According to researchers from the University of Montreal, a microscopic fungus that consumes oil like a thirsty puppy could be an effective and cost-effective way to clean soiled soil. If research proves this, the discovery could add yet another element to the growing stock of phytoremediation tools: plants that can be used to remove toxic substances through natural soil and groundwater processes without the huge carbon footprints of traditional cleaning methods. You can buy shrooms online Canada to get the mushrooms.
What is the problem with conventional cleaning methods?
Conventional cleaning processes for soiled floors are usually associated with a high energy consumption. A typical project may involve the recovery of contaminated soil from one site and its introduction into another, or the pumping of large quantities of contaminated water from sewage treatment plants. In recent years, the trend has been to find ways to eliminate pollution without moving soil and water. This is where mushrooms come into play.
Help plants to absorb soil pollutants:
In conventional phytoremediation, robust plants are used to extract soil pollutants during growth. Substances such as heavy metals can then be removed by harvesting plants that can be burned (or maybe one day used as a feedstock for biofuels). The Montreal project has a new twist, which is to improve the plants’ work by enriching the soil with bacteria and microfungi. A member of the research team, Professor of Biochemistry, B. Franz Lang, explains: “It is not the plant that does most of the work, but the micro-organisms, namely the fungi and the fungi, bacteria that accompany the root.” that grow fast and have deep roots, and the next phase of research is to find the most effective combination of plants with fungi and bacteria.
The Canadian project is similar to another promising phytoremediation project in Michigan’s Copperland, some of which have been described as a moonscape. In this project, researchers enriched ordinary clay pots with a bacterium that thrives in areas that are heavily contaminated with abandoned copper mine waste. The corn in the pots would normally hurt, but in the presence of the bacteria, the corn would grow vigorously and absorb copper. The next steps will be to remove the process from actually contaminated sites in the greenhouse and plant corn (as in pastures, maize is a popular phytoremediation plant as it grows fast and produces relatively high levels of biomass).