Research Features

Increasing Resiliency to Extreme Weather

We work at NASA's Goddard Institute for Space Studies, integrating the agency's satellite imagery and projections of extreme weather events into urban planning. In recent weeks, we have watched as Christian's hometown, Houston, has been ransacked by historic rainfall and flooding and Hurricane Irma has battered the U.S. Virgin Islands, Puerto Rico and Florida. Then, Hurricane Maria devastated Puerto Rico leaving millions of people without power. Sea-level rise, storm surge, warm ocean temperatures, and extreme rainfall interacted to exacerbate the damages incurred by Hurricanes Harvey, Irma, and Maria. Coastal flooding combined with inland flooding to wreak extraordinary havoc.

Satellite imagery of Hurricane Maria approaching Puetro Rico

Hurricane Maria approaches Puerto Rico. (Image: NASA/GSFC/Joshua Stevens, from NASA-NOAA GOES data.)

Many of these damaging conditions are predicted to increase in the future as our climate changes, and NASA has taken actions to better prepare for the impacts on our facilities. In 2010, the agency established the Climate Adaptation Science Investigator (CASI) working group of Earth scientists and NASA institutional stewards to help prepare for a changing climate and increasing vulnerabilities to such change. In 2014 the group published a study that found that many types of extreme events are expected to increase in frequency and magnitude in the future and pose hazards to NASA's mission, infrastructure and workforce.

Harvey and Irma had significant impacts on NASA's Johnson Space Center in Houston and Kennedy Space Center on Florida's Atlantic coast, both of which have taken steps to improve their “climate resilience” in the face of these increasingly large extreme weather events. CASI's climate researchers analyzed observed climate trends and made projections for all NASA Centers. All coastal Centers show significant sea level rise trends, mirroring global and national trends. Sea level rise of between 6 and 29 inches by the 2050s is projected for NASA's five coastal Centers along the coast.

Will this hurricane season be the turning point that prompts urban planners in Houston, Florida, and the nation to get serious about preparing for these increasing risks?

During Hurricane Harvey, storm surge was as high as twelve feet along portions of the Texas coast and four-day rainfall totals exceeded 40 inches in many parts of Houston. The increased water levels in Galveston Bay that accompanied Harvey limited the rate at which bayous, creeks, and rivers could drain stormwater from Houston's relatively flat, low elevation terrain. Citizens were advised to stay out of the floodwaters due to risks of contamination associated with flooded sewers and runoff from chemical and petroleum plants. In the dozens of counties affected by Harvey, many folks use well water, which is also at risk due to disease-spreading pollution. The water system in Beaumont (east of Houston) was crippled, with residents lacking running water and unable to flush toilets.

IMERG imagery of Hurricane Harvey

Total rainfall estimates from NASA's Integrated Multi-satellitE Retrievals for GPM (IMERG) data are shown here for the period from August 23-29, 2017. (Image: NASA/GSFC/SSAI/Hal Pierce)

IMERG imagery of Hurricane Irma

From Sept. 5-12, 2017, NASA's IMERG estimated total rainfall along Irma's path across the Atlantic Ocean (Source - Hal Pierce, SSAI/NASA GSFC). (Image: NASA/GSFC/SSAI/Hal Pierce)

IMERG imagery of Hurricane Marvey

NASA's IMERG data were used to estimate the total amount of rain that Hurricane Maria dropped from September 17 to early September 21, 2017. Note difference in scales between IMERG precipitation maps. (Image: NASA/GSFC/SSAI/Hal Pierce)

Preparations at Johnson Space Center (JSC) after previous storms included installation of airlock hatches for underground piping tunnels and ship-style ventilation pipes with openings higher than recorded storm surge for Hurricane Ike in 2008. More recently, the NASA CASI working group helped JSC to integrate climate change projections into its master planning process. For the 2050s, the CASI team projected temperatures at JSC rising between 3.0 and 4.5 °F and sea levels increasing by 8 to 17 inches, with up to 2 feet of rise possible. Intense precipitation events are also projected to likely increase.

Hurricane Irma prompted the closing of the Kennedy Space Center (KSC) from Sept. 8th to Sept. 17th. It remained closed after Irma passed because the hurricane knocked out the facility's water service. Using CASI sea level rise projections of 9 to 17 inches for the 2050s, KSC staff identified a broad range of vulnerabilities, including facilities and structures, transportation, communications, energy, drinking water, wastewater, and solid waste systems, as well as protected species habitats and archaeological sites.

After attending KSC's climate resilience workshop in 2010, Air Force staff of the neighboring 45th Space Wing began expanding evaluations of climate risks and projected sea level rise impacts to include consideration of new facility designs that protect electronics and computers from storm surge as well as land use plans that site new construction away from the beach and dune area along the coast.

While JSC received more than 40 inches of rainfall and experienced significant flooding during the heaviest rains, the main campus buildings did not flood. The types of resilience measures undertaken at JSC to prepare for these risks — elevation of building systems and improved stormwater drainage — could be implemented in rebuilding projects in hurricane-prone regions of the United States to reduce the risks of future coastal and inland flooding in coastal areas.

Some resilience efforts are underway. The Texas General Land Office issued its Texas Coastal Resiliency Master Plan earlier this year, which calls for taking actions that would ease the impact of storms and hurricanes on the coastal economy and combat the effects of erosion on the coast and bays. Houston's Bayou Greenways Initiative aims to transform 3,000 acres of green space along the bayous that can serve residents by reducing flooding and stormwater quality challenges.

For too long, the United States has been dealing with the impacts of increasing weather extremes without taking climate projections into account when planning our cities. Since the 1980s, the percentage of the continental United States experiencing extreme single-day precipitation events has increased every decade. Nine of the top ten years for extreme one-day precipitation events in the continental United States have occurred since 1990. Sea levels are rising along our coasts.

This hurricane season can be the turning point toward decisive action for climate resilience not only in Texas and Florida, but throughout the nation. Let's hope this occurs because the future well-being of millions of people depends on planners and engineers incorporating climate-informed risks into construction and reconstruction. Programs and initiatives such as CASI can help by providing the required climate risk information.

Cynthia Rosenzweig was the Principal Scientist on the NASA Climate Adaptation Science Investigators (CASI) Working Group that helped Johnson Space Center and Kennedy Space Center and other NASA Centers incorporate increasing risks of climate extremes into their master plans.

Christian Braneon's love affair with hydrology and civil engineering started when he was a senior in high school and crystallized after encountering Tropical Storm Alison firsthand while interning as a college student at Johnson Space Center in 2001.

Daniel Bader was Program Manager of the CASI program.


(Links verified 2017-11-03.)

Media Contact

Leslie McCarthy, NASA Goddard Institute for Space Studies, New York, N.Y., 212-678-5507,