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BIODEGRADATION KINETICS AND TOXICITY OF VEGETABLE OIL TRIACYLGLYCEROLS UNDER AEROBIC CONDITIONS
Citation:
CAMPO, P., Y. ZHAO, M. T. SUIDAN, A. D. VENOSA, AND G. A. SORIAL. BIODEGRADATION KINETICS AND TOXICITY OF VEGETABLE OIL TRIACYLGLYCEROLS UNDER AEROBIC CONDITIONS. H. Fiedler, L.L. Needham (ed.), CHEMOSPHERE. Elsevier Science Ltd, New York, NY, 68(11):2054-2062, (2007).
Impact/Purpose:
To determine the aerobic biodegradation of five triacylglycerols in water, by conducting respirometry tests to determine the biochemical oxygen demand (BOD) parameters.
Description:
The aerobic biodegradation of five triacylglycerols (TAGs), three liquids [triolein (OOO), trilinolein (LLL), and trilinolenin (LnLnLn)] and two solids [tripalmitin (PPP) and tristearin (SSS)] was studied in water. Respirometry tests were designed and conducted to determine the biochemical oxygen demand (BOD) parameters of the compounds. In the case of the solid lipids, the degradation process was limited by their extremely non-polar nature. When added to water, PPP and SSS formed irregular clumps or gumballs, not a fine and uniform suspension required for the lipase activity. After 30 days, appreciable mineralization was not achieved; therefore, first-order biodegradation coefficients could not be determined. The bioavailability of the liquid TAGs was restricted due to the presence of double bonds in the fatty acids (FAs). An autoxidation process occurred in the allylic chains, resulting in the production of hydroperoxides. These compounds polymerized and became non-biodegradable. Nevertheless, the non-oxidized fractions were readily mineralized, and BOD rate constants were estimated by non-linear regression: LLL (k = 0.0061 h-1) and LnLnLn (k = 0.0071 h-1) were degraded more rapidly than OOO (k = 0.0025 h-1). Lipids strongly partitioned to the biomass and, therefore, Microtox®toxicity was not observed in the water column. However, EC50 values (< 15% sample volume) were measured in the solid phase.
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BIODEGRADATION KINETICS AND TOXICITY OF VEGETABLE OIL TRIACYLGLYCEROLS UNDER AEROBIC CONDITIONS