This tree of climate signals is schematic only. It illustrates factors that link individual weather events to climate change, in this case, the historic floods of 2016 in Houston, Texas. The diagram does not quantify the relative strength of each factor, nor does it illustrate the natural factors that often shape extreme events, including natural variability and regular circulation changes. Graphic: Climate Nexus

19 April 2016 (Climate Nexus) – Heavy rains and flooding in Houston have taken six lives and put much of the city under water. Dozens of schools, roads, and freeways were closed after rainfall dumped more than a foot of water. More storms are predicted across the region, posing the threat of renewed flooding.

The record-breaking rainfall driving Houston’s deadly floods parallels the trend toward more extreme rainfall in our warming world. Houston has seen a 167 percent increase in heavy downpours since the 1950s. The nearly 10 inches of rain recorded at Houston’s airport during this flood was the highest one-day April rainfall since airport record-keeping began, and was also the second highest one-day record in any month.

One of the clearest changes in weather globally and across the United States is the increasing frequency of heavy rain. A warmer atmosphere holds more water vapor. And like a bigger bucket, a warmer atmosphere dumps more water when it rains. The storm in Houston was supercharged by running through an atmosphere made wetter by global warming.

Over the past century the US has witnessed a 20 percent increase in the amount of precipitation falling in the heaviest downpours. And the increase in extreme precipitation has dramatically increased the risk of flooding.

The increasing number of record-breaking heat waves and intense rainfalls is a hallmark of climate change. Records tend to be broken when natural variability runs in the same direction as climate change, towards extreme rainfall in the case of the Houston flood. The extreme rains in Houston carry that hallmark, smashing the city’s one-day rainfall records.

Global warming also contributes to higher sea temperatures that in turn feed more moisture and energy into storms and weather systems. The Houston storm was fed by moist winds coming off the Gulf coast where sea surface temperatures are running hot, bumped up by global warming. On April 18, sea surface temperatures in the US gulf were up to 1.8°F (1°C) above normal.

Finally, there is mounting evidence that blocking weather patterns such as witnessed in the Houston event may be happening more often due to climate change, boosting the likelihood of heavy rainfall events in which storms stall over one area.

Climate context: by the numbers

Historic storm: by the numbers

  • The 9.92 inches of rain at Houston Intercontinental Airport on April 18 was the highest one-day April rainfall on record, and is also the highest one-day record ever except for 26 June 1986 when Houston was hit by the first Tropical Storm Allison.

  • At least one watershed in Harris county set a new all-time record, cresting 0.4 feet above its estimated 500-year flood mark. More than half the watersheds in Harris County are experiencing significant flooding. [more]

Historic Houston Floods Bear Classic Climate Signature

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