Researchers at North Carolina State University are working to demonstrate that trees can be used to degrade or capture fuels that leak into soil and ground water.
Through a process called phytoremediation, plants and trees remove pollutants from the environment or render them harmless.
Through a partnership with state and federal government agencies, the military and industry, Dr Elizabeth Nichols, environmental technology professor in NC State’s Department of Forestry and Environmental Resources, and her team are using phytoremediation to clean up a contaminated site in Elizabeth City, North Carolina.
Phytoremediation uses plants to absorb heavy metals from the soil into their roots. The process is said to be an attractive alternative to the standard clean-up methods currently used, which are very expensive and energy intensive. At appropriate sites, phytoremediation can be a cost-effective and sustainable technology, according to Nichols.
The site was planted with a mixture of fast-growing trees such as hybrid poplars and willows to prevent residual fuel waste from entering the Pasquotank River by ground water discharge.
About 3,000 trees were planted on the five-acre site, which stored aircraft fuel for the coast guard from 1942 until 1991. During that period, fuel had been released into the soil and ground water.
‘We knew that tree growth would be difficult on portions of the site due to the levels of fuels in the soil and ground water but, overall, we thought the trees could keep this contamination from moving towards the river by slowing ground water flow,’ said Nichols. ‘Trees need water for photosynthesis so they absorb water from the ground; that process can slow the amount of ground water flowing towards the river.’
In the process of absorbing water from the ground, trees can take up fuel contaminants. Some contaminants will be degraded by trees during this process while others will be released into the air by tree leaves and stems.
Trees can also increase the abundance and diversity of soil micro-organisms around their roots. Some of these soil micro-organisms will degrade the fuel still remaining in the ground.
‘This can be a slower process, but we also want to show that trees will remove the remaining fuel footprint over time,’ added Nichols.
Initially, 500 hybrid poplar and willow trees were planted in 2006. Another 2,500 trees were planted in 2007. ‘Our initial results are very encouraging and amounts of fuel in the ground have decreased much faster than anticipated,’ she said. ‘But there is still much to learn about how trees can affect residual, weathered fuels over time.’