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Sentinel Species
A civil engineer at SIUC has a more practical interest in dogwoods. He believes that these trees, along with poplars and other plants, might someday serve as environmental sentinels, both measuring and cleaning up toxic substances in soil and groundwater.
Assistant professor Xingmao "Samuel" Ma works on remediation methods for contaminated groundwater, soil, and sediment. He is developing methods using plants to both detect and remove contaminants.
His work focuses on the thin area of soil surrounding the roots of a plant and the plant's aboveground parts. In a greenhouse west of the main campus, row upon row of dogwood and poplar cuttings growing in pots, along with various grasses, bear out this work, which could lead to more efficient environmental clean-up and monitoring methods.
 Ma studies how the fatty acids and enzymes secreted by various Southern Illinois plants belowground promote bacteria in the soil, which in turn can break down certain contaminants. The substances provide the dormant bacteria with a carbon source, which can promote their growth. The bacteria then break down contaminants such as perchlorates, which occur with fertilizers and certain military applications, such as rocket propellants, as well as naturally in lower concentrations. Perchlorates are thought to interfere with proper thyroid function in humans.
"I'm trying to identify certain Southern Illinois species of plants that might mitigate this type of contamination," Ma said. "We do this by looking at how these different plants interact with bacteria in the soil."
Using plants to help clean up the environment is known as phytoremediation. In other applications, plants can be used to actually extract certain toxins from soil, sediment, or groundwater. The plants can then be removed and disposed of safely.
Ma is using that ability to "uptake" contaminants in another part of his work aimed at phytomonitoring, or using plants to look for and measure contaminants in the environment. Ma is using some of the same plants to identify a mathematical formula that will help engineers not only find the contaminated areas, but measure how much contamination is there.
To do this, Ma and his two graduate students are placing plants in pots filled with Southern Illinois soil or in solutions along with a known amount of contaminants. After the plant has grown for some time in a sealed environment, they're using gas chromatography and other techniques to measure how much contaminant is in the plant flesh in parts per million.
Ma conducted such research during his doctoral work at the University of Missouri, Rolla, using single contaminants. His work now, however, is more complex in that it uses compounds of multiple contaminants—the scenario more typically found in the real world.
Ma ultimately aims to write a formula that can establish an accurate ratio between the amount of contaminant found in a plant versus what is in the ground. The method, if perfected, could lead to faster, cheaper environmental monitoring using plants.
"The way this is done now is often to dig a well and measure the contaminants in the groundwater," he says. "But wells are expensive and they take a while to dig. Plus, you might dig a well in one spot and it finds no contamination, while nearby the groundwater is contaminated.
"With plants, you can spread them out and they can tell you where you're most likely to find contamination. And that's where you can dig the well."
—Tim Crosby
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