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Soil texture effects on tetflupyrolimet efficacy in turfgrass

Published online by Cambridge University Press:  01 September 2025

Benjamin D. Pritchard
Affiliation:
Doctoral Candidate, Department of Plant Sciences, University of Tennessee, Knoxville, TN, USA
Travis W. Gannon
Affiliation:
Professor, Department of Crop Science, NC State University, Raleigh, NC, USA
David M. Butler
Affiliation:
Professor, Department of Plant Sciences, University of Tennessee, Knoxville, TN, USA
Rebecca G. Bowling
Affiliation:
Assistant Professor, Department of Plant Sciences, University of Tennessee, Knoxville, TN, USA
Atul Puri
Affiliation:
Global Technical Product Manager–Herbicides, FMC Corporation, Philadelphia, PA, USA
James T. Brosnan*
Affiliation:
Professor, Department of Plant Sciences, University of Tennessee, Knoxville, TN, USA
*
Corresponding author: James T. Brosnan; Email: jbrosnan@utk.edu
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Abstract

Tetflupyrolimet is a novel herbicide that inhibits dihydroorotate dehydrogenase (DHODH), interfering with de novo pyrimidine biosynthesis in susceptible plants. While tetflupyrolimet efficacy for preemergence grassy weed control in rice (Oryza sativa L.) and managed turfgrass systems has been explored, there is minimal information regarding effects that edaphic factors may have on activity, particularly those pertaining to soil hydraulics. Dose–response experiments revealed 6- to 8-fold differences in tetflupyrolimet activity on annual bluegrass (Poa annua L.) due to soil texture, with higher activity reported following applications to sand compared with clay loam. Higher tetflupyrolimet activity in sand could be related to matric potential, as activity following applications to plants growing in sand exceeded that observed on clay loam across a wide range of volumetric water contents (15% to 60%). Once volumetric water content increased to ≥ 80%, no differences in tetflupyrolimet activity were detected between soils, suggesting that post-application irrigation could mitigate potential reductions in efficacy on finer-textured soils when moisture is limited. These findings underscore that soil texture and, consequently, moisture retention affect tetflupyrolimet activity to the extent that application rates could vary based on soil texture in turfgrass systems. Further research exploring a broader range of soil types and field conditions is warranted to refine tetflupyrolimet rate recommendations based on soil type.

Information

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (https://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use and/or adaptation of the article.
Copyright
© The Author(s), 2025. Published by Cambridge University Press on behalf of Weed Science Society of America
Figure 0

Table 1. Physical and chemical properties of soils used in glasshouse and laboratory experiments exploring effects of various edaphic factors on tetflupyrolimet (Dodhylex™ Active) efficacy for grassy weed control.a

Figure 1

Figure 1. Soil moisture retention curves for the two soils used in glasshouse and laboratory experiments exploring effects of various edaphic factor on tetflupyrolimet (Dodhylex™ Active) efficacy for grassy weed control. Soil moisture retention curves generated by Turf & Soil Diagnostics (Trumansburg, NY, USA) using ASTM D6836. Data were fit to a one-phase exponential decay model in GraphPad Prism (v. 10.1.1. GraphPad, Boston, MA, USA) and compared using a global sums-of-squares F-test at α = 0.05.

Figure 2

Table 2. Conditions inside glasshouses during dose–response experiments evaluating efficacy of tetflupyrolimet (Dodhylex™ Active) for preemergence control of herbicide-susceptible Poa annua in two soil types.a

Figure 3

Figure 2. Visual control of Poa annua (A) and aboveground biomass (B) response to increasing doses of tetflupyrolimet (Dodhylex™ Active) applied preemergence to herbicide-susceptible Poa annua planted in a sand that conformed to United States Golf Association specifications, as well as a clay loam soil native to Knoxville, TN, USA. Edaphic factors for each soil type are presented in Table 1. Data pooled from two experimental runs conducted in a glasshouse in 2023. Bars represent standard error of each mean.

Figure 4

Table 3. Rate of tetflupyrolimet (Dodhylex™ Active) to achieve 90% Poa annua control or 90% reductions in P. annua biomass (EC90) in glasshouse experiments conducted in Knoxville, TN, USA (35.94°N, 83.93°W) during spring 2023.

Figure 5

Figure 3. Effect of tetflupyrolimet (50 g ha−1) on Lolium perenne germination in clay loam soil or sand varying in volumetric water content during repeated growth chamber experiments conducted in Knoxville, TN, USA, during 2024. Bars represent standard error of each mean.

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