. IntroductionTopramezone is a sele

. Introduction
Topramezone is a selective, post-emergence herbicide that has
been recently introduced for use in maize (Zea mays L.) (Porter
et al., 2005; Schönhammer et al., 2006; Soltani et al., 2007). It is
a pyrazolone herbicide that inhibits 4-hydroxyphenylpyruvate
dioxygenase (4-HPPD) and the biosynthesis of plastoquinone, with
subsequent carotenoid pigment formation, membrane structure
and chlorophyll disruption (Schönhammer et al., 2006). Water
solubility and persistency in soil allows root as well as foliar uptake
by plants (Schönhammer et al., 2006).
The compound is distributed within the plants systemically
through acropetal and basipetal movement (Schönhammer et al.,
2006; Grossmann and Ehrhardt, 2007). Topramezone applied in
maize with its supplementary soil activity controls early and late
germinating annual dicotyledoneous species, including Chenopodium
(lambsquarter), Atriplex (orache), Amaranthus (pigweed),
Solanum (nightshade) and Galinsoga (quickweed) species and the
warm season annual grasses including Echinochloa (barnyardgrass),
Setaria (foxtail), Digitaria (crabgrass) and Panicum (witchgrass)
species (Schönhammer et al., 2006; Zollinger and Ries, 2006; Gorsic
et al., 2008).
The selectivity of topramezone between maize and weed
species has been quantified as above 1000-fold (Grossmann and
Ehrhardt, 2007). The basis for selectivity in maize is a more rapid
metabolism and a lower sensitivity of the 4-HPPD target enzyme
(Schönhammer et al., 2006; Grossmann and Ehrhardt, 2007).
Limited research has been conducted on tolerance of postemergence
applications of topramezone. Soltani et al. (2007)
evaluated the response of eight sweet corn hybrids to topramezone
doses and found no differential sensitivity to topramezone
among the sweet corn hybrids and minimal injury at
300 g a.i. ha
1 of topramezone. Bollman et al. (2008) studied the
effect of increased topramezone doses on sweet corn hybrids and
also reported no differential tolerance among hybrids and slight
visual injury.
Early and late chemical control is required for early and late
emerging weeds, with the timing of herbicide application being
very important in maximizing efficacy on weeds and minimizing
injury potential to maize. Previous studies on maize tolerance to
post-emergence herbicide applications have shown that the
response of maize could be affected by application timing. In
particular, Robinson et al. (1993) reported that sweet maize tolerance
to nicosulfuron decreased when the herbicide was applied at
the 7e8- than the 5e6- leaf stage, while Bunting et al. (2004) found
that applications of foramsulfuron herbicide before V6 (six visible
leaf collars) maize growth stage were important in reducing corn
injury and protecting yield.
The proposed use of topramezone (SC formulation, 33.6%) for
maize is with the adjuvant Dash applied at the 1-8-leaf stage of
maize (Schönhammer et al., 2006). The addition of adjuvant such as
Dash to spray solution of topramezone is essential for efficient leaf
* Corresponding author. Tel.: þ30 2310 471577; fax: þ30 2310 473318.
E-mail address: gitsopoulos@yahoo.gr (T.K. Gitsopoulos).
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Crop Protection
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doi:10.1016/j.cropro.2010.06.020
Crop Protection 29 (2010) 1091e1093
penetration (Schönhammer et al., 2006; Grossmann and Ehrhardt,
2007).
However, there is little published information about the
response of field maize to application timings of topramezone. For
this reason, the objective of this study was to evaluate the tolerance
of maize to three post-emergence applications (2e4, 4e6 and 6e8
leaf stage) of topramezone with the adjuvant Dash.