Your search keyword '"Linuron"' showing total 2 results

1. Leaching of Diuron, Linuron and their main metabolites in undisturbed field lysimeters.

Author

Imache, AhdeEl, Dahchour, Abdelmalek, Elamrani, Btissam, Dousset, Sylvie, Pozzonni, Fironzo, and Guzzella, Lucia

Subjects

*PESTICIDE pollution, *GROUNDWATER pollution, *HERBICIDE application, *DIURON, *SOIL leaching, *AQUATIC microbiology, *BACTERIAL pollution of water, *MICROBIAL metabolites

Abstract

The increasing use of pesticides in Morocco raises the potential risk of groundwater contamination, notably in the Gharb area, which has a shallow groundwater table. Thus, the leaching of two phenyl-ureas, diuron and linuron and their metabolites through undisturbed soil columns was studied under outdoor conditions. The soil chosen is a loamy clay soil, representative of the Gharb agricultural area. After four irrigation events were applied from 31/03/2005 to 15/05/2005, leachates contained higher amounts of linuron (from 0.08% to 6.96% of applied linuron) than diuron (from 0% to 0.27%). The greater mobility of linuron might be related to its higher water solubility (64 mg · L- 1 compared with 42 mg · L- 1 for diuron) and smaller adsorption coefficient (Koc of 400 L · kg- 1, compared with 480 L · kg- 1 for diuron). Concerning their metabolites, greater amounts of, N'-(3,4-dichlorophenyl)-N, (DCPMU) than N'-3,4-dichlorophenylurea (DCPU) were detected N-dimethylurea in the percolates, from 0% to 0.046% and from 0% to 0.008%, respectively. At the end of the monitoring period, more linuron residues than diuron residues were recovered in the soil profiles, 25.02% and 16.41%, respectively. The diuron residues were found mainly in the 0-20 cm soil layer, whereas linuron residues reached the 20-40 cm soil layer. Under such experimental conditions, linuron leaching, and thus its potential to contaminate groundwater, is greater than that of diuron. [ABSTRACT FROM AUTHOR]

Published

2009

2. Behavior of Two Phenyl Urea Herbicides in Clayey Soils and Effect of Alternating Dry-Wet Conditions on their Availability.

Author

HAOUARI, JAMILA, DAHCHOUR, ABDELMALEK, PEÑA-HERAS, ARANCHA, LOUCHARD, XZAVIER, LENNARTZ, BERNDT, ALAOUI, MOHAMEDELBELGHITI, and SATRALLAH, AHMAD

Subjects

*HERBICIDES, *PESTICIDES, *UREA, *CLAY soils, *SOIL moisture, *SOIL absorption & adsorption, *SOIL permeability

Abstract

Adsorption and mobility of linuron (3-(3,4-dichlorophenyl)-1-methoxy-1-methylurea) and diuron (3-(3,4-dichlorophenyl)-1, 1-dimethylurea) were studied in clayey soils from the Gharb area (Morocco). Soils A and B were planted with sun flower ( Helianthus annuus ) while soil C was planted with sugar cane ( Saccharum offcinarum ). Adsorption was studied for linuron in soils A and B, while mobility was studied only in soil B. Adsorption data were found to fit the Freundlich equation with correlation coefficients r 2 > 0.9. Freundlich coefficients (K f , n f ) were in agreement with L and S isotherm types for soils A and B, respectively. Values of K oc (195 and 102) indicate moderate adsorption. Desorption isotherms for linuron showed hysteresis for both soils. The pesticide would be more bound to soil A (H = 8.44) than to soil B (H = 4.01). The effect of alternating wet and dry conditions was tested for soils A and B. Results showed that retention would increase in soil subject to an additional wet and dry cycle. In the case of diuron isotherm was of type L in soil C. Desorption was noticeable at high concentrations and tended to decrease when concentrations diminished. Mobility of linuron was tested in polyvinyle chloride (PVC) columns, which received different treatments before their percolation. The pesticide was more mobile in a previously saturated column. In columns subject to a drying step after saturation with water, linuron mobility was greatly reduced. [ABSTRACT FROM AUTHOR]

Published

2006