The decline of propyzamide in soil under field conditions in the Netherlands

Zandvoort, R.; Dord, D. C.; Leistra, M.; Verlaat, J. G.

doi:10.1111/j.1365-3180.1979.tb01522.x

Cited by 7 publications

(3 citation statements)

References 4 publications

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“…Residues of fluridone were detected with oat plants (Avena sativa L. cv. Condor) grown in the samples as described by Zandvoort et al (1979). Simazine and hexazinone in the Eist soil was detected in the same way.…”

Section: Methodsmentioning

confidence: 79%

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Zandvoort¹

1989

NJAS

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Fluridone and simazine were sprayed in field experiments on coarse and humic sandy soils in spring or in late autumn, and hexazinone on coarse sand in spring. After a spring application, over an eight-month period, fluridone and hexazinone were detected by bioassay in the profile of coarse sand from 0 to 60 cm, whereas simazine did not leach below 15 cm. Both fluridone and simazine were found to a depth of 60 cm in coarse sand after an application in late autumn. Thus, in winter conditions the transformation rate is not fast enough to prevent leaching of fluridone and simazine to deeper soil layers after autumn application. (Abstract retrieved from CAB Abstracts by CABI’s permission)

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Section: Methodsmentioning

confidence: 79%

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Zandvoort¹

1989

NJAS

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“…Les cinetiques de degradation sont en accord avec les etudes faites precedemment (Walker, 1976;Walker & Thompson, 1977;Zandvoort et al, 1979;Aspe, 1980;Cantier, 1984). Les resultats obtenus peuvent etre representes a l'aide du formalisme d'une reaction du premier ordre entre 0 et 75% de transformation (domaine de la cinetique etudie).…”

Section: Resultats Et Discussionunclassified

“…En efTet le propyzamide est peu soluble dans l'eau (13-15 mg I"') et les differentes etudes realisees (Yih, Swithenbank & McRae, 1970;Walker & Thompson, 1977;Zandvoort et al, 1979) sont faites dans des conditions telles que le propyzamide ne peut etre entierement solubilise dans le sol. Si on admet que pour etre transforme le produit doit etre solubilise, la mesure de sa disparition doit etre influencee par la vitesse de solubilisation du produit.…”

Section: Degradation Et Dosage Du Propyzamideunclassified

Relations entre la vitesse de dégradation du propyzamide et les propriétés physicochimiques des sols

1988

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L'etude de la degradation du propyzamide est realisee dans 29 sols, dans des conditions de temperature et d'humidite constantes. Une relation est trouvee entre la vitesse de degradation et la resistivite des sols. Un apport d'engrais dans les sols entraine une diminution de la resistivite qui se traduit par un ralentissement de la vitesse de degradation. Relationship between rate of propyzamide degradation and physico-chemical propertiesPropyzamide was incubated in 29 different soils at a soil moisture content of 25%. The degradation of the herbicide followed first-order kinetics. The rate of propyzamide degradation was correlated with soil resistivity. Addition of mineral fertilizers inhibited propyzamide degradation. Abhangigkeit der Abbaugeschwindigkeit von Propyzamid von physikalisch-chemischen Eigenschaften des BodensDer Abbau von Propyzamid wurde in 29 Boden bei gleicher Temperatur und Bodenfeuchtigkeit untersucht. Die Abbaugeschwindigkeit hing von * To whom correspondence should be addressed. der Leitfahigkeit des Bodens ab. Durch Zugabe von Mineraldunger sank der Widerstand, woraufhin sich der Abbau verlangsamte.

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Metabolism of¹⁴C-Pronamide in the Soil and in Lettuce (Lactuca sativa) under Field Conditions

Rouchaud

Moons

Benoit³

et al. 1987

Weed sci.

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Metabolism of14C-pronamide [N-(1,1-dimethylpropynyl)-3,5-dichlorobenzamide, carbonyl-14C] was studied in silt loam soil (located in Louvain-la-Neuve, Belgium) and in lettuce (Lactuca sativaL., ‘Appia′, Clause3) from a crop planted in soil that had been treated before planting. During the experiment, most of the14C remained in the 0- to 6-cm soil layer. The percentage of14C-pronamide degraded to14CO2during the experiment was less than 10%. The soil-extractable14C was made up of pronamide and its first ketone metabolite [N-(1,1-dimethylacetonyl)-3,5-dichlorobenzamide]. About 30% of the pronamide present in the soil was bound to the soil. The bound residue, i.e., the14C that could not be extracted by acetone, at lettuce harvest was about 80% of the14C contained in the soil at that time; 3,5-dichlorobenzoic acid was the main component of the bound residue. The harvested lettuce also contained pronamide, the ketone, and 3,5-dichlorobenzoic acid. Similar kinetics of metabolism were observed with lettuces grown on loamy sand soil (located in St. Kathelijne-Waver, Belgium). However, pronamide was not bound to this type of soil.

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The decline of propyzamide in soil under field conditions in the Netherlands

Cited by 7 publications

References 4 publications

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Relations entre la vitesse de dégradation du propyzamide et les propriétés physicochimiques des sols

Metabolism of¹⁴C-Pronamide in the Soil and in Lettuce (Lactuca sativa) under Field Conditions

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The decline of propyzamide in soil under field conditions in the Netherlands

Cited by 7 publications

References 4 publications

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Leaching of fluridone, hexazinone and simazine in sandy soils in the Netherlands.

Relations entre la vitesse de dégradation du propyzamide et les propriétés physicochimiques des sols

Metabolism of14C-Pronamide in the Soil and in Lettuce (Lactuca sativa) under Field Conditions

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Metabolism of¹⁴C-Pronamide in the Soil and in Lettuce (Lactuca sativa) under Field Conditions