Aerobic Biodegradation of Methyl Tert-Butyl Ether in Gasoline-Contaminated Aquifer Sediments

Abstract

Intrinsic biodegradation of methyl tert-butyl ether ~MTBE! in aquifer sediments under oxic conditions was investigated using laboratory microcosms. Aquifer samples were collected from three different areas ~source area, upgradient, and downgradient! of a shallow gasoline-contaminated aquifer within the Atlantic Coastal Plain Province located in Virginia. Biodegradation of MTBE was observed in the source-area microcosms in which MTBE declined from a starting concentration of 2.7 to 0.28 mg/L over a 58-day period, following an initial lag period of 20 days. The same set of microcosms was respiked with MTBE to an initial concentration of 4.8 mg/L and MTBE concentrations declined to 0.20 mg/L over a 52-day period with no lag in biodegradation. First-order MTBE biodegradation rates for the first and second periods were 0.03760.003 and 0.06360.003 day 21 , respectively. When another set of source-area micro- cosms was spiked with MTBE ~5 mg/L!, toluene and ethylbenzene ~1 mg/L each!, the initial lag period increased to 33 days but there was no significant change in the MTBE biodegradation rate~0.06560.026 day 21 ! and MTBE was not detected after 134 days. Biodegradation of MTBE was also observed in the microcosms constructed using aquifer sediment with only limited exposure to MTBE but the degradation rate was lower and statistically different ~0.02260.005 day 21 ! than the source area microcosms. Biodegradation of MTBE ceased when oxygen was depleted. Methyl tert-butyl ether did not biodegrade in the uncontaminated, upgradient microcosms; however, rapid biodegradation of toluene was observed. Methyl tert-butyl ether biodegradation appears to be limited in the absence of dissolved oxygen and in aquifer sediments where petroleum hydrocarbons including MTBE were not previously observed.