Management of Pigweed (Amaranthus spp.) in Glufosinate-Resistant Soybean in the Midwest and Mid-South

Butts Thomas R.; Norsworthy Jason K.; Kruger Greg R.Sandell Lowell D.Young Bryan G.Steckel Lawrence E.Loux Mark M.Bradley Kevin W.Conley Shawn P.Stoltenberg David E.Arriaga Francisco J.Davis Vince M.

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Management of Pigweed (Amaranthus spp.) in Glufosinate-Resistant Soybean in the Midwest and Mid-South

机译：Management of Pigweed (Amaranthus spp.) in Glufosinate-Resistant Soybean in the Midwest and Mid-South

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Pigweeds are among the most abundant and troublesome weed species across Midwest and midSouth soybean production systems because of their prolific growth characteristics and ability to rapidly evolve resistance to several herbicide sites of action. This has renewed interest in diversifying weed management strategies by implementing integrated weed management (IWM) programs to efficiently manage weeds, increase soybean light interception, and increase grain yield. Field studies were conducted across 16 site-years to determine the effectiveness of soybean row width, seeding rate, and herbicide strategy as components of IWM in glufosinate-resistant soybean. Sites were grouped according to optimum adaptation zones for soybean maturity groups (MGs). Across all MG regions, pigweed density and height at the POST herbicide timing, and end-of-season pigweed density, height, and fecundity were reduced in IWM programs using a PRE followed by (fb) POST herbicide strategy. Furthermore, a PRE fb POST herbicide strategy treatment increased soybean cumulative intercepted photosynthetically active radiation (CIPAR) and subsequently, soybean grain yield across all MG regions. Soybean row width and seeding rate manipulation effects were highly variable. Narrow row width (= 38 cm) and a high seeding rate (470,000 seeds ha(-1)) reduced end-of-season height and fecundity variably across MG regions compared with wide row width (>= 76 cm) and moderate to low (322,000 to 173,000 seeds ha(-1)) seeding rates. However, narrow row widths and high seeding rates did not reduce pigweed density at the POST herbicide application timing or at soybean harvest. Across all MG regions, soybean CIPAR increased as soybean row width decreased and seeding rate increased; however, row width and seeding rate had variable effects on soybean yield. Furthermore, soybean CIPAR was not associated with end-of-season pigweed growth and fecundity. A PRE fb POST herbicide strategy was a necessary component for an IWM program as it simultaneously managed pigweeds, increased soybean CIPAR, and increased grain yield.

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《Weed technology: A journal of the Weed Science Society of America》 |2016年第2期|355-365|共11页
作者
Butts Thomas R.; Norsworthy Jason K.; Kruger Greg R.Sandell Lowell D.Young Bryan G.Steckel Lawrence E.Loux Mark M.Bradley Kevin W.Conley Shawn P.Stoltenberg David E.Arriaga Francisco J.Davis Vince M.;
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Univ Nebraska, Dept Agron & Hort, Lincoln, NE 68588 USA;

Univ Wisconsin, Dept Agron, 1575 Linden Dr, Madison, WI 53706 USA;

So Illinois Univ, Dept Plant Soil & Agr Syst, Carbondale, IL 62901 USAUniv Tennessee, Dept Plant Sci, Jackson, TN 38301 USAOhio State Univ, Dept Hort & Crop Sci, Columbus, OH 43210 USAUniv Missouri, Dept Plant Sci, Columbia, MO 65211 USAUniv Wisconsin, Dept Soil Sci, Madison, WI 53706 USAUniv Arkansas, Dept Crop Soil & Environm Sci, Fayetteville, AR 72701 USAUniv Nebraska, Dept Agron & Hort, North Platte, NE 69101 USA;

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正文语种英语
中图分类植物保护;
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Cumulative intercepted photosynthetically active radiation; cultural weed control; digital imagery analysis; glufosinate-resistant soybean; integrated weed