Kevin W. Bamber scite author profile

Industrial hemp (Cannabis sativa L.) has a wide array of end uses which, when coupled with regulatory reductions in the United States, has spurred renewed interest in its production. Best management practices, including weed control, need to be evaluated. Since little is known about herbicide tolerance of hemp, studies were conducted to identify suitable options for grain or dual‐purpose (fiber and grain) production. Greenhouse experiments with pre‐emergence and postemergence herbicides were conducted to identify herbicide choices for subsequent field trials. In field studies, S‐metolachlor was the safest pre‐emergence herbicide, resulting in 0 and ≤ 15% injury in 2017 and 2018, respectively, and a hemp stand count that was 97% of the nontreated check (pooled across years). All other pre‐emergence herbicides tested in the field resulted in ≥ 25% visible injury in at least one of the years and ≥ 24% stand reduction relative to the nontreated check (pooled across years). However, no grain yield differences were observed due to pre‐emergence herbicides relative to the nontreated check. Postemergence herbicides sethoxydim, quizalofop, bromoxynil, and clopyralid caused < 20% injury across rating timings and years and had similar grain yield as the nontreated check (588 kg ha−1). Our results indicate that S‐metolachlor applied pre‐emergence or sethoxydim, quizalofop, bromoxynil, and clopyralid applied postemergence are suitable for hemp production, but some of these treatments caused transient visible injury. Future research should be conducted to corroborate results across cultivars, soil types (for pre‐emergence herbicides), and environments.

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Herbicide carryover to various fall-planted cover crop species

Rector

Pittman

Beam

et al. 2019

Weed Technol

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Residual herbicides applied to summer cash crops have the potential to injure subsequent winter annual cover crops, yet little information is available to guide growers’ choices. Field studies were conducted in 2016 and 2017 in Blacksburg and Suffolk, Virginia, to determine carryover of 30 herbicides commonly used in corn, soybean, or cotton on wheat, barley, cereal rye, oats, annual ryegrass, forage radish, Austrian winter pea, crimson clover, hairy vetch, and rapeseed cover crops. Herbicides were applied to bare ground either 14 wk before cover crop planting for a PRE timing or 10 wk for a POST timing. Visible injury was recorded 3 and 6 wk after planting (WAP), and cover crop biomass was collected 6 WAP. There were no differences observed in cover crop biomass among herbicide treatments, despite visible injury that suggested some residual herbicides have the potential to effect cover crop establishment. Visible injury on grass cover crop species did not exceed 20% from any herbicide. Fomesafen resulted in the greatest injury recorded on forage radish, with greater than 50% injury in 1 site-year. Trifloxysulfuron and atrazine resulted in greater than 20% visible injury on forage radish. Trifloxysulfuron resulted in the greatest injury (30%) observed on crimson clover in 1 site-year. Prosulfuron and isoxaflutole significantly injured rapeseed (17% to 21%). Results indicate that commonly used residual herbicides applied in the previous cash crop growing season result in little injury on grass cover crop species, and only a few residual herbicides could potentially affect the establishment of a forage radish, crimson clover, or rapeseed cover crop.

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Herbicide selection to terminate grass, legume, and brassica cover crop species

et al. 2019

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Cover crops provide a number of agronomic benefits, including weed suppression, which is important as cases of herbicide resistance continue to rise. To effectively suppress weeds, high cover crop biomass is needed, which necessitates later termination timing. Cover crop termination is important to mitigate potential planting issues and prevent surviving cover crop competition with cash crops. Field studies were conducted in Virginia to determine the most effective herbicide options alone or combined with glyphosate or paraquat to terminate a range of cover crop species. Results revealed that grass cover crop species were controlled (94% to 98%) by glyphosate alone 4 wk after application (WAA). Overall, legume species varied in response to the single active-ingredient treatments, and control increased with the addition of glyphosate or paraquat. Mixes with glyphosate provided better control of crimson clover and hairy vetch by 7% to 8% compared with mixes containing paraquat 4 WAA. Mix partner did not influence control of Austrian winter pea. No treatment adequately controlled rapeseed in this study, with a maximum of 58% control observed with single active-ingredient treatments and 62% control with mixes. Height reduction for all cover crop species supports visible rating data. Rapeseed should be terminated when smaller, which could negate weed suppressive benefits from this cover crop species. Growers should consider herbicide selection and termination timing in their cover crop plan to ensure effective termination.

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Rapid Estimation of Potentially Mineralizable N in Early Spring Following Fall Biosolids Applications to Winter Wheat

Bamber

Evanylo

Thomason

2018

Communications in Soil Science and Plant Analysis

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Importance of Soil Properties on Recommended Biosolids Management for Winter Wheat

Bamber

Evanylo

Thomason

2016

Soil Science Soc of Amer J

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Core Ideas Coarse soil texture should not restrict fall biosolids application to winter wheat. Grain yield from biosolids is greater than or equal to that from urea. Nitrogen recovery from biosolids is greater than or equal to that from urea. Environmental concerns and regulatory guidelines about winter N leaching limit fall biosolids applications to winter wheat (Triticum aestivum L.) in Virginia to a plant‐available N (PAN) rate of ≤50 kg PAN ha−1. Ten field studies were established in 2012 to 2014 in Virginia to determine the agronomic and environmental feasibility of fall biosolids applications to soft red winter wheat at the agronomic N rate (100 kg PAN ha−1). Anaerobically digested and lime‐stabilized biosolids were fall applied at rates of 100 and 50 kg PAN ha−1. The 50 kg PAN ha−1 biosolids treatments received 50 kg N ha−1 as urea in spring. Urea‐N was split applied at 0, 50, 100, and 150 kg N ha−1, with 1/3 applied in fall and 2/3 in spring. Biosolids increased N use efficiency (NUE) by 0 to 27%, grain yield by 0 to 1.1 Mg ha−1, and N recovery by 0 to 38% compared with agronomic N rate urea in coarse‐textured soils, especially when lime‐stabilized biosolids were used. Biosolids and agronomic rate urea typically resulted in equal NUE, grain yield, and N recovery in fine‐textured soils, regardless of biosolids type or application strategy. Therefore, biosolids can be fall applied at the full agronomic N rate to winter wheat in coarse‐ and fine‐textured soils in Virginia.

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Kevin W. Bamber

Evaluating herbicide tolerance of industrial hemp (Cannabis sativa L.)

Herbicide carryover to various fall-planted cover crop species

Herbicide selection to terminate grass, legume, and brassica cover crop species

Rapid Estimation of Potentially Mineralizable N in Early Spring Following Fall Biosolids Applications to Winter Wheat

Importance of Soil Properties on Recommended Biosolids Management for Winter Wheat

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