The Arizona Geological Survey just released a 108-page report on flood impacts on housing developments on four active alluvial fans in the Phoenix area. The report, contributed by Jon Fuller and David Meyer, is entitled “Case Studies of Flood Impacts to Development on Active Alluvial Fans in Central Arizona.” Fuller and Meyer investigate the flood impacts to developments on four alluvial fans in the Phoenix area:
- Ahwatukee Fan – South Mountain
- Pima Canyon Wash Fan – South Mountain
- Lost Dog Wash Fan – McDowell Mountains
- Reata Pass Fan – McDowell Mountains
You can download it here.
Abstract: Flooding issues and drainage problems associated with historical development on four active alluvial fan study sites in central Arizona were examined to document the effectiveness of engineered flood protection measures and floodplain management policies. The study sites are located in the metropolitan Phoenix area and include (1) Ahwatukee-City of Phoenix, (2) Pima Canyon-City of Phoenix/Guadalupe, (3) Reata Pass-Scottsdale, and (4) Lost Dog-Scottsdale. The four sites have experienced different types of urbanization, including master-planned communities, single-lot residential development, public transportation and utility networks, and major engineered drainage structures such as channels, detention basins, culverts, and dams. The engineered drainage systems at the four historical alluvial fan study sites have performed adequately during the 30-year period of record, at least with respect to controlling the flow path uncertainty and sedimentation normally associated with active alluvial fans. Significantly, no homes have been damaged by alluvial fan flooding at any of the study sites, and no avulsions have occurred in the developed portions of the alluvial fans. Two floods exceeding the 100-year design storm occurred on two of the fans, but many of the flood control measures on the other fan sites remain untested by large floods. The absence of flood damages is likely due to lack of debris flow potential at any of the sites, low rates of sediment yield at the fan sites, channelization and encroachment that increase sediment transport off the fan surface, and to some degree, the relatively short period of record since development first occurred.