A fluorometric method to determine rainfastness, volatilization and photostability of glyphosate from glass slides, after application of vision® with two adjuvants
Titel:
A fluorometric method to determine rainfastness, volatilization and photostability of glyphosate from glass slides, after application of vision® with two adjuvants
Auteur:
Leung, John W.
Verschenen in:
Journal of environmental science and health. Part B, Pesticides, food contaminants, and agricultural wastes
Paginering:
Jaargang 29 (1994) nr. 2 pagina's 341-363
Jaar:
1994
Inhoud:
A fluorometric method was developed to quantify glyphosate loss from glass surfaces after exposure to the natural forest environment. The method was based on the principle of converting glyphosate into glycine, followed by the fluorogenic labeling with o-phthalaldehyde. A fluorometer (with λEx = 360 nm / λEm =430 nm) was used to quantify the derivatized fluorogenic compound. Response was linear over the concentration range of 143, 286, 572, 858 and 1144 μg of glyphosate (acid equivalent, AE) per mL of the diluted Vision® formulation. Three end-use mixtures of Vision® were prepared, each at a concentration of 28.6 g AE/L, without and with two adjuvants, Ethomeen® T/25 at 4.5 mL/L and Silwet® L-77 at 1.5 mL/L. Several dilutions of the end-use mixtures were applied on glass slides without and with the coating of cuticular wax extracted from trembling aspen foliage. The slides were left for 5 days in a forest opening to determine rainfastness, volatilization and photostability of glyphosate. The residues were quantified using the method developed. Three calibration curves were required because Silwet decreased the fluorometric response of glyphosate, whereas Ethomeen increased it. The minimum detection limit was 143 μg of glyphosate/mL. Glyphosate was resistant to volatilization and sunlight-mediated degradation, regardless of the presence of wax coating or the adjuvants. About 64% of the applied glyphosate was washed off after a 9.6 mm rainfall when no adjuvant was present. Both adjuvants provided some amount of rain-protection to glyphosate, but Silwet reduced the washoff to a greater extent (46%) than Ethomeen (55%).
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