Abstract
Diesel oil is the main source of energy used in Antarctica. Since diesel is composed of toxic compounds such as polycyclic aromatic hydrocarbons (PAHs) and heavy metals, it represents a constant threat to the organisms inhabiting this continent. In the present study, we characterized the chemical and biological parameters of diesel-exposed soils obtained from King George Island in Antarctica. Contaminated soils present PAH concentrations 1000 times higher than non-exposed soils. Some contaminated soil samples also exhibited high concentrations of cadmium and lead. A 16S metagenome analysis revealed the effect of co-contamination on bacterial communities. An increase in the relative abundance of bacteria known as PAH degraders or metal resistant was determined in co-contaminated soils. Accordingly, the soil containing higher amounts of PAHs exhibited increased dehydrogenase activity than control soils, suggesting that the microorganisms present can metabolize diesel. The inhibitory effect on soil metabolism produced by cadmium was lower in diesel-contaminated soils. Moreover, diesel-contaminated soils contain higher amounts of cultivable heterotrophic, cadmium-tolerant, and PAH-degrading bacteria than control soils. Obtained results indicate that diesel contamination at King George island has affected microbial communities, favoring the presence of microorganisms capable of utilizing PAHs as a carbon source, even in the presence of heavy metals.
Highlights
Antarctica has many natural resources and contains near 80% of the freshwater reserves of our planet
The isolate exhibiting the highest capacity to degrade this polycyclic aromatic hydrocarbons (PAHs), Sphingobium xenophagum D43FB, was capable of doing it even in the presence of cadmium. These results suggest that the presence of these compounds in diesel contaminated Antarctic soils are probably selecting for microorganisms capable of utilizing PAHs in the presence of heavy metals
We studied the presence of harmful diesel components such as PAHs and heavy metals in soils of King George Island, Antarctica
Summary
Antarctica has many natural resources and contains near 80% of the freshwater reserves of our planet. Most Antarctic studies have focused on the Ross sea region, with a minority percentage in the Shetland Islands, the Antarctic Peninsula, and East Antarctica [2] In this context, high levels of PAHs and heavy metals ] determined in diesel contaminated soils of different regions of Antarctica. The isolate exhibiting the highest capacity to degrade this PAH, Sphingobium xenophagum D43FB, was capable of doing it even in the presence of cadmium These results suggest that the presence of these compounds in diesel contaminated Antarctic soils are probably selecting for microorganisms capable of utilizing PAHs in the presence of heavy metals. We determined the effect of co-contamination on dehydrogenase activities of bacterial soil communities and how this contamination affects the number of culturable bacteria
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