Scientists Suggest an Environmentally Conscious Way to Deal With Land Mines: Blow Them Up
Land mines left over from conflicts can have disastrous consequences for the environment. Most of these bombs contain volatile TNT, and when these chemicals are released they contaminate the surrounding soil and water, poisoning the plants and animals that depend on those natural resources [PDF]. A lot of time and money is invested in deactivating leftover land mines in a clean and safe way, but new research published in PLOS ONE suggests that bomb squads may be better off blowing them up.
As Gizmodo reports, the study, conducted by Australian and Scottish researchers, shows that detonating land mines ends up causing less harm to the environment than deactivating them and removing them from the ground. At first this might seem counterintuitive: How can a large explosion do less damage to the environment than a bomb that never goes off? But the violent impact of the bomb is ultimately what allows for cleaner soil.
When a land mine is detonated, that explosion disrupts the surrounding soil, causing it to become loose and porous. The new air pockets in the dirt leave room for bacteria to squirm through and consume pollutants, a process called bioremediation. Researchers found that the site of a detonated land mine had lower levels of TNT after six weeks than the site of a deactivated one, thanks to greater activity from these toxin-munching bacteria.
Previous research had mainly examined the effect of detonation on the exterior of soil aggregates. This study is the first to investigate the effects of landmine blasts on the soil’s interior structure, and the findings could lead to better methods of bioremediation in polluted sites, the authors note in the study.
Land mines are a major threat in areas touched by war. There’s still no one technique used by bomb squads to sniff them out (drones and rats are just a couple of the tools currently in play), but when they are located, the new research may change the way these explosives are handled.