Puerto Rico isn’t ready for climate-fueled hurricane season

Debris during a storm surge near the Puerto Chico Harbor during the passing of Hurricane Irma on September 6, 2017 in Fajardo, Puerto Rico. (Credit: Jose Jiminez/Getty Images)

Puerto Rico isn’t ready for another hurricane season, let alone the effects of climate change, according to a new study.

The research shows the island’s outstanding capacity to produce record-breaking floods and trigger a large number of landslides.

The new study, published in the journal Hydrology, builds on three prior studies that hydrologist Carlos Ramos-Scharrón of the University of Texas at Austin led. His team began investigating the devastating impact of tropical cyclones on the island after Hurricane Maria in 2017.

  • The first study, in Scientific Reports, compares the 2017 hurricane as a rainstorm event to more than a century of cyclones that came before it, finding that Maria produced the highest island-wide daily rainfall amount ever recorded (similar to Hurricane Harvey’s impact on Houston).
  • The second, in Physical Geography, finds that Maria’s rainfall triggered one of the highest number of rainfall-induced landslides ever reported worldwide in similarly sized areas.
  • And the third, in JGR Earth Surface, identifies landslides as the main source of the sediment infilling the already limited water storage capacity of the island’s main reservoirs.

“We need to stop talking about climate change in future tense. It’s already here,” says Ramos-Scharrón, associate professor in the department of geography and the environment and the Teresa Lozano Long Institute of Latin American Studies.

“Climate change projections for the Caribbean suggest longer dry periods interrupted by more intense storms. These storms release large quantities of sediment by landslides, and many of those end up reducing the island’s capacity to store water. The combined effect of these climate change projections is for a higher propensity for water scarcity.”

The latest paper, which focuses on streamflow levels, draws attention to another glaring issue—Puerto Rico is not prepared to handle the severe flooding sure to come its way. Flood management and the design of vital infrastructure, such as bridges, largely rely on a calculation of the likelihood that an event of a given magnitude is going to occur. For a particular region, that calculation depends on the history of flooding.

In Puerto Rico, the most current method to make such calculations relies on data collected only up to 1994. Since then, Hurricanes Hortense (1996), Georges (1998), and Maria surpassed both 100-year and 500-year flood marks across the island, with Maria surpassing 500-year levels in five locations.

Five other tropical storms matched or surpassed 100- and 500-year levels in some specific locations, particularly near the central-eastern end of Puerto Rico, which is most vulnerable due to the westward trajectory of most tropical cyclones and the island’s hilly topography.

“Events with these 100- and 500-year metrics just cannot be that common,” Ramos-Scharrón says. “If this is not what climate change is supposed to be, then I do not know what it is. It can creep up on you. Puerto Rico needs to adapt its planning tools to the reality of what the island has experienced and scientists are documenting.”

Source: UT Austin