Abstract
AbstractA field study was conducted in 2017 and 2018 to determine foliar efficacy of halauxifen-methyl, 2,4-D, or dicamba applied alone and in combination with glyphosate at preplant burndown timing. Experiments were conducted near Painter, VA; Rocky Mount, NC; Jackson, NC; and Gates, NC. Control of horseweed, henbit, purple deadnettle, cutleaf evening primrose, curly dock, purple cudweed, and common chickweed were evaluated. Halauxifen-methyl applied at 5 g ae ha−1 controlled small and large horseweed 89% and 79%, respectively, and was similar to control by dicamba applied at 280 g ae ha−1. Both rates of 2,4-D—533 g ae ha−1(low rate [LR]) or 1,066 g ae ha−1 (high rate [HR])—were less effective than halauxifen-methyl and dicamba for controlling horseweed. Halauxifen-methyl was the only auxin herbicide to control henbit (90%) and purple deadnettle (99%). Cutleaf evening primrose was controlled 74% to 85%, 51%, and 4% by 2,4-D, dicamba, and halauxifen-methyl, respectively. Dicamba and 2,4-D controlled curly dock 59% to 70% and were more effective than halauxifen-methyl (5%). Auxin herbicides applied alone controlled purple cudweed and common chickweed 21% or less. With the exception of cutleaf evening primrose (35%) and curly dock (37%), glyphosate alone provided 95% or greater control of all weeds evaluated. These experiments demonstrate halauxifen-methyl effectively (≥79%) controls horseweed, henbit, and purple deadnettle, whereas common chickweed, curly dock, cutleaf evening primrose, and purple cudweed control by the herbicide is inadequate (≤7%).
Highlights
Horseweed is a broadleaf weed that can act as winter or summer annual (Weaver 2001)
Because cutleaf evening primrose control by glyphosate and paraquat is inadequate, 2,4-D is normally recommended with the aforementioned herbicides to improve control of cutleaf evening primrose and other weeds (Culpepper et al 2005)
Methylated seed oil at 1% vol/vol was included with halauxifen-methyl and glyphosate plus halauxifen-methyl, and nonionic surfactant at 0.25% vol/vol was included with 2,4-D and dicamba; no adjuvants were included with combinations of glyphosate and 2,4-D or dicamba (Table 2)
Summary
Horseweed is a broadleaf weed that can act as winter or summer annual (Weaver 2001). Horseweed can produce up to 200,000 seeds plant−1 (Bhowmik and Bekech 1993) and is problematic in reduced- or no-tillage systems (Uva et al 1997). Glyphosate-resistant (GR) horseweed was first confirmed in Delaware in 2000 and has since spread to many other states (Eubank et al 2008; Heap 2018; Koger et al 2004; Main et al 2004; Steckel and Gwathmey 2009; VanGessel 2001). Along with glyphosate, horseweed biotypes have evolved resistance to paraquat (Smisek et al 1998; VanGessel et al 2006) and acetolactate synthase (ALS)-inhibiting herbicides (Heap 2018; Zheng et al 2011). Biotypes of the weed have developed multiple resistance to glyphosate and paraquat (Eubank et al 2012) as well as glyphosate and ALS inhibitors (Heap 2018; Kruger et al 2009; Trainer et al 2005)
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