Don’t Blame Hurricanes Harvey And Irma On Global Warming

  • Date: 09/09/17
  • Alan Reynolds, Newsweek

Yes, warmer ocean temperatures would logically seem to correlate with more or stronger hurricanes, but as shown below, they don’t.

“ Harvey Is What Climate Change Looks Like : It’s time to open our eyes and prepare for the world that’s coming.”

That August 28 Politico article by Slate weatherman Eric Holthaus was one of many trying too hard to blame the hurricane and/or flood on climate change.

Such stories are typically infused with smug arrogance. Their authors claim to be wise and well informed, and anyone who dares to question their “settled science” must need to have their eyes pried open and their mouths shut.

There will doubtless be similar “retroactive forecasting” tales about Irma, so recent story-telling about Harvey may provide a precautionary warning for the unwary.

I am an economist, not a climatologist.* But blaming Harvey on climate change apparently demands much lower standards of logic and evidence than economists would dare describe as serious arguments.

Atlantic’s climate journalist said, “Harvey is unprecedented—just the kind of weird weather that scientists expect to see more of as the planet warms.”

But Harvey’s maximum rainfall of 51.88 inches barely exceeded that from Tropical Storm Amelia in 1978 (48”) and Hurricane Easy in 1950 (45”). And what about Tropical Storm Claudette in 1979, which put down 42 inches in 24 hours near Houston (Harvey took three days to do that)?

In such cases, attributing today’s extreme weather to “climate change” regardless of what happens ( maybe droughts, maybe floods ) is what the philosopher Karl Popper called “pseudoscience.” If some theory explains everything, it can’t be tested and it is therefore not science. (Popper’s favorite examples of pseudoscience were communism and psychoanalysis.)

Seemingly plausible efforts to connect Harvey to climate change are precariously based on another unusual event in 2015–16, not long-term climate trends. In theAtlantic , Robinson Meyer wrote that “Harvey benefited from unusually toasty waters in the Gulf of Mexico. As the storm roared toward Houston last week, sea-surface waters near Texas rose to between 2.7 and 7.2 degrees Fahrenheit above average.” Thank you, 2015–16 El Nino.

Meyer’s source is a single unsourced sentence from “Climate Signals beta ” from the Rockefeller Foundation’s “Climate Nexus” project run by Hunter Cutting (“a veteran political director who develops communications strategy”). Perhaps it would be wiser to consult the National Hurricane Center about Gulf temperatures, which shows they are averaging about one degree (F) above the baseline.

Looking back at any unpredicted weather anomaly, “fact-checking” journalists canalways count on Michael Mann and Kevin Trenberth to spin some tale explaining why any bad weather (but never good weather!) must surely be at least aggravated by long-term global climate trends.

“It’s a fact: climate change made Hurricane Harvey more deadly,” writes Michael Mann. Gulf sea surface temperatures have increased from about 86 degrees to 87 “over the past few decades,” he says, causing “ 3–5 percent more moisture in the atmosphere.”

He neglected to point out other compensatory things he surely knows, like that the same climate science predicts a more stable tropical atmosphere, reducing the upward motion necessary for hurricanes.

Even The Washington Post ’s esteemed Jason Samenow got onto shaky ground, writing that “rainfall may have been enhanced by 6 percent or so, or a few inches.”

It would have been nice if he noted that Harvey’s maximum observed rainfall of 51.88 inches is statistically indistinguishable from the aforementioned Amelia’s 48, forty years ago.

In either case, to blame the Gulf’s temperature and moisture in August 2017 on a sustained global increase in water temperatures requires more than theory or “confidence” (faith). It requires evidence.

As it happens, sea surface temperatures (SSTs) were not rising significantly, if at all, during the years between the two super-strong El Ninos of 1997–98 and 2015–16. On the contrary, a January 2017 survey of four major data sources finds that “ since 1998, all datasets show a slowdown of SST increase compared with the 1983–1998 period.”

That may sound as if SST had been increasing rapidly before 1998, but that too is unclear: “Prior to 1998, the temperature changes in Global, Pacific, and Southern Oceans show large discrepancies among [four leading estimates], hindering a robust detection of both regional and global OHC [ocean heat content] changes.”

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