2007
DOI: 10.1021/es061691n
|View full text |Cite
|
Sign up to set email alerts
|

Mass Balance of Metolachlor in a Grassed Phytoremediation System

Abstract: Metolachlor is a point-source pollutant at agrochemical dealerships in the Midwest, as well as a non pointsource contaminant of surface waters caused by runoff. Prairie grasses have been used in filter strips to control runoff and are also useful for phytoremediation; however, little is known about the fate of metolachlor and its metabolites within a grassed system. Effects of uptake by prairie grasses on the formation and fate of degradation products are not known. In this study, [U-ring-14C]metolachlor was a… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1
1

Citation Types

2
9
0

Year Published

2008
2008
2019
2019

Publication Types

Select...
5
2
2

Relationship

1
8

Authors

Journals

citations
Cited by 21 publications
(11 citation statements)
references
References 22 publications
2
9
0
Order By: Relevance
“…Pesticide in the transport zone can be discharged to the catchment outlet ( tz ) or return to the source zone via evapotranspiration from the transport zone ( et ). et was assumed to redirect a fraction of the pesticide mass back into source zone storage ( ex ; Benettin et al, 2013;Bertuzzo et al, 2013;Queloz et al, 2015) to account for incomplete uptake of pesticide in ET water by plants and pesticide release to the soil after plant uptake (Al-Khatib et al, 2002;Henderson et al, 2007). Dissolved pesticide concentrations at the catchment outlet were calculated from concentrations in overland flow ( O F ) and discharge from the transport zone ( tz ).…”
Section: Concentrationmentioning
confidence: 99%
“…Pesticide in the transport zone can be discharged to the catchment outlet ( tz ) or return to the source zone via evapotranspiration from the transport zone ( et ). et was assumed to redirect a fraction of the pesticide mass back into source zone storage ( ex ; Benettin et al, 2013;Bertuzzo et al, 2013;Queloz et al, 2015) to account for incomplete uptake of pesticide in ET water by plants and pesticide release to the soil after plant uptake (Al-Khatib et al, 2002;Henderson et al, 2007). Dissolved pesticide concentrations at the catchment outlet were calculated from concentrations in overland flow ( O F ) and discharge from the transport zone ( tz ).…”
Section: Concentrationmentioning
confidence: 99%
“…Plants have long been recognized to have the ability to sequester a variety of contaminants (e.g., organic or inorganic chemicals) in water, sediment, and soil (Bouldin et al 2006;Burken and Schnoor 1997;Henderson et al 2007;Mertens et al 2006;Montes-Bayon et al 2002;Siciliano et al 1998;Wild et al 2005). In recent years, the efficacy of vegetated ditches to reduce pesticide residues in agricultural runoff has been extensively studied.…”
Section: Mitigating Runoff Of Residues Through Plant Interactionmentioning
confidence: 99%
“…3 Percentage dissipation of lindane in vegetated treatments (A) and non-vegetated treatments (A1) (±SD,n=3) and Coats 1998; Miya and Friestone Mikes et al, 2009;Banks et al 2003;Singh et al 2004;Gao et al 2006;Cofield et al 2007;Henderson et al 2007;Yi and Crowley 2007;Olson et al 2007;Cofield et al 2008;Kidd et al 2008;Rezek et al 2008). Liste and Alexander (2000) have reported an enhanced degradation of pyrene by nine plant species and noted that pyrene is reduced by 74% in planted soil compared to less than 40% in unplanted soil.…”
Section: Bioconcentration Of Lindane In W Somniferamentioning
confidence: 99%