which Branson’s Virgin Galactic is just one of several private players, opens the door to a massive expansion in the number of launches that researchers are struggling to wrap their heads around, says Eloise Marais, an associate professor of physical geography at University College London who is currently conducting research on pollutant emissions from rocket launches.

“It’s really hard to know how much the space sector is going to grow in the future,” she told CTVNews.ca in an interview.

While many might assume that the biggest environmental threat from increased space travel is from higher greenhouse gas emissions, Marais’ research is focused on an area some see as a more significant threat, which is the potential damage to the ozone layer, which helps shield the Earth from the sun’s harmful ultraviolet radiation.

Fears about damage to the ozone layer from chlorofluorocarbons in aerosol sprays and air conditioners prompted a phasing out of their use starting in the late 1980s. But Marais’ research, which is still in progress, shows the potential for damage to the layer from the enormous amounts of fuel rockets use to get them to the speeds necessary to reach space.

“A rocket is very high energy, very high temperature and so it emits things like nitrogen oxides which once released directly into the stratosphere can contribute to depleting ozone,” says Marais.

While launch systems such as the Russian Soyuz craft that currently ferries astronauts to and from the International Space Station, as well as Elon Musk’s SpaceX vehicle, use liquid rocket fuel, there are even more destructive effects from systems that use solid fuel, such as Virgin Galactic, says Marais.

“Solid rocket fuel is really the worst,” she said. “They produce a lot of chlorine, a lot of nitrogen oxides and those are quite efficient at depleting ozone.”

She isn’t the first researcher to point to the potential threat to the ozone layer from space flight.

“While there are a number of environmental impacts resulting from the launch of space vehicles, the depletion of stratospheric ozone is the most studied and most immediately concerning,” Jessica Dallas, currently a senior policy advisor at the New Zealand Space Agency, wrote in an analysis of research on space launch emissions published last year in the Journal of Cleaner Production.

In a separate report from 2019, authors Martin Ross and James Vedda of research firm The Aerospace Corporation, wrote that the current concerns about rocket emissions are similar to early concerns about space debris, which have since become an acknowledged threat to the space industry.

“Today, launch vehicle emissions present a distinctive echo of the space debris problem. Rocket engine exhaust emitted into the stratosphere during ascent to orbit adversely impacts the global atmosphere,” they wrote.

They point both to the threat to the ozone layer from chlorine emissions, and also to the potential threat of particles such as soot and alumina expelled from rockets into the upper atmosphere which can absorb and reflect solar energy, and change the temperature of both the upper atmosphere and the Earth’s surface. The possible heating of the upper atmosphere from this can also damage the ozone layer.

Marais said she hopes her research can help guide future space industry regulation that may become necessary as the space tourism industry expands.

“We essentially want to advocate against the use of solid rocket fuel. Because the space sector is inevitably going to grow, but we certainly want it to grow more responsibly,” she said.