This is Scientific American 60-Second Science. I'm Sophie Bushwick. Got a minute?
When bacteria, like some strains of E.coli, enter the water supply they can threaten public health.
To prevent such outbreaks, it's useful to know how these microbes behave in their natural environments, rather than just in a petri dish.
And one such environment is inside the human body.
In places without access to large sewage systems, bacteria-laden human waste passes into septic tanks.
There it's broken down before moving on into the groundwater.
To study how a pathogenic strain of E.coli behaves in this entire system, researchers had to build a replica.
Which includes an artificial human colon.
The work is published in Applied and Environmental Microbiology.
Did the counterfeit colon increase our E.coli comprehension?
Well, the E.coli did behave differently than the same bacteria in isolation.
They moved more slowly, and were more likely to form biofilms, slimy microbial communities that are hardier than individuals.
Which means the bacteria could hang around in the groundwater longer.
And that's a finding we don't want to flush away.
Thanks for the minute, for Scientific American 60-Second Science. I'm Sophie Bushwick.
如果对题目有疑问,欢迎来提出你的问题,热心的小伙伴会帮你解答。
精听听写练习