2,4,6-trinitrotoluene

Byproducts from the photocatalytic reduction of TNT (at pH 3.1 to 6.6 under a nitrogen atmosphere) were observed: 4 -amino-2,6 -dinitrotoluene, 2,4 -diamino-6 -nitrotoluene, 4 -hydroxylamino-2,6 -dinitrotoluene, 2,4 -dihydroxylamino-6-nitrotoluene, and 2 -hydroxylamino-4 -amino-6 -nitrotoluene. The extent of TNT mineralization was approximately 14% by biological transformation alone and improved to approximately 32% using the combined photocatalytic and fungal treatment.

When the initial pH was lowered to 3.1 using a combination of acid-form EDTA and disodium EDTA the final pH was 6.6 and no azoxynitrotoluenes were detected.

Significant mineralization was seen in all flasks inoculated with P. chrysosporium. The experiment with no added nitrogen gave the greatest amount of mineralization, approximately 20%, with lesser extents of mineralization in the presence of added nitrogen. No significant mineralization was observed in the uninoculated control.

Mineralization without photocatalytic pretreatment was 13.7 +/- 1.5% (initial TNT concentration 19.6 +/- 3.5%).

Biological mineralization with photocatalytic pretreatment was 31.8 +/- 0.5% (at similar concentrations).

Linear regression was used to evaluate relationships between bioavailability (Tubifex NA concentrations) and chemical measures of availability (sediment concentrations and SPME concentrations). The SAS/LABt (Ver 8.02; SAS Institute, Cary, NC, USA) was used to test parametric assumptions and to identify outliers.Student’s t tests, Transformation enabled the use of parametric regression to develop models with which to examine the ability of SPMEs to predict bioavailability; however, the need for transformation may suggest that the relationship in the untransformed data may not be linear.

Because both metabolism and bioavailability determine the concentrations of the three main NAs measured in the animals, the relationships between bioavailability and SPME concentrations reported here are purely empirical and may be specific to this organism. The relationship between SPME and Tubifex TNT concentrations was relatively constant among TNT-spiked sediment, TNT-spiked carbon-amended sediment, and TNT-spiked water, suggesting that SPMEs may be able to provide matrix-independent measures of TNT availability.

The TNT spiked into sediment degraded to aminated transformation products during mixing and also during the sediment exposure. Different patterns of TNT degradation were observed for the two sediments. Although TNT comprised the largest fraction of HPLC-identified compounds during the experimentin YB sediment, aminated transformation products were the dominating compounds in extracts collected for most treatments of the SDB sediment. The extent of TNT degradation decreased with increasing spiking concentration at all sampling times for SDB sediments, and a similar trend clearly was observed for the day 10 samples from YB sediments.

TNT was not observed in any of the tissue extract. The compounds 2 -ADNT and 4 -ADNT were the only degradation products quantified in tissue extracts, with 4 -ADNT representing 83 and 72% of the total for YB and SDB sediment-exposed amphipods an avarage, respectively.This is consistent withthe increased presence of 4 -ADNT abserved in the sediments.