NEWS

Pilot Project for Flash and Flow Warning System

The National Oceanic and Atmospheric Administration and the U.S. Geological Survey have announced plans to conduct a pilot project in Southern California that will improve NOAA forecasts of potential debris flows, also known as mud flows. The project's goal is to provide public warnings of imminent threat in and near areas recently burned by .

The pilot project was announced as the agencies released the NOAA-USGS Warning System report, which outlines an initial plan for the prototype, and identifies the potential for expanding the warning system nationwide by developing improved technologies to characterise and debris flow hazards. These will be combined with existing methods used by NOAA's National Weather Service to forecast and measure precipitation.

Once the smoke clears from a , the danger is not over. Flash and debris flows can be one of the most hazardous consequences of rainfall on burned hill slopes. Just a small amount of rainfall on a burned area can lead to these hazards. The powerful force of rushing water, , and , both within the burned area and downstream, can destroy culverts, bridges, roadways, and structures, and can result in injury or death. For example, 16 people died in a debris flow during the Christmas day 2003 that impacted recently-burned hill slopes in San Bernardino County, CA, USA. Nearly US$ 1 billion was spent to clean up and repair roadways following this event.

Because of their close link with precipitation, post-wildfire debris flows are somewhat more predictable than other types of . The prototype warning system will improve watches and warnings issued by NOAA's National Weather Service for post- flash floods and debris flows based. This will use comparisons between precipitation estimates from NOAA's National Weather Service and rainfall intensity-duration values derived from ongoing USGS research in the Southern California region. These thresholds were developed by comparing conditions in known to have produced flash floods and debris flows with those that did not. Warning systems based on established links between rainfall and the occurrence of flash floods and debris flows are critical to communities most vulnerable to this natural hazard.

A principal finding of the NOAA-USGS task force that developed the report is that the potential exists to enhance and expand the warning system in the future to provide detailed maps that show areas that could be impacted by flash floods and debris flows. Such maps could potentially be generated in real-time during a storm by incorporating improved forecasts and measurements of precipitation into detailed susceptibly models.

https://www.gim-international.com/content/article/pilot-project-for-flash-flood-and-debris-flow-warning-system