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New Study Focuses On Effective Bioremediation Of Polluted Groundwater
May 16, 2018

As a process, bioremediation has existed for a long time. First discovered around 600 BC by the Romans and used to clean their waste water, bioremediation was officially invented by George Robinson in the 1960’s during experiments with microbes inside polluted glass jars. However it wasn’t until 1972 when scientists used them to clean out fuel tanks on the RMS Queen Mary that these microbes were put to the test in a real life situation. Ever since 1972, scientists have been using and improving these microbes, making them more powerful, versatile, and efficient. Today they are used in applications ranging from soil remediation, to help clean oil spills and their contamination situations, as well as cleaning contaminated groundwater. Simply stated, bioremediation is the process of cleaning up a polluted site by using living organisms and turning pollutants into non-toxic substances.

However, some bioremediation efforts have proven to be more successful than others. For example, researchers have studied the use of bacteria to break down organic contaminants in groundwater; however, this bioremediation process has been met with limited success under some conditions. Because the presence of bacteria, water flow rate in an aquifer and nutrient levels vary widely within and between aquifers, having a better understanding of what affects bioremediation success is crucial.

Now, according to information provided by Texas A&M University (Texas A&M), a new study led by Itza Mendoza-Sanchez, PhD, research assistant professor in the Department of Environmental and Occupational Health at the Texas A&M School of Public Health, is advancing that understanding. Published in the journal Environmental Science & Technology, Dr. Mendoza-Sanchez’s research study applied experimental data and mathematical models to understand some of the limitations of biodegradation of toxic pollutants that are frequently found in contaminated aquifers. Having mathematical models that accurately represent the processes and limitations of bioremediation would allow scientists to efficiently clean contaminated groundwater.

“Bioremediation is an appealing technology for cleaning up contaminated aquifers because of its relative low cost and the transformation of toxic to non-toxic compounds,” Dr. Mendoza-Sanchez explained. “The transformation of the groundwater pollutant that we are studying occurs in a series of sequential steps that generate intermediate compounds that are more toxic than the original contaminant. If the transformation is incomplete, bioremediation would not be successful.”

To try to gain a better understanding on the conditions that affect the series of sequential steps of the pollutant’s transformation in groundwater, Dr. Mendoza-Sanchez and colleagues ran a series of bioremediation experiments. They tested the effect that different water flowing conditions in an aquifer would have on the biodegradation of the pollutant. Then, they used a mathematical model to explain the most likely factors that limit the bioremediation success.

Through these tests, researchers have shown the mathematical models to be valid for simulating conversion of pollutants in contaminated groundwater. The researchers also noted a few areas for improving the models, such as expanding them to cover other pollutants and more complex scenarios of contaminated water transport in an aquifer.

“This study paves the way to a better understanding of what limits groundwater bioremediation and could lead to better tools for predicting how effective cleanup efforts will be,” Dr. Mendoza-Sanchez said.

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