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Trump’s NASA Plans Are a Nuclear Disaster Waiting to Happen

Nuclear-powered spacecraft are not accident-proof.

A war in space might not involve nuclear weapons — for now. But warring satellites could knock out nuclear weapons' early warning systems and set other potential disasters in motion. (Photo: Mat Hampson)

Earlier this month, President Trump announced that he wants the National Aeronautics and Space Administration (NASA) to “lead an innovative space exploration program to send American astronauts back to the moon, and eventually Mars.” But while couched in patriotic sound bites and pioneering rhetoric that “Florida and America will lead the way into the stars,” the risks such ventures would entail — and the hidden agenda they conceal — have scarcely been touched upon.

For those of us who watched Ron Howard’s nail-biter of a motion picture, Apollo 13, and for others who remember the real-life drama as it unfolded in April 1970, collective breaths were held that the three-man crew would return safely to Earth. They did.

What hardly anyone remembers now — and certainly few knew at the time — was that the greater catastrophe averted was not just the potential loss of three lives, tragic though that would have been. There was a lethal cargo on board that, if the craft had crashed or broken up, might have cost the lives of thousands and affected generations to come.

It is a piece of history so rarely told that NASA has continued to take the same risk over and over again, as well as before Apollo 13. And that risk is to send rockets into space carrying the deadliest substance ever created by humans: plutonium.

Now, with the race on to send people to Mars, NASA is at it again with its Kilopower project, which would use fission power for deep space. It would be the first fission reactor launched into space since the 1960s. Fission, commonly used in commercial nuclear reactors, is the process of splitting the atom to release energy. A by-product of fission is plutonium.

Small reactors would be used to generate electricity on Mars to power essential projects in the dark. But first, such a reactor has to get to Mars without incident or major accident. And the spacecraft carrying it would also be nuclear-powered, adding monumentally to the already enormous risk. As physicist Michio Kaku points out, “Let’s be real. One percent of the time, rockets fail, they blow up, and people die.” With plutonium on board, the only acceptable accident risk has to be 0 percent.

When Apollo 13 mission astronaut John Swigert told NASA Mission Control “Houston, we’ve had a problem,” it only touched on the most immediate crisis: the damaging of the craft after the explosion of an oxygen tank that forced the crew to abort the planned moon landing.

However, what few knew at the time — and what was entirely omitted from Howard’s 1995 film — was the even bigger crisis of what to do about the SNAP-27 Radioisotope Thermoelectric Generator (RTG) on board. The RTG was carrying plutonium-238. It was supposed to have been left on the moon to power experiments. Now that no moon landing was to occur, what would become of the RTG, especially if Apollo 13 ended up crashing back to Earth in a fireball? Such an outcome could disperse the plutonium as dust, which, if inhaled, would be deadly.

One (and possibly the only) journalist who has been consistently on the “nukes in space” beat for more than 30 years is Karl Grossman. When the Apollo 13 movie came out, he picked up the phone and called the film’s production company, Imagine Entertainment, to ask why they had not included the higher drama of the plutonium problem. “It was surprising to see Hollywood not utilizing an Armageddon theme,” he told Truthout.

Grossman said that Michael Rosenberg, then executive vice president and now co-chairman of Imagine Entertainment, told him that the omission was an “artistic decision.” However, since NASA personnel had served as advisors for the film, Grossman speculated that the agency might have been more than a disinterested party. Far better that the film confine itself to the life-threatening jeopardy of the three astronauts rather than the danger to life on Earth that would have been posed by falling plutonium.

Grossman was already well aware of the Armageddon potential of NASA missions by the time he called Howard’s production company. In 1985, he had learned that two space shuttle missions planned for 1986 would carry plutonium-powered probes to be lofted into space to orbit the Sun and Jupiter. As it turned out, the ill-fated Challenger was one of the shuttles scheduled for the May 1986 plutonium mission, in what would have been its second flight that year.

Grossman said he had been worried at the time about a rocket explosion on launch, a not unprecedented disaster. Or what if a shuttle carrying a plutonium-fueled space probe failed to attain orbit, exploded and crashed back to Earth?

The official NASA and Department of Energy (DOE) documents Grossman eventually obtained using the Freedom of Information Act, “insisted that a catastrophic shuttle accident was a 1-in-100,000 chance,” he said.

But on January 28, 1986, Challenger exploded. (Shortly thereafter, NASA changed the odds of a catastrophic shuttle accident to 1-in-76.) Grossman called The Nation and asked if they knew that Challenger’s next mission would have carried plutonium. The magazine invited Grossman to write an editorial — “The Lethal Shuttle” — which ran on the magazine’s front page.

After The Nation editorial, Grossman was invited over to the offices of “60 Minutes.” He duly appeared with armfuls of documents and alarming “what ifs” but, as he told Truthout, “there was no ignition,” and “60 Minutes” never picked up the story.

