Timing and Rate of Chaparral Treatment Affects Tall Fescue Seedhead Development and Pasture Plant Densities

Goff, Ben M.; Aiken, Glen E.; Witt, William W.; Williamson, Jessica A.; Flynn, E. Scott; Burch, Patrick L.

doi:10.2134/fg-2013-0001-rs

Cited by 3 publications

(4 citation statements)

References 9 publications

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“…As indicated by the reductions in tall fescue leaf yield and tiller density, total biomass yield reduction at spring harvest can be attributed not to just seedhead suppression, but also reductions in tall fescue vegetative growth per unit area. Goff et al (2014) observed reductions in tall fescue crowns and increased presence of orchardgrass and Kentucky bluegrass in response to aminopyralid plus metsulfuron applied in early spring.…”

Section: Resultsmentioning

confidence: 80%

“…In the same study, no differences were found within those treatments, also indicating that seedhead suppression can be achieved with lower rates of metsulfuron. Results from Kentucky studies have also shown aminopyralid plus metsulfuron reduces tall fescue seedheads (Aiken et al 2012;Goff et al 2014). Treatment with ACP plus 2,4-D resulted in higher seedhead density than the nontreated control.…”

Section: Resultsmentioning

confidence: 96%

“…Sather et al (2013) reported metsulfuroncontaining herbicides applied to vegetative tall fescue reduced seedhead density 14 to 61%. Researchers in Kentucky have also reported seedhead suppression with aminopyralid plus metsulfuron (Aiken et al 2012; Goff et al 2014). Although metsulfuron reduces tall fescue seedhead density, it also reduces forage yield (Moyer and Kelley 1995;Sather et al 2013).…”

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confidence: 99%

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Effects of Aminocyclopyrachlor Plus Metsulfuron on Tall Fescue Yield, Forage Quality, and Ergot Alkaloid Concentration

et al. 2016

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Most tall fescue in the United States is infected with a fungal endophyte which imparts certain advantages to the plant, such as drought tolerance, insect feeding deterrence, and enhanced mineral uptake. However, the endophyte also produces ergot alkaloids that are harmful to livestock and contribute to fescue toxicosis. Because the alkaloids are concentrated in seed and stems, a potential way to reduce the likelihood of fescue toxicosis is by suppressing seedhead formation with herbicides. Research was conducted from 2012 to 2014 using metsulfuron applied alone and in combination with other herbicides in spring to determine the growth response of tall fescue, effects on forage quality, and ergot alkaloid concentration. Clipping or metsulfuron applied alone or in combination with aminocyclopyrachlor or aminopyralid reduced seedhead density by 36 to 55% compared to the nontreated control. Treatments containing metsulfuron reduced spring harvest yield 35 to 61%, but no differences were observed in the summer or year-after harvests. The same treatments increased crude protein levels by 1.03 to 2.14% and reduced acid detergent fiber levels by 1.60 to 2.76% compared to the nontreated control at spring harvest. Treatments containing metsulfuron reduced ergot alkaloid concentration 26 to 34% at the spring harvest, but no differences were observed in summer-harvested forage. Results from this study indicate metsulfuron applied alone or in combination with aminocyclopyrachlor or aminopyralid can potentially reduce the severity of fescue toxicosis and improve forage quality.

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Section: Resultsmentioning

confidence: 80%

Section: Resultsmentioning

confidence: 96%

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confidence: 99%

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Effects of Aminocyclopyrachlor Plus Metsulfuron on Tall Fescue Yield, Forage Quality, and Ergot Alkaloid Concentration

et al. 2016

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“…There was a tendency for orchardgrass to be greater (P=0.07) in the NEGCON, than the pastures receiving varying levels of Metsulfuron (MET0, MET67, MET134). Goff et al (2014) reported spring metsulfuron application to tall fescue pastures tended to increase the density of non-fescue cool season forage species (Kentucky bluegrass and orchardgrass) after one application. However, amongst other forage species recognized, botanical composition did not change (P>0.20) in response to treatment.…”

Section: Seedhead and Botanical Compositionmentioning

confidence: 94%

Interaction of metsulfuron and nitrogen fertilizer in Tall Fescue forage systems

Adams¹

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Tall Fescue (Schedonorus arundinaceus) is an introduced cool-season bunch grass that is a vital component of forage systems that support beef cattle production in Missouri and much of the eastern United States. This cool-season grass is known for its high forage yield and resistance to environmental stressors such as drought, pest, and grazing. The resilience of tall fescue to stress is attributed to a symbiotic relationship with the fungal endophyte Epichloe coenophiala, which produces ergot-like alkaloids that can negatively impact livestock performance. Replacement of alkaloid producing tall fescue cultivars, such as K31, has been suggested as a strategy to reduce ergot-like alkaloid consumption by livestock; however, this requires extensive resources and time. It has been reported to cost $250 to $400 per acre to replace tall fescue, with an additional 18 months of no grazing while new species emerge. Most current research efforts have focused on managing tall fescue to reduce toxicity risk by decreasing amounts of alkaloids consumed by livestock. Removing parts of the plant, such as the stems and seedheads, that contain greater concentrations of alkaloids by physical or chemical seedhead suppression has proven to be a successful strategy. A metsulfuron herbicide and nitrogen fertilizer were applied on pastures grazed by stocker cattle for three years to evaluate impacts on toxicity and productivity of the forage system. Metsulfuron herbicide reduced seedhead density by 80 percent and decreased ergovaline production; however, this management strategy also caused a decrease in forage yield. Nitrogen fertilizer recovered forage yield losses due to metsulfuron herbicide. Seedhead reduction in response to metsulfuron has potential for reducing alkaloid exposure when grazing endophyte-infected tall fescue.

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Forage Establishment and Renovation

Hall

Newman

Williamson

2020

Forages

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Timing and Rate of Chaparral Treatment Affects Tall Fescue Seedhead Development and Pasture Plant Densities

Cited by 3 publications

References 9 publications

Effects of Aminocyclopyrachlor Plus Metsulfuron on Tall Fescue Yield, Forage Quality, and Ergot Alkaloid Concentration

Effects of Aminocyclopyrachlor Plus Metsulfuron on Tall Fescue Yield, Forage Quality, and Ergot Alkaloid Concentration

Interaction of metsulfuron and nitrogen fertilizer in Tall Fescue forage systems

Forage Establishment and Renovation

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