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1 July 2005 Diuron Sorption by Pine-Bark Substrate and Foliar vs. Root Absorption by Yellow Woodsorrel (Oxalis stricta)
CAREY V. SIMPSON, GLENN WEHTJE, CHARLES H. GILLIAM, JEFF L. SIBLEY, JAMES E. ALTLAND
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Abstract

Postemergence-applied diuron effectively controls yellow woodsorrel in nursery crops grown in pine bark–based container substrate. Whether the phytotoxicity of diuron on yellow woodsorrel is exclusively the result of foliar activity or is partially the result of root-based activity has not been determined. Application in which diuron was allowed to contact both the foliage and the pine bark–based substrate provided 84% control as determined by shoot fresh-weight reduction relative to that of a nontreated control. Foliar-only and root-only applications provided 52 and 12% shoot fresh-weight reduction, respectively. Absorption and translocation of foliar-applied diuron by yellow woodsorrel was evaluated using radiotracer techniques. After 24 h, 86% of the applied diuron had been absorbed, and 76% of the amount applied remained in the treated leaflet, indicating minimal translocation. Diuron sorption by the pine bark–based substrate was evaluated using radiotracer techniques. After 3 h, less than 6% of applied diuron remained in the aqueous phase, indicating 94% sorption. Exposing yellow woodsorrel roots to diuron concentrations as low as 0.50 mg/L resulted in injury, and concentrations equal to or greater than 10 mg/L resulted in death. Calculations described herein indicate the concentration that probably would occur within the aqueous solution held within the substrate following a 1.12-kg ai/ha application is sufficient to be phytotoxic to yellow woodsorrel. Thus, root-based absorption is a contributing factor in the overall efficacy of postemergence-applied diuron in controlling yellow woodsorrel.

Nomenclature: Diuron; yellow woodsorrel, Oxalis stricta L. #3 OXAST.

Additional index words: Herbicide translocation, soil sorption.

Abbreviations: ANOVA, analysis of variance; PPFD, photosynthetic photon flux density; WAT, weeks after treatment.

CAREY V. SIMPSON, GLENN WEHTJE, CHARLES H. GILLIAM, JEFF L. SIBLEY, and JAMES E. ALTLAND "Diuron Sorption by Pine-Bark Substrate and Foliar vs. Root Absorption by Yellow Woodsorrel (Oxalis stricta)," Weed Technology 19(3), 532-538, (1 July 2005). https://doi.org/10.1614/WT-03-179R2.1
Published: 1 July 2005
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