Scientists uncover {that a} fashionable pesticide accelerated the corrosion of an historic Roman relic.
Chlorobenzenes, a chemical that was as soon as utilized in pesticides and is understood to build up in soil and water sources, have been detected in traces on a corroded Roman bowl that dates to the Late Iron Age (between 43 and 410 AD). According to the research, which was revealed within the journal Scientific Reports, soil contaminated with chlorobenzenes could proceed to be a menace to the preservation of archaeological artifacts buried below the earth.
Chlorobenzenes are artificial compounds which may be dangerous in excessive concentrations, and most have been banned from utilization within the UK resulting from environmental issues. However, it’s believed that these compounds accrued within the surroundings on account of earlier industrial and agricultural actions. A copper-alloy Roman bowl was discovered in 2016 on a farm in Kent (UK), a site that has been used for agriculture since at least 1936.
Luciana da Costa Carvalho and colleagues analyzed the green and brown-colored corrosion on the bowl to identify their different components. They found elements that were indicative of the changes over time in the soil caused by human activities. In the green-colored corrosion, the authors found chlorobenzenes were present. The authors also found diethyltoluamide (also known as DEET) in the brown-colored corrosion, a modern compound that is still used in insect repellents.
The authors suggest that the chlorobenzenes were associated with increased corrosion in the Roman bowl. They conclude that even though chlorobenzenes are no longer used in the UK, polluted soil may still threaten the preservation of archaeological material still buried and more research needs to be undertaken to better understand the processes involved.
Reference: “The influence of pesticides on the corrosion of a Roman bowl excavated in Kent, UK” by Luciana da Costa Carvalho, Dana Goodburn-Brown, James S. O. McCullagh and A. Mark Pollard, 6 October 2022, Scientific Reports.
DOI: 10.1038/s41598-022-17902-9