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Root exudation of diclofop‐methyl and triasulfuron from foliar‐treated durum wheat and ryegrass
Author(s) -
DINELLI G,
BONETTI A,
MAROTTI I,
MINELLI M,
BUSI S,
CATIZONE P
Publication year - 2007
Publication title -
weed research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.693
H-Index - 74
eISSN - 1365-3180
pISSN - 0043-1737
DOI - 10.1111/j.1365-3180.2007.00549.x
Subject(s) - poaceae , chromosomal translocation , agronomy , chemistry , phytopharmacology , biology , biochemistry , gene
Summary In this study, we evaluated the release of diclofop‐methyl and triasulfuron from the roots of foliar‐treated ryegrass and wheat. The study with 14 C‐diclofop‐methyl indicated a basipetal translocation of foliar‐applied herbicide in wheat and ryegrass. No root exudation from 14 C‐diclofop‐methyl‐treated wheat plants was observed, while 20 days after treatment (DAT) 0.2–0.9% of radioactivity absorbed by ryegrass was found exuded in the growing medium. Root exudation was stimulated three to six times by the presence of untreated wheat or ryegrass sharing the growing medium with diclofop‐methyl‐treated ryegrass. No subsequent uptake of exuded radiolabel by untreated plants (ryegrass or wheat) in the same pot with 14 C‐diclofop‐methyl‐treated ryegrass was observed. The study with 14 C‐triasulfuron indicated a basipetal translocation of foliar‐applied herbicide in wheat and ryegrass and also into the growing medium. By 20 DAT, 0.5–4.2% of radioactivity absorbed by wheat or ryegrass was found exuded in the growing medium. The presence of untreated plants (wheat or ryegrass) in the same pot as triasulfuron‐treated ryegrass or wheat induced exudation seven to 32 times more. The study also revealed a subsequent uptake of exuded compounds by untreated wheat or ryegrass sharing the medium of 14 C‐triasulfuron‐treated plants. This study has demonstrated for the first time that the root exudation of exogenous compounds can be related to plant arrangement in pots. The implication is that herbicide root exudation and transfer, a form of allelopathy, could be significant in the field. A precise estimation of environmental fate, unexpected ecological side effects and residual activity of herbicides may require quantification of such exudation.

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