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move croplands north a few hundred miles, because yields in places like remote Canada and Russia are limited by the quality of soil there; it takes
<br />many centuries for the planet to produce optimally fertile dirt.
<br />Drought might be an even bigger problem than heat, with some of the world's most arable land turning quickly to desert. Precipitation is notoriously
<br />hard to model, yet predictions for later this century are basically unanimous: unprecedented droughts nearly everywhere food is today produced.
<br />By 2080, without dramatic reductions in emissions, southern Europe will be in permanent extreme drought, much worse than the American dust
<br />bowl ever was. The same will be true in Iraq and Syria and much of the rest of the Middle East; some of the most densely populated parts of
<br />Australia, Africa, and South America; and the breadbasket regions of China. None of these places, which today supply much of the world's food,
<br />will be reliable sources of any. As for the original dust bowl: The droughts in the American plains and Southwest would not just be worse than in the
<br />1930s, a 2015 NASA study predicted, but worse than any droughts in a thousand years — and that includes those that struck between 1100 and
<br />1300, which "dried up all the rivers East of the Sierra Nevada mountains" and may have been responsible for the death of the Anasazi civilization.
<br />Remember, we do not live in a world without hunger as it is. Far from it: Most estimates put the number of undernourished at 800 million globally. In
<br />case you haven't heard, this spring has already brought an unprecedented quadruple famine to Africa and the Middle East; the U.N. has warned
<br />that separate starvation events in Somalia, South Sudan, Nigeria, and Yemen could kill 20 million this year alone.
<br />IV. Climate Plagues
<br />What happens when the bubonic ice melts?
<br />Rock, in the right spot, is a record of planetary history, eras as long as millions of years flattened by the forces of geological time into strata with
<br />amplitudes of just inches, orjust an inch, or even less. Ice works that way, too, as a climate ledger, but it is also frozen history, some of which can
<br />be reanimated when unfrozen. There are now, trapped in Arctic ice, diseases that have not circulated in the air for millions of years — in some
<br />cases, since before humans were around to encounter them. Which means our immune systems would have no idea how to fight back when those
<br />prehistoric plagues emerge from the ice.
<br />The Arctic also stores terrifying bugs from more recent times. In Alaska, already, researchers have discovered remnants of the 1918 flu that
<br />infected as many as 500 million and killed as many as 100 million — about 5 percent of the world's population and almost six times as many as
<br />had died in the world war for which the pandemic served as a kind of gruesome capstone. As the BBC mported in May, scientists suspect smallpox
<br />and the bubonic plague are trapped in Siberian ice, too — an abridged history of devastating human sickness, left out like egg salad in the Arctic
<br />sun.
<br />Experts caution that many of these organisms won't actually survive the thaw and point to the fastidious lab conditions under which they have
<br />already reanimated several of them — the 32,000 - year -old "extremophile" bacteria revived in 2005, an 8 million - year -old bug brought back to life in
<br />2007, the 3.5 million–year–old one a Russian scientist : elf-injected just out of curiosity — to suggest that those are necessary conditions for the
<br />return of such ancient plagues. But already last year, a boy was killed and 20 others infected by anthrax released when retreating permafrost
<br />exposed the frozen carcass of a reindeer killed by the bacteria at least 75 years earlier; 2,000 present -day reindeer were infected, too, carrying and
<br />spreading the disease beyond the tundra.
<br />What concerns epidemiologists more than ancient diseases are existing scourges relocated, rewired, or even re- evolved by warming. The first
<br />effect is geographical. Before the early- modern period, when adventuring sailboats accelerated the mixing of peoples and their bugs, human
<br />provinciality was a guard against pandemic. Today, even with globalization and the enormous intermingling of human populations, our ecosystems
<br />are mostly stable, and this functions as another limit, but global warming will scramble those ecosystems and help disease trespass those limits as
<br />surely as Cartes did. You don't worry much about dengue or malaria if you are living in Maine or France. But as the tropics creep northward and
<br />mosquitoes migrate with them, you will. You didn't much worry about Zika a couple of years ago, either.
<br />As it happens, Zika may also be a good model of the second worrying effect — disease mutation. One reason you hadn't heard about Zika until
<br />recently is that it had been trapped in Uganda; another is that it did not, until recently, appear to cause birth defects. Scientists still don't entirely
<br />understand what happened, or what they missed. But there are things we do know for sure about how climate affects some diseases: Malaria, for
<br />instance, thrives in hotter regions not just because the mosquitoes that carry it do, too, but because for every degree increase in temperature, the
<br />parasite reproduces ten times faster. Which is one reason that the World Bank estimates that by 2050, 5.2 billion people will be reckoning with it.
<br />V. Unbreathable Air
<br />A rolling death smog that suffocates millions.
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