AI Article Synopsis
- Doxycycline, an antibiotic, poses environmental concerns due to its presence in water from waste discharges, prompting the need for effective removal technologies.
- The study focused on using rice straw particles coated with bacteria that can degrade Doxycycline to investigate how the processes of adsorption and biotransformation can work together to eliminate the antibiotic from water.
- Results showed that the rice straw particles effectively adsorbed Doxycycline, which was then further broken down by the bacteria, indicating that combining these processes can enhance the removal of Doxycycline from contaminated water.
Article Abstract
Doxycycline (DC) is a second generation tetracycline antibiotic and its occurrence in the aquatic environment due to the discharge of municipal and agricultural wastes has called for technologies to effectively remove DC from water. The objective of the study was to characterize the synergistic benefits of adsorption and biotransformation in removing DC from water using rice straw particles (RSPs) covered with DC degrading bacteria, Brevundimonas naejangsanensis strain DD1. First, optimal experimental conditions were identified for individual processes, i.e., hydrolysis, adsorption, and biotransformation, in terms of their performance of removing DC from water. Then, synergistic effects between adsorption and biotransformation were demonstrated by adding DD1-covered RSPs (DD1-RSPs) to DC-containing solution. Results suggest that DC was quickly adsorbed onto RSPs and the adsorbed DC was subsequently biotransformed by the DD1 cells on RSPs. The adsorption of DC to DD1-RSPs can be well described using the pseudo-second-order kinetics and the Langmuir isotherm. The DD1 cells on RSPs converted DC to several biotransformation products through a series of demethylation, dehydration, decarbonylation, and deamination. This study demonstrated that adsorption and biotransformation could work synergistically to remove DC from water.
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| http://dx.doi.org/10.1016/j.chemosphere.2021.132828 | DOI Listing |
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