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- Title
Effects of nitrogen and phosphorus supply on hexadecane biodegradation in soil systems
- Authors
Smith, V. H.; Cleland, D. L.; Law, K. P.; Graham, D. W.
- Abstract
The biodegradation of hexadecane (C as hexadecane-C) was assessed under 34 different external nitrogen (N supplied as NO3-N) and phosphorus (P supplied as PO4-3-P) supply conditions in order to determine how different nutrient formulations affected nutrient limitation conditions during degradation. CO2 production yields indicated that shifts in N and P supply levels resulted in variable biodegradation responses due to shifts in the limiting-nutrient (e.g., from N to P). For example, the estimated maximum fractional CO2 yield ratio was 0.24 (mg CO2-C produced mg-1 hexadecane-C) for P-limited nutrient formulations (P:hexadecane-C<0.01), whereas the yield ratio was more than two times greater when the system was not P- limited. Similar effects were observed for N-limited (N:hexadecane- C<0.15) versus non-N-limited formulations. The relative bioavailability of natural soil-N and soil-P alsowas examined. In the soil studied, background soil-N was 96.3% organic-N and was found to be largely nonbioavailable. In contrast, high CO2 yields were observed even when no external P was supplied. An iterative mathematical procedure indicated that the Olsen soil-P subfraction (inorganic soil-P plus soluble organic soil- P) best approximated bioavailable soil-P for this soil. Our results indicate that both N and P additions affect biodegradation yields, but that stoichiometrically inappropriate nutrient mixes produce suboptimal CO2 yields. We also found that the bioavailable fractions of soil-N and soil-P should be incorporated into estimating the most suitable nutrient formulations for a given contamination scenario.
- Subjects
BIOAVAILABILITY; BIODEGRADATION; HYDROCARBONS; NITROGEN; SOIL science
- Publication
Water, Air & Soil Pollution, 1999, Vol 111, Issue 1-4, p1
- ISSN
0049-6979
- Publication type
Article