Research Article
Enantioselective Behavior of Flumequine Enantiomers and Metabolites’ Identification in Sediment
Table 3
The degradation of kinetic equations and half-life period under sterile and natural conditions.
| Sediment | FLU | Sterile conditions | Natural conditions | Kinetic equations | R2 | t1/2(d) | Kinetic equations | R2 | t1/2(d) |
| 1# | S-(−)-FLU | Y = −0.0160x − 1.7932 | 0.7235 | 43.31 | Y = −0.0127x − 1.5467 | 0.8168 | 54.57 | R-(+)-FLU | Y = −0.0177x − 1.6003 | 0.7863 | 39.15 | Y = −0.0144x − 1.1550 | 0.8017 | 48.13 |
| 2# | S-(−)-FLU | Y = −0.0176x − 0.5709 | 0.8059 | 39.38 | Y = −0.0076x − 0.2486 | 0.5830 | 91.18 | R-(+)-FLU | Y = −0.0202x − 0.6548 | 0.7757 | 34.31 | Y = −0.0084x − 0.2404 | 0.6223 | 82.50 |
| 3# | S-(−)-FLU | Y = −0.0174x − 0.4680 | 0.9063 | 39.83 | Y = −0.0121x − 0.7678 | 0.8045 | 57.27 | R-(+)-FLU | Y = −0.0182x − 0.3692 | 0.9135 | 38.08 | Y = −0.0141x − 0.5311 | 0.8875 | 49.15 |
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R2, determination coefficient.
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