Author
LOZANO, NURIA - University Of Maryland | |
Rice, Clifford | |
RAMIREZ, MARK - District Of Columbia Water & Sewer Authority (DCWASA) | |
TORRENTS, ALBA - University Of Maryland |
Submitted to: Chemosphere
Publication Type: Peer Reviewed Journal Publication Acceptance Date: 11/5/2009 Publication Date: 11/24/2009 Citation: Lozano, N., Rice, C., Ramirez, M., Torrents, A. 2009. Fate of triclosan in agricultural soils after biosolid applications. Chemosphere. 78:760-766. Interpretive Summary: A major source of discharge of triclosan, a major-use bactericide used in many household cleaning products, to the environment is through their release from land-applied biosolids which accounts for 60% of the disposal of this material. This study examines the occurrence of TCS in biosolids and its fate in biosolid-treated soils. TCS levels in biosolids generated from a repeatedly-sampled wastewater treatment plant averaged 15.6±0.6 mg Kg-1 dry wt. (mean ± standard error) with concentrations increasing slightly from 2005 to 2007. Surface soil samples were collected from several farms in northern Virginia ,U.S. that had received no biosolids, one biosolid application or multiple biosolids applications since 1992. Farms that received one application presented TCS concentrations between 4.1 and 4.5 ng g-1 dry wt. when time since application was over 16 months and between 23.6 and 66.6 ng g-1 dry wt. for farms where sampling after application was 7 to 9 months. Our results suggest a rapid dissipation of TCS under field conditions and that these levels were strongly dependent upon the time since biosolids application. Statistical differences were found (p<0.05) for TCS between multiple application farms and control farms suggesting that there was a slight build-up of TCS, although the concentrations for these farms were low (<10 ng g-1 dry wt.). Technical Abstract: Triclosan (5-chloro-2-[2,4-dichloro-phenoxy]-phenol (TCS) is a bactericidal compound that is added to a wide variety of household and personal care products. The consumer use of these products releases TCS into urban wastewater and this compound ends up in the environment when agricultural land is fertilized with wastewater biosolids. This study examines the occurrence of TCS in biosolids and its fate in biosolid-treated soils. TCS levels in biosolids generated from one repeatedly-sampled wastewater treatment plant averaged 15.6±0.6 mg kg-1 dry wt. (mean ± standard error) with a slight increase from 2005 to 2007. Surface soil samples were collected from several farms in northern Virginia, U.S. that had received no biosolids, one biosolid application or multiple biosolid applications since 1992. Farm soils that received one application presented TCS concentrations between 4.1 and 4.5 ng g-1 dry wt. when time since application was over 16 months and between 23.6 and 66.6 ng g-1 dry wt. for farms where sampling time after application was less than a year. Our results suggest that TCS content of biosolids are rapidly dissipated (estimated half-life of 107.4 days) when applied to agricultural fields. Statistical differences were found (p<0.05) for residual buildup of TCS between multiple application farms (at least 480 days after application) and controls suggesting that there was a slight build-up of TCS, although the concentrations for these farms were low (<10 ng g-1 dry wt.). |