[Editor’s note: Please continue to pray for the millions of people in Texas and elsewhere suffering seriously from the tremendous flooding brought by Hurricane Harvey. At the same time, don’t be led astray by claims that it’s caused by human-induced global warming. Cornwall Alliance Senior Fellow Dr. Roy W. Spencer, a NASA and University of Alabama climate scientist, explains why it isn’t in this article]
In the context of climate change, is what we are seeing in Houston a new level of disaster which is becoming more common?
The flood disaster unfolding in Houston is certainly very unusual. But so are other natural weather disasters, which have always occurred and always will occur.
Floods aren’t just due to weather
Major floods are difficult to compare throughout history because of the ways in which we alter the landscape. For example, as cities like Houston expand over the years, soil is covered up by roads, parking lots, and buildings, with water rapidly draining off rather than soaking into the soil. The population of Houston is now ten times what it was in the 1920s. The Houston metroplex area has expanded greatly and the water drainage is basically in the direction of downtown Houston.
There have been many flood disasters in the Houston area, even dating to the mid-1800s when the population was very low. In December of 1935 a massive flood occurred in the downtown area as the water level height measured at Buffalo Bayou in Houston topped out at 54.4 feet.
By way of comparison, as of 6:30 a.m. this (Monday) morning, the water level in the same location is at 38 feet, which is still 16 feet lower than in 1935. I’m sure that will continue to rise.
Are the rainfall totals unprecedented?
Even that question is difficult to answer. The exact same tropical system moving at, say, 15 mph might have produced the same total amount of rain, but it would have been spread over a wide area, maybe many states, with no flooding disaster. This is usually what happens with landfalling hurricanes.
Instead, Harvey stalled after it came ashore and so all of the rain has been concentrated in a relatively small portion of Texas around the Houston area. In both cases, the atmosphere produced the same amount of rain, but where the rain lands is very different. People like those in the Houston area don’t want all of the rain to land on them.
There is no aspect of global warming theory that says rain systems are going to be moving slower, as we are seeing in Texas. This is just the luck of the draw. Sometimes weather systems stall, and that sucks if you are caught under one. The same is true of high pressure areas; when they stall, a drought results.
Even with the system stalling, the greatest multi-day rainfall total as of 3 a.m. this Monday morning is just over 30 inches, with many locations recording over 20 inches. We should recall that Tropical Storm Claudette in 1979 (a much smaller and weaker system than Harvey) produced a 43 inch rainfall total in only 24 hours in Houston.
Was Harvey unprecedented in intensity?
In this case, we didn’t have just a tropical storm like Claudette, but a major hurricane, which covered a much larger area with heavy rain. Roger Pielke Jr. has pointed out that the U.S. has had only four Category 4 (or stronger) hurricane strikes since 1970, but in about the same number of years preceding 1970 there were 14 strikes. So we can’t say that we are experiencing more intense hurricanes in recent decades.
Going back even earlier, a Category 4 hurricane struck Galveston in 1900, killing between 6,000 and 12,000 people. That was the greatest natural disaster in U.S. history.
And don’t forget, we just went through an unprecedented length of time – almost 12 years – without a major hurricane (Cat 3 or stronger) making landfall in the U.S.
So what makes this event unprecedented?
The National Weather Service has termed the event unfolding in the Houston area as unprecedented. I’m not sure why. I suspect in terms of damage and number of people affected, that will be the case. But the primary reason won’t be because this was an unprecedented meteorological event.
If we are talking about the 100 years or so that we have rainfall records, then it might be that southeast Texas hasn’t seen this much total rain fall over a fairly wide area. At this point it doesn’t look like any rain gage locations will break the record for total 24 hour rainfall in Texas, or possibly even for storm total rainfall, but to have so large an area having over 20 inches is very unusual.
They will break records for their individual gage locations, but that’s the kind of record that is routinely broken somewhere anyway, like record high and low temperatures.
In any case, I’d be surprised if such a meteorological event didn’t happen in centuries past in this area, before we were measuring them.
And don’t pay attention to claims of 500 year flood events, which most hydrologists dislike because we don’t have enough measurements over time to determine such things, especially when they also depend on our altering of the landscape over time.
Bill Read, a former director of the National Hurricane Center was asked by a CNN news anchor whether he thought that Harvey was made worse because of global warming. Read’s response was basically, No.
“Unprecedented” doesn’t necessarily mean it represents a new normal. It can just be a rare combination of events. In 2005 the U.S. was struck by many strong hurricanes, and the NHC even ran out of names to give all of the tropical storms. Then we went almost 12 years without a major (Cat 3 or stronger) hurricane strike.
Weird stuff happens.
I remember many years ago in one of the NWS annual summaries of lightning deaths there was a golfer who was struck by lightning. While an ambulance transported the man to the hospital, the ambulance was struck by lightning and it finished the poor fellow off.
There is coastal lake sediment evidence of catastrophic hurricanes which struck the Florida panhandle over 1,000 years ago, events which became less frequent in the most recent 1,000 years.
Weather disasters happen, with or without the help of humans.