13 páignas.- 7 figuras.- 2 tablas.- referencias.- Supplementary data to this article can be found online at https://doi.org/10.1016/j.scitotenv.2022.157952.
Due to the extensive oil extraction and transportation that occurs in oil-producing countries, many lands remain contam-inated because of accidental leakages. Despite its low cost and environmentally safe nature, bioremediation technology is not always successful, mainly because of the soil toxicity to the degrading microbial populations and plants. Here we re-port a three-year microfield experiment on the influence of natural sorbents of mineral (zeolite, kaolinite, vermiculite, di-atomite), organic (peat), carbonaceous (biochar) origin, and a mixed sorbent ACD (composed of granular activated carbon and diatomite) on the bioremediation of grey forest soil contaminated with weathered crude oil (40.1 g total petroleum hydrocarbons (TPH) kg-1). Optimal doses of the sorbents significantly accelerated bioremediation of petroleum -contaminated soil through bioaugmentation followed by phytoremediation. The main reason for the influence of the sor-bent amendments relied upon the creation of optimal conditions for the activation of hydrocarbon-utilizing bacteria and plant growth due to the reduction of soil toxicity, as well as maintaining an optimal pH and water-air regime in the soil. That happened because of reducing the soil hydrophobicity, increasing porosity and water holding capacity. The content of the TPH in the best samples (2 % biochar or ACD) reduced to their local permissible concentration accepted for remediated soils in the Russian Federation (
This work was fi nanced by the Russian Science Foundation (Project No. 19-29-05265mk) . We thank the Spanish Ministry of Science, Innovation (PID2019-109700RB-C1) for supporting the work of J.J. Ortega-Calvo, as well as Dr. Christina Ivashchenko for consultation in statistical treatment of our results.