The effectiveness of in situ bioremediation in many systems may be constrained by low contaminant bioavailability due to limited aqueous solubility or a large magnitude of sorption. The objective of this research was to evaluate the effect ofhydroxypropyl-β-cyclodextrin (HPCD) on phenanthrene solubilization and biodegradation. Results showed that analytical-grade HPCD can significantly increase the apparent solubility of phenanthrene. The increase in apparent solubility had a major impact on the biodegradation rate of phenanthrene. For example, in the presence of 10{sup}5 mg L{sup}-1 HPCD, the substrate utilization rate increased from 0.17 mg h{sup}-1 to 0.93 mg h{sup}-1 while the apparent solubility was increased from 1.3 mg L{sup}-1 to161.3 mg L{sup}-1. As a result, only 0.3 of the phenanthrene remained at the end of a 48 h incubation for the highest concentration of HPCD tested (10{sup}5 mg L{sup}-1). In contrast, 45.2 of the phenanthrene remained in the absence of HPCD.Technical-grade HPCD, which contains the biodegradable impurity propylene glycol, also increased the substrate utilization rate, although to a lesser extent than the analytical-grade HPCD. On the basis of these results, it appears that HPCD cansignificantly increase the bioavailability, and thereby enhance the biodegradation, of phenanthrene.
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