Billions would die from starvation in nuclear war: research

More than 5 billion would die from starvation in the event of a full-scale nuclear war between the United States and Russia, a new study has found.

That’s the worst-case scenario in a Nature Food study published on Monday that examined the indirect death toll caused as soot from burning cities and forests entered the atmosphere.

The Rutgers University team arrived at that death toll by estimating how much global crop yields would suffer as the drifting clouds blocked out the sunlight that feeds plants that feed people, according to a statement accompanying the study. 

First, researchers estimated the quantities of ash that would be thrown up by nuclear wars of varying size, as major cities in India, Pakistan, the United States or Russia burned. Then they loaded that into a U.S. government-sponsored climate forecasting tool to track how that ash would move around the globe — and where and how much it would impact food production. 

In the event of a U.S.-Russia nuclear war, the model found that the planet’s wind patterns would bring circling clouds of smoke and particulates to the skies above major food exporters like the U.S., China, Germany and the United Kingdom.

Crashing crop yields in those countries would trigger a cascade of escalating consequences that would draw the rest of the world into the crisis. With harvests collapsing, so would food exports — spreading famine across Africa and the Middle East that depend on imported food for survival. 

Under that scenario, three-quarters of people on Earth would be starving within two years after the missiles stopped falling — and that would only be the beginning. 

By three or four years after the nuclear exchange, global crop, animal and fishing yields would have dropped by 90 percent — spreading famine, disruption and collapse further, and triggering other feedback loops.

Much of the details of the extent to which crops would fail under such an exchange remains unclear, co-author Lili Xia of Rutgers said. 

“For instance, the ozone layer would be destroyed by the heating of the stratosphere, producing more ultraviolet radiation at the surface, and we need to understand that impact on food supplies,” Xia added.

Such a war would need to reach the scale of a full-scale exchange between superpowers to spread famine far beyond the blast zone. 

Even in the most limited nuclear war the team examined — a localized nuclear exchange between India and Pakistan — global food production dived by 7 percent from soot and ash from the explosions entering the atmosphere. 

That number is far smaller than the crop failures the model found for the U.S.-Russia case study. But it’s also bigger than any disturbance to world food supplies since the U.N. Food and Agriculture Organization started tracking them.

Such a disruption would detonate against a world already facing the prospect of falling crop yields from climate change. 

A NASA NASA study last year — also in Nature Food — found that corn yields would begin to fall by 2030, suggesting that “major breadbasket regions” would begin to face the risks from human-caused climate change “sooner than previously anticipated.”

The conclusion of the new research was clear: that nuclear war would “obliterate global food systems,” co-author Alan Robock said in a statement.

“If nuclear weapons exist, they can be used, and the world has come close to nuclear war several times,” Robock said. “Banning nuclear weapons is the only long-term solution.”

He pointed to the U.N. Treaty on the Prohibition of Nuclear Weapons, which has been ratified by 66 nations but none of the nine nuclear states.

“Our work makes clear that it is time for those nine states to listen to science and the rest of the world and sign this treaty,” he said.

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