Influence of environmental parameters on penoxsulam control of alligatorweed (alternanthera philoxeroides) in rice (oryza sativa)

Willingham, Samuel Duane

15 May 2009

Alligatorweed is a perennial plant which reproduces vegetatively and has spread from waterways into canals and ultimately into rice fields of Louisiana and Texas. Penoxsulam is a new acetolactate synthase (ALS) inhibiting broad-spectrum herbicide that was registered for rice in 2005. Previous research on alligatorweed control has focused mainly in aquatic areas and in the rice producing regions of Louisiana with little success. Research is limited using penoxsulam for alligatorweed control in rice production and results vary between year and location. Variability could be due to growth habit and resource allocation of this perennial species. Therefore, field and laboratory experiments were conducted from 2004 to 2007 to: 1) evaluate the effects of select rice herbicides on alligatorweed control, 2) determine the absorption and translocation efficiency and the effect of propanil on penoxsulam in alligatorweed 3) access the environmental effects of temperature on penoxsulam efficacy and determine application timing to avoid antagonism with propanil and, 4) evaluate the effects of flood timing and rice cultivars on rice root stunting and plant foliar injury from penoxsulam applications. Alligatorweed control was obtained from penoxsulam or bispyribac-sodium applied alone; however, mixtures with propanil were antagonistic. Day temperatures at 21 C increased efficacy of penoxsulam compared to 27 and 30 C day temperatures. Delaying propanil applications 3 days following penoxsulam applications were required at 21 and 27 C and 10 days at 30 C in order to avoid antagonism. Alligatorweed absorbed up to 33% of penoxsulam when applied alone, but most was retained in treated leaves (29%). Propanil reduced penoxsulam absorption into alligatorweed with only 22% of total penoxsulam recovered being absorbed by alligatorweed. More than 50% remained on the leaf surface of the treated leaf. Previous research has indicated root stunting of rice plants from ALS inhibiting herbicides. When various rice varieties were permanently flooded one week after herbicide application of penoxsulam, root stunting was greater compared to delaying flood establishment 7 or 14 days after treatment. Significant root stunting, however, did not affect rice yield.

Alligatorweed

penoxsulam

Dispersal and Management of Invasive Aquatic Plants in Mississippi Waterways

Fernandez, Amanda Louise

14 December 2013

To understand the flow of water as a factor that influences aquatic vegetation communities and aquatic plant dispersal, custom-made Global Positioning System (GPS) drones were used to monitor the movement of water in Aliceville Lake, Columbus Lake, and Ross Barnett Reservoir, MS. In each reservoir, the drones drifted in the wind-generated surface current. Analysis of wind speeds suggests that a certain wind speed may be necessary to overcome gradient flow. Wind direction and wind speed should be incorporated in future spatial simulation models for aquatic plant dispersal and distribution. An herbicide evaluation on Cuban bulrush (Oxycaryum cubenese) was conducted to determine what herbicides would effectively control the invasive species. Applications made prelowering were more successful than postlowering applications for all herbicides tested with glyphosate, 2,4-D, triclopyr, diquat, imazamox, and imazapyr resulting in 100% mean biomass reduction. For postlowering applications, glyphosate, triclopyr, and diquat are recommended.

Oxycaryum cubense

drift

dispersal

propagules

glyposhate

diquat

imazapyr

imazamox

penoxsulam

flumioxazin

bispryibac sodium

invasive species

GPS

herbicide

Cuban bulrush