Torpedograss control via submersed applications of systemic and contact herbicides in mesocosms

Authors: TURNAGE, GRAY - Mississippi State University; WERSAL, RYAN - Minnesota State University; Madsen, John

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 7/24/2019
Publication Date: 12/11/2019
Citation: Turnage, G., Wersal, R., Madsen, J.D. 2019. Torpedograss control via submersed applications of systemic and contact herbicides in mesocosms. Meeting Abstract. 58:67-71.

Interpretive Summary:

Technical Abstract: Torpedograss (Panicum repens) is a perennial invasive aquatic plant species native to South America that is spreading across the southeastern US. Torpedogass can survive in terrestrial and aquatic environments rooted to hydrosoil or form large floating islands (tussocks) that can limit human and wildlife uses of waterbodies. Portions of tussocks can break off, float away, and start new torpedograss infestations in other locations thereby making the problem worse. Limited data exist concerning submersed chemical control (herbicides) methods that are effective at controlling torpedograss. This work was conducted to investigate short- and long-term submersed chemical control options of torpedograss grown in outdoor mesocosms near Starkville, MS. Nine herbicides labeled for use in aquatic environments and a non-treated reference were evaluated. Eight weeks after treatment (WAT), harvested plants were separated into root/rhizome and shoot/leaf tissues, placed in labeled paper bags, dried in a forced air oven for five days at 70C, then weighed. None of the herbicides significantly reduced root/rhizome tissues for torpedograss eight WAT, however penoxsulam, topramezone, flumioxazin, and carfentrazone-ethyl had reduced root/rhizome tissue by 52 WAT. Triclopyr, diquat, flumioxazin, and carfentrazone-ethyl had reduced shoot/leaf tissue at eight WAT. At 52 WAT, penoxsulam, topramezone, flumioxazin, and carfentrazone-ethyl had reduced shoot/leaf tissues. This work suggests that submersed applications of penoxsulam, topramezone, flumioxazin, or carfentrazone-ethyl can control populations of torpedograss short- and long-term.