Low carryover risk of corn and soybean herbicides across soil management practices and environments

Grint, Kolby R.; Proctor, Christopher A.; DeWerff, Ryan P.; Smith, Daniel H.; Arneson, Nicholas J.; Arriaga, Francisco J.; Stoltenberg, David E.; Werle, Rodrigo

doi:10.1017/wet.2021.97

Cited by 5 publications

(3 citation statements)

References 41 publications

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“…or decrease its permanence in each environment (Grint et al, 2022). Different levels of phytotoxicity in soybean caused by the use of pre-emergent herbicides at the time of sowing are found in the literature, ranging from 12.0% by the application of sulfentrazone + diuron (Galon et al, 2022), reduction of soybean canopy area by 1.5% by the application of sulfentrazone (Arsenijevic et al, 2021) and an eleven-day delay in canopy closure with application of flumioxazin + metribuzin + pyroxasulfone when compared to treatment without pre-emergence herbicide (Arsenijevic et al, 2022).…”

Section: Resultsmentioning

confidence: 99%

Shortening critical period of weed control at soybean by residual herbicide mixtures

Roncatto,

Barroso,

Albrecht

et al. 2023

Advances in Weed Science

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Section: Resultsmentioning

confidence: 99%

Shortening critical period of weed control at soybean by residual herbicide mixtures

Roncatto,

Barroso,

Albrecht

et al. 2023

Advances in Weed Science

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“…On the other hand, repeated applications of an herbicide at a non-standard dose and the antagonism between the different active ingredients in the mixture can favor the emergence of ‘‘super weeds'’ weeds that are very difficult to control [ 83 ]. In crop rotations, herbicides that persist for a long period in the soil can induce phytotoxicity to the next crops [ 84 ], the plant's poor ability to eliminate herbicide residues from its metabolism may favor their storage in various organs such as fruits, stems, leaves, tubers or seeds, with the risk of contamination of the food chain [ 85 ].…”

Section: Discussionmentioning

confidence: 99%

Evaluating the effects of manual hoeing and selective herbicides on maize (Zea mays L.) productivity and profitability

Bin Lukangila,

Tabu,

Mugisho

et al. 2024

Heliyon

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“…An effective strategy to minimize the overreliance on POST herbicide applications is to apply soil residual preemergence (PRE) herbicides for early season weed control (Knezevic et al 2019). The use of herbicides with effective soil residual activity applied PRE provides an extended period of early season weed control, protecting crop yields during their most vulnerable developmental stages from weed interference (Grint et al 2022b; Oliveira et al 2017a). PRE herbicides can reduce the weed density and delay the time to POST applications, thus lowering the selection pressure for further resistance to POST herbicides (Faleco et al 2022a; Oliveira et al 2017b).…”

Section: Introductionmentioning

confidence: 99%

Preemergence herbicide premixes reduce the risk of soil residual weed control failure in corn

et al. 2023

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Widespread occurrence of herbicide-resistant weeds and more variable weather conditions across the US has made weed control in many crops more challenging. Preemergence (PRE) herbicides with soil residual activity have resurged as the foundation for early-season weed control in many crops. Field experiments were conducted at Janesville and Lancaster, WI in 2021 and 2022 (4 site-years) to evaluate the weed control efficacy of solo (single site of action [SOA]) and premix (two or more SOAs) PRE herbicides in conventional tillage corn. Treatments consisted of 18 PRE herbicides plus a non-treated check. At Janesville-2021, S-metolachlor + bicyclopyrone + mesotrione, atrazine + S-metolachlor + bicyclopyrone + mesotrione, and clopyralid + acetochlor + mesotrione provided >72% giant ragweed control. At Janesville-2022, none of the PRE herbicides evaluated provided >70% giant ragweed control due to the high giant ragweed density and the lack of timely rainfall. At Lancaster-2021, atrazine, dicamba, and flumetsulam + clopyralid provided <45% waterhemp control, but the remaining treatments provided >90% control. At Lancaster-2022, the efficacy of some PRE herbicides was reduced due to the high waterhemp density; however, most herbicides provided >75% control. At Lancaster-2021 and 2022, only dicamba and S-metolachlor did not provide >75% common lambsquarters control. PRE herbicides containing SOA group 15 provided >75% control of giant foxtail. Across weed species, PRE herbicides with two (78%) and three (81%) SOAs provided higher weed control than PRE herbicides with a single SOA (68%), indicating that at least two SOAs PRE result in better early-season weed control. The efficacy of the PRE herbicide treatments evaluated herein varied according to the soil seed bank weed community composition and environmental conditions (i.e., rainfall following application), but the premixes were a more reliable option to improve early-season weed control in conventional tillage corn.

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Low carryover risk of corn and soybean herbicides across soil management practices and environments

Cited by 5 publications

References 41 publications

Shortening critical period of weed control at soybean by residual herbicide mixtures

Shortening critical period of weed control at soybean by residual herbicide mixtures

Evaluating the effects of manual hoeing and selective herbicides on maize (Zea mays L.) productivity and profitability

Preemergence herbicide premixes reduce the risk of soil residual weed control failure in corn

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