Uncovering the Structure and Function of Microbial Communities Formed During Periodic Tilling of TNT and DNT Co-Contaminated Soils

Abstract: 1.AbstractEnvironmental contamination by 2,4,6-trinitrotoluene (TNT), historically the most widely used secondary explosive, is a long-standing problem in former military conflict areas and at manufacturing and decommissioning plants. In field test plots at a former explosives manufacturing site, removal of TNT and dinitrotoluenes (DNTs) was observed following periods of tillage. Since tilling of soils has previously been shown to alter the microbial community, this study was aimed at understanding how the mic… Show more

“…Research in co-polluted explosive soils indicates a higher abundance of non-common microbiota (such as Achromobacter , Phaeospirillum , Thiobacillus , Microbacterium , etc. ), representing 31.5 ± 3.3% of the detected sequences, compared to 4.3 ± 2.1% in untilled or non-detonated adjacent areas [ 19 ]. This shift may be attributed to the necessity to adapt and claim new ecological roles, but generates a clear decrease in soil quality and the loss of niche diversity, impacting land use.…”

Review of Explosive Contamination and Bioremediation: Insights from Microbial and Bio-Omic Approaches

“…Research in co-polluted explosive soils indicates a higher abundance of non-common microbiota (such as Achromobacter , Phaeospirillum , Thiobacillus , Microbacterium , etc. ), representing 31.5 ± 3.3% of the detected sequences, compared to 4.3 ± 2.1% in untilled or non-detonated adjacent areas [ 19 ]. This shift may be attributed to the necessity to adapt and claim new ecological roles, but generates a clear decrease in soil quality and the loss of niche diversity, impacting land use.…”

Review of Explosive Contamination and Bioremediation: Insights from Microbial and Bio-Omic Approaches