Searching for consistent postemergence weed control in progressively inconsistent weather

Foliar applied postemergence herbicides are a critical component of corn and soybean weed management programs in North America. Rainfall and air temperature around the time of application may affect the efficacy of herbicides applied postemergence in corn or soybean production fields. However, previ...

Full description

Saved in:
Bibliographic Details
Published in:Weed science 2024-11, p.1-22
Main Authors: Landau, Christopher, Bradley, Kevin, Burns, Erin, Dobbels, Anthony, Essman, Alyssa, Flessner, Michael, Gage, Karla, Hager, Aaron, Jhala, Amit, Johnson, Paul O, Johnson, William, Lancaster, Sarah, Lingenfelter, Dwight, Loux, Mark, Miller, Eric, Owen, Micheal, Sarangi, Debalin, Sikkema, Peter, Sprague, Christy, VanGessel, Mark, Werle, Rodrigo, Young, Bryan, Williams, Martin
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Foliar applied postemergence herbicides are a critical component of corn and soybean weed management programs in North America. Rainfall and air temperature around the time of application may affect the efficacy of herbicides applied postemergence in corn or soybean production fields. However, previous research utilized a limited number of site-years and may not capture the range of rainfall and air temperatures that these herbicides are exposed to throughout North America. The objective of this research was to model the probability of achieving successful weed control (≥85%) with commonly applied postemergence herbicides across a broad range of environments. A large database of over 10,000 individual herbicide evaluation field trials conducted throughout North America was used in this study. The database was filtered to include only trials with a single postemergence application of fomesafen, glyphosate, mesotrione, or fomesafen + glyphosate. Waterhemp ( Amaranthus tuburculatus (Moq.) J. D. Sauer ), morningglory species ( Ipomoea spp .), and giant foxtail ( Setaria faberi Herrm. ) were the weeds of focus. Separate random forest models were created for each weed species by herbicide combination. The probability of successful weed control deteriorated when the average air temperature within the first ten d after application was 25 C for most of the herbicide by weed species models. Additionally, dryer conditions prior to postemergence herbicide application reduced the probability of successful control for several of the herbicide by weed species models. As air temperatures increase and rainfall becomes more variable, weed control with many of the commonly used postemergence herbicides is likely to become less reliable.
ISSN:0043-1745
1550-2759
DOI:10.1017/wsc.2024.80