A previously unknown strain of coronavirus has dominated headlines in recent weeks, and alarmed public health officials with its rapid spread and virulent nature. But it’s really no surprise to the scientists who study infectious disease: it’s just one of several pathogens that have the potential to reach calamitous status.

I have no evidence that climate change triggered this particular virus to jump from animals to humans at this particular time, or that a warmer planet has helped it spread. That said, it’s pretty clear that, broadly speaking, climate change is likely to lead to an uptick in future epidemics caused by viruses and other pathogens. Scientists have understood for decades that climate change would change the way diseases spread, but, as the planet warms, those hypotheses are being tested and scientists are learning in real time. There are many links between climate change and infectious diseases, but I’m going to focus on one particularly novel—and concerning—area of knowledge: how rising temperatures are making our natural immune systems less effective.

Our bodies are amazing disease-fighting machines. One adaptation goes a long way: our warm body temperature can by itself shut down all sorts of unwanted invasions. When a pathogen enters our body, we often get a fever, warming us up even more to fight off disease. Fevers stimulate the immune system and, ideally, the heat creates an environment where it’s difficult for pathogens to survive.

But, as pathogens are exposed to gradually warmer temperatures in the natural world, they become better equipped to survive the high temperature inside the human body. “Every time we have a very hot day, we have a selection event,” says Arturo Casadevall, a professor of microbiology and immunology at Johns Hopkins University’s Bloomberg School of Public Health. The pathogens that survive—and reproduce—are better adapted to higher temperatures, including those in our bodies. And, with that, one of our body’s primary defense mechanisms diminishes in effectiveness.

This is not a theoretical, far-off concern. Last year, Casadevall and colleagues documented in the journal mBio how Candida auris (a fungus that gets into the bloodstream, leading to a range of ailments) emerged simultaneously in patients in three different isolated places—southern Asia, Venezuela and South Africa—between 2012 and 2015. In our globalized world, diseases are often transported by human carriers who hop on planes, but in this case the scientists concluded that similar changing climatic conditions i

n each of these places likely drove the simultaneous development. It’s hard to say how widespread this effect could be, Casadevall says, but there’s no reason to think that it would be limited to fungi like Candida auris.

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