Over the years, articles about the use of nuclear power on space devices and military plans for space continued to be ignored. With the mainstream media apparently reluctant to challenge the space program — perhaps out of a misplaced sense of “patriotism” — Grossman continued his solo investigations. In 1997, he penned a book, The Wrong Stuff, which detailed NASA’s blunders with plutonium-fueled missions and its unrealistic calculations about the probability of a major accident.

There had been problems before Challenger. In 1964, an aborted mission carrying an RTG had resulted in a reentry burn-up over Madagascar. Plutonium was found in trace amounts in the area months later. Although the event was downplayed, it had serious consequences, as Grossman found in a report he cited in The Wrong Stuff. The plutonium had spread all over the world.

According to page 21 of the report, “A worldwide soil sampling program carried out in 1970 showed SNAP-9A debris to be present on all continents and at all latitudes.”

John Gofman, professor of molecular and cell biology at UC Berkeley, and involved in the isolation of plutonium in the early years of the Manhattan Project, connected the SNAP-9A accident to a worldwide spike in lung cancer, as reported on page 12 of Grossman’s The Wrong Stuff.

Similarly, in 1968, a weather satellite was aborted soon after takeoff from Vandenberg Air Force Base. The plutonium from its RTG plunged into 300 feet of water off the California coast. Fortunately, in this instance, it was retrieved. At the time, all satellites were powered by RTGs. But in the wake of these disasters, NASA had already begun to push to develop solar photovoltaic (PV) power for satellites. Today, all satellites are powered by solar PV, as is the International Space Station.

Apollo 13 jettisoned its 3.9 kg of plutonium over the South Pacific, already the setting for scores of atomic weapons tests by the US and France. Contained in a graphite fuel cask, it supposedly came to rest in the deep Tonga Trench. No one will ever bother to retrieve it, even though it is now technically feasible, because of the enormous cost. Whether it has leaked (likely) and how it has affected marine life will now never be known.

Grossman kept on writing about the dangers of nuclear materials in space as well as the possibility for space wars. He found that one of the reasons NASA and the DOE sought to use nuclear power in space was to work in tandem with the Pentagon, which was pushing Ronald Reagan’s Strategic Defense Initiative, known colloquially as “Star Wars.” Star Wars was predicated on orbiting battle platforms with nuclear reactors — or “super RTGs” — on board, providing the large amounts of energy for particle beams, hypervelocity guns and laser weapons.

Although seemingly alone on the issue as a journalist, Grossman is not without an important resource in the form of Bruce Gagnon’s Maine-based Global Network Against Weapons and Nuclear Power in Space, which has been campaigning on the issue since 1992. Gagnon has watchdogged space weaponry but also US government plans to plunder other planets and moons for minerals, as the Trump administration is hinting it expects to do. Gagnon told Grossman that such plans have never been far from the nuclear industry’s radar and that at nuclear power industry conferences, “Nuclear-powered mining colonies and nuclear-powered rockets to Mars were key themes.”

The topic was also covered by Helen Caldicott and Craig Eisendrath in their 2007 book, War in Heaven. That same year, the Cassini space probe was launched. It carried 72.3 pounds of plutonium fuel, used to generate electricity, not propulsion — 745 watts of it to run the probe’s instruments. As Grossman wrote in a recent article and drew attention to in his documentary — Nukes in Space: The Nuclearization and Weaponization of the Heavens — Cassini “was launched on a Titan IV rocket despite several Titan IV rockets having blown up on launch.”

In 1999, because “Cassini didn’t have the propulsion power to get directly from Earth to Saturn…. NASA had it hurtle back to Earth in a ‘slingshot maneuver’ or ‘flyby’ — to use Earth’s gravity to increase its velocity,” Grossman wrote. A catastrophic failure of that operation could have seen Cassini crash to Earth, dispersing its deadly plutonium load. According to NASA’s Final Environmental Impact Statement for the Cassini Mission, Section 4-5, the “approximately 7 to 8 billion world population at the time … could receive 99 percent or more of the radiation exposure.” And yet, the agency proceeded to take that chance.

The world had once again dodged a radioactive bullet. In September 2017, having completed its mission, Cassini was deliberately crashed into Saturn, contaminating that planet with plutonium. While less controversial than lethally dumping it on Earth, the event raises at least moral, if not scientific questions about humankind’s willingness to pollute other planets with abandon after already doing so to our current home.

The Trump administration’s planned new missions to the moon and Mars would seem to follow that pattern, with Trump stating ominously, “this time we will not only plant our flag and leave our footprint.” The US now intends to conduct “long-term exploration and use” on Mars and the moon.

A recent article in Roll Call suggested that while Trump has said little publicly about the militarization of space, behind-the-scenes space satellite warfare is very much on the agenda with serious money set aside to develop “weapons that can be deployed in space.”

A war in space might not involve nuclear weapons — for now. But warring satellites could knock out nuclear weapons early warning systems and set other potential disasters in motion. These cataclysmic risks play strongly into the arguments — enshrined in the recent UN nuclear weapons ban — that we should be disarming on Planet Earth, not arming in space.

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