Movement and fate of residual mineral oil contaminants in bioremediated soil

After bioremediation of mineral oil-contaminated soils, residual contaminants can remain in the soils. In this article, an analytical concept to determine the physicochemical properties of residual contaminants that can be used to assess the environmental fate and potential environmental hazards of

## Abstract A mixed culture of compatible hydrocarbonoclastic and diazotrophic bacteria, each at a density of 10^8^ organisms cm^−3^, was developed for optimised bioremediation of crude oil‐contaminated soil. The hydrocarbonoclastic bacterium, __Pseudomonas__ sp and the diazotroph, __Azotobacter vi

Laboratory bioremediation experiments were performed with soil from a diesel-oil contaminated waste disposal site ; contamination was 5580 mg hydrocarbons per kg soil dry mass. The e †ects of incubation temperatures (10¡C and 25¡C), of the addition of an inorganic fertilizer at C : N ratios of 10 :

## Abstract **BACKGROUND:** Bioaccessibility is often the limiting factor for the biodegradation of polycyclic aromatic hydrocarbons (PAH) in soils. The present study explores the potential of amending canola oil, an economically and ecologically attractive soil additive, for the enhancement of bio

The biomineralization of [14C]glyphosate, both in the free state and as 14C-residues associated with soybean cell-wall material, was studied in soil samples from four di †erent agricultural farming systems. After 26 days, [14C]carbon dioxide production from free glyphosate accounted for 34È51% of th