Fungi thrived in flooded Colorado homes months after waters receded

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Basements that flooded after heavy rains deluged the Colorado Front Range in September 2013 had higher levels of airborne mold and other fungi months after the waters receded compared with basements that didn’t flood, according to a study by the University of Colorado Boulder.

Basements that flooded after heavy rains deluged the Colorado Front Range in September 2013 had higher levels of airborne mold and other fungi months after the waters receded compared with basements that didn’t flood, according to a study by the University of Colorado Boulder.

The researchers found about twice as much fungal DNA in flooded homes than in non-flooded homes, despite the fact that most of the flooded basements they sampled had already been remediated, a process which often includes throwing out old furniture, replacing drywall and flooring, and treating dried surfaces with chemicals that deter microbial growth.

The findings, published in the journal Environmental Science & Technology and funded by the Alfred P. Sloan Foundation, also show that the types of fungi—and airborne bacteria—found in flooded homes were different than those in non-flooded homes.

“It was surprising to find that months after the flood had happened, and homes had for the most part been remediated, the microbial ecology in the flooded homes was still very different compared to the non-flooded homes,” said Shelly Miller, an associate professor of mechanical engineering and co-author of the paper. “It suggests that returning a home to its state before a flood will take a longer time, or a different remediation approach than was typically used in the homes we studied.” 

Miller and the other study authors, including CU-Boulder microbiologist Noah Fierer, were also surprised that the differences in the bacteria and fungi found indoors were detected even though the humidity registered the same in both flooded and non-flooded basements by the time the samples were taken.

Fierer, an associate professor in the Department of Ecology and Evolutionary Biology and a fellow at the Cooperative Institute for Research in Environmental Sciences, was inspired to do the study while walking through his south Boulder neighborhood after the September floods, which occurred after 15 inches of rain fell in parts of the city. Many of the basements that flooded in Boulder did so because of rising groundwater levels, not because of creeks overtopping their banks, which meant that each property’s drainage and geography affected whether that particular house was affected.

“The Boulder flood was very patchy,” Fierer said. “I was walking down our street and half the homes had basement flooding and half didn’t.”

Continue reading at the University of Colorado Boulder.

Flood image via Shutterstock.