Long-term sorption of lincomycin to biochars: The intertwined roles of pore diffusion and dissolved organic carbon.
Water Res
; 161: 108-118, 2019 Sep 15.
Article
en En
| MEDLINE
| ID: mdl-31181446
ABSTRACT
Sequestration of anthropogenic antibiotics by biochars from waters may be a promising strategy to minimize environmental and human health risks of antibiotic resistance. This study investigated the long-term sequestration of lincomycin by 17 slow-pyrolysis biochars using batch sorption experiments during 365 days. Sorption kinetics were well fitted to the Weber-Morris intraparticle diffusion model for all tested biochars with the intraparticle diffusion rate constant (kid) of 25.3-166⯵gâ¯g-1 day-0.5 and intercept constant (Cid) of 39.0-339⯵gâ¯g-1, suggesting that the sorption kinetics were controlled by fast initial sorption and slow pore diffusion. The quasi-equilibrium sorption isotherms became more nonlinear with increasing equilibration time at 1, 7, 30, and 365 days, likely due to increasing abundance of heterogeneous sorption sites in biochars over time. Intriguingly, low-temperature (300⯰C) and high-temperature (600⯰C) biochars had faster sorption kinetics than intermediate-temperature (400-500⯰C) biochars at the long term, which was attributed to greater specific surface area and pore volume of high-temperature biochars and the substantial and continuous release of dissolved organic carbon (DOC) from low-temperature biochars, respectively. DOC release enhanced lincomycin sorption by decreasing biochar particle size and/or increasing the accessibility of sorption sites and pores initially blocked by DOC. Additionally, a large fraction (>75%) of sorbed lincomycin in biochars after a 240-day equilibration could not be extracted by the acetonitrile/methanol extractant. The strong sorption and low extraction recovery demonstrated the great potential of biochars as soil amendments for long-term sequestration of antibiotics in-situ.
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Texto completo:
1
Bases de datos:
MEDLINE
Asunto principal:
Carbono
/
Lincomicina
Idioma:
En
Revista:
Water Res
Año:
2019
Tipo del documento:
Article
País de afiliación:
Estados Unidos