Richard Harris

Award-winning journalist Richard Harris has reported on a wide range of topics in science, medicine and the environment since he joined NPR in 1986. In early 2014, his focus shifted from an emphasis on climate change and the environment to biomedical research.

Harris has traveled to all seven continents for NPR. His reports have originated from Timbuktu, the South Pole, the Galapagos Islands, Beijing during the SARS epidemic, the center of Greenland, the Amazon rain forest, the foot of Mt. Kilimanjaro (for a story about tuberculosis), and Japan to cover the nuclear aftermath of the 2011 tsunami.
In 2010, Harris' reporting revealed that the blown-out BP oil well in the Gulf of Mexico was spewing out far more oil than asserted in the official estimates. That revelation led the federal government to make a more realistic assessment of the extent of the spill.

Harris covered climate change for decades. He reported from the United Nations climate negotiations, starting with the Earth Summit in Rio de Janeiro in 1992, and including Kyoto in 1997 and Copenhagen in 2009. Harris was a major contributor to NPR's award-winning 2007-2008 "Climate Connections" series.

Over the course of his career, Harris has been the recipient of many prestigious awards. Those include the American Geophysical Union's 2013 Presidential Citation for Science and Society. He shared the 2009 National Academy of Sciences Communication Award and was a finalist again in 2011. In 2002, Harris was elected an honorary member of Sigma Xi, the scientific research society. Harris shared a 1995 Peabody Award for investigative reporting on NPR about the tobacco industry. Since 1988, the American Association for the Advancement of Science has honored Harris three times with its science journalism award.

Before joining NPR, Harris was a science writer for the San Francisco Examiner. From 1981 to 1983, Harris was a staff writer at The Tri-Valley Herald in Livermore, California, covering science, technology, and health issues related to the nuclear weapons lab in Livermore. He started his career as an AAAS Mass Media Science Fellow at the now-defunct Washington (DC) Star.

Harris is co-founder of the Washington, D.C., Area Science Writers Association, and is past president of the National Association of Science Writers. He serves on the board of the Council for the Advancement of Science Writing.

A California native, Harris returned to the University of California-Santa Cruz in 2012, to give a commencement address at Crown College, where he had given a valedictory address at his own graduation. He earned a bachelor's degree at the school in biology, with highest honors.

If you ran down the list of ailments that most commonly kill Americans, chances are you wouldn't think to name sepsis. But this condition, sometimes called blood poisoning, is in fact one of the most common causes of death in the hospital, killing more people than breast cancer and prostate cancer combined.

Jennifer Rodgers learned about sepsis the way many people do — through personal experience.

In order to improve the quality of health care and reduce its costs, researchers need to know what works and what doesn't. One powerful way to do that is through a system of "registries," in which doctors and hospitals compile and share their results. But even in this era of big data, remarkably few medical registries exist.

For the first time in 90 years, U.S. health officials say they have diagnosed a case of the plague that may have spread in the air from one person to another. Don't be alarmed — the plague these days is treatable with antibiotics and is exceptionally rare (just 10 cases were reported nationwide in 2014).

And if the plague has become mostly a curiosity in the United States, this case is more curious than most.

Aftershocks following Saturday's magnitude-7.8 quake in Nepal are jangling nerves and complicating rescue operations. So far, there have been more than a dozen quakes of magnitude 5 or higher, and another two dozen between magnitude 4.5 and 5.

It's becoming routine for cancer doctors to order a detailed genetic test of a patient's tumor to help guide treatment, but often those results are ambiguous. Researchers writing in Science Translational Medicine Wednesday say there's a way to make these expensive tests more useful.

Here's the issue: These genomic tests scan hundreds or even thousands of genes looking for mutations that cause or promote cancer growth. In the process, they uncover many mutations that scientists simply don't know how to interpret — some may be harmless.

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