Looking for an inexpensive and effective way
to quickly improve the quality of your drinking water?
According
to a team of researchers from the Johns Hopkins Bloomberg School of Public
Health and the Johns Hopkins School of Medicine, sunlight and a twist of lime
might do the trick.
Researchers
found that adding lime juice to water that is treated with a solar disinfection
method removed detectable levels of harmful bacteria such as Escherichia coli
(E. coli) significantly faster than solar disinfection alone.
The
results are featured in the April 2012 issue of American Journal of Tropical
Medicine and Hygiene.
"For
many countries, access to clean drinking water is still a major concern.
Previous studies estimate that globally, half of all hospital beds are occupied
by people suffering from a water-related illness," said Kellogg Schwab,
PhD, MS, senior author of the study, director of the Johns Hopkins University
Global Water Program and a professor with the Bloomberg School's Department of
Environmental Health Sciences.
"The
preliminary results of this study show solar disinfection of water combined
with citrus could be effective at greatly reducing E. coli levels in just 30
minutes, a treatment time on par with boiling and other household water
treatment methods.
In
addition, the 30 milliliters of juice per 2 liters of water amounts to about
one-half Persian lime per bottle, a quantity that will likely not be
prohibitively expensive or create an unpleasant flavor."
In
low-income regions, solar disinfection of water is one of several household
water treatment methods to effectively reduce the incidence of diarrheal
illness. One method of using sunlight to disinfect water that is recommended by
the United Nations Children's Fund (UNICEF) is known as SODIS (Solar water
Disinfection).
The
SODIS method requires filling 1 or 2 L polyethylene terephthalate (PET plastic)
bottles with water and then exposing them to sunlight for at least 6 hours. In
cloudy weather, longer exposure times of up to 48 hours may be necessary to
achieve adequate disinfection.
To
determine if one of the active constituents in limes known as psoralenes could
enhance solar disinfection of water, Schwab and Alexander Harding, lead author
of the study and a medical student at the Johns Hopkins School of Medicine,
looked at microbial reductions after exposure to both sunlight and simulated
sunlight.
The
researchers filled PET plastic bottles with dechlorinated tap water and then
added lime juice, lime slurry, or synthetic psoralen and either E. coli, MS2
bacteriophage or murine norovirus. Researchers found that lower levels of both
E. coli and MS2 bacteriophage were statistically significant following solar
disinfection when either lime juice or lime slurry was added to the water
compared to solar disinfection alone.
They
did find however, that noroviruses were not dramatically reduced using this
technique, indicating it is not a perfect solution.
"Many
cultures already practice treatment with citrus juice, perhaps indicating that
this treatment method will be more appealing to potential SODIS users than
other additives such as TiO2 [titanium dioxide] or H2O2[hydrogen
peroxide]," suggest the authors of the study.
However,
they caution, "additional research should be done to evaluate the use of
lemon or other acidic fruits, as Persian limes may be difficult to obtain in
certain regions."
The
research was supported in part by the Osprey Foundation of Maryland, The Johns
Hopkins University Global Water Program, the Johns Hopkins University School of
Medicine Dean's Funding for Summer Research and the Johns Hopkins University
School of Medicine Scholarly Concentrations.
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