Your search keyword '"Al-Rajab, Abdul Jabbar"' showing total 3 results

1. Sorption and leaching of 14C-glyphosate in agricultural soils

Author

Al-Rajab, Abdul Jabbar, Amellal, Samira, and Schiavon, Michel

Published

2008

2. Environmental impact of a non selective herbicide, the glyphosate : approach modelled in controlled and natural conditions

Author

Al Rajab, Abdul Jabbar, UL, Thèses, Laboratoire Sols et Environnement (LSE), Institut National de la Recherche Agronomique (INRA)-Université de Lorraine (UL), Institut National Polytechnique de Lorraine, and Michel Schiavon

Subjects

Glyphosate-Détérioration, Glyphosate, Sol, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Water, Sols Pollution, Sols Absorption et adsorption, Persistence, Soil, Degradation, Eau Pollution par les pesticides, Lessivage, Eau, Leaching, [SDU.STU] Sciences of the Universe [physics]/Earth Sciences, Adsorption, Persistance

Abstract

The main processes and factors which influence glyphosate fate in soils and the risks of water resources contamination were studied. Its adsorption in the soils was very fast and intense (Kf between 16.6 to 34.5 depending on the soil) and the effect of pH on this process was confirmed: adsorption decreases when soil pH increased. In addition, glyphosate was slightly desorbed and its degradation in controlled or natural conditions was fast, but its kinetics was very variable according to the biological activity of the soils. Degradation led to the formation of the metabolite (AMPA), which tends to accumulate in the soil. The experimentation in columns of different soils confirmed the low mobility of the glyphosate and the AMPA. The residues exported by the leachates after more than 332 days represented less than 0.28% of the amount applied. The hydrodynamic properties of the soil and the pluviometry observed had a significant effect on the leaching of the residues., Les principaux processus et facteurs qui influent sur le devenir du glyphosate dans les sols et le risque de contamination de la ressource en eau ont été étudiés. Son adsorption sur les sols est très rapide (Kf compris suivant le sol entre 16,6 à 34,5) et l'effet du pH sur ce processus a été confirmé : l'adsorption diminue quand le pH des sols augmente. Par contre, le glyphosate se désorbe difficilement et sa dégradation en conditions contrôlées ou naturelles est rapide, mais sa dynamique est très variable suivant l'activité biologique des sols. La dégradation conduit à la formation d'un métabolite, l'AMPA qui tend à s'accumuler dans le sol. L'expérimentation en colonnes de sol confirme la faible mobilité du glyphosate et de l'AMPA. Les résidus exportés par les percolats sur une période de 332 jours représentent moins de 0,28 % de la dose appliquée. Les propriétés hydrodynamique du sol et la pluviométrie rencontrée ont un effet important dans le lessivage des résidus

Published

2007

3. Sorption and leaching of 14C-glyphosate in agricultural soils.

Author

Al-Rajab, Abdul Jabbar, Amellal, Samira, and Schiavon, Michel

Subjects

*GLYPHOSATE, *LEACHING, *ABSORPTION, *WEED control, *HERBICIDES

Abstract

Glyphosate (N-(phosphonomethyl)glycine) is one of the most widely used herbicides in the world to control weeds in agricultural and urban areas. Its increasing use requires special attention to its transfer from terrestrial to aquatic environments. However, knowledge on the leaching of glyphosate and its metabolite aminomethylphosphonic acid (AMPA) is scarce. Here we aimed to assess the dynamic interactions between glyphosate sorption and leaching; and to identify the main factors that influence the two processes in three undisturbed agricultural soils using microlysimeters under outdoor conditions. We studied the sorption, desorption and leaching of 14C-labelled glyphosate on three soils using batch experiments in the laboratory and lysimeters under natural conditions for 11 months. The laboratory results showed that glyphosate was strongly adsorbed, yielding empirical constants of Freundlich sorption isotherms (Kf) of 16.6 for the clay loam soil, 33.6 for the silt clay loam soil and 34.5 for the sandy loam soil, with nf close to 1 in all three cases. Glyphosate was also weakly desorbed, i.e. 5 to 24% (w) of initially sorbed glyphosate. Sorption and desorption were only pH-dependent. The outdoor results showed that nearly 70% of the initial glyphosate was present in the soil in a non-extractable form at the beginning of the experiment. Conversely, only less than 20% of the initial glyphosate is present in the soil in a non-extractable form after 11 months. These findings suggest that the non-extractable residues become available and take part in biodegradation and leaching. The amounts of 14C-glyphosate derivatives leached were less than 0.28% of the initially applied glyphosate. HPLC analyses showed that the AMPA metabolite generally represented up to 100% of the residues present in the leachates. The results of leaching were highly influenced by the hydrodynamic properties and the biodegradation capacities of the soils. Although glyphosate residues were found in low concentrations in the leachates for almost a year, the contamination of groundwater does not seem to be a concern, regardless of the soil type, if the herbicide is used in accordance with good agricultural practice. [ABSTRACT FROM AUTHOR]

Published

2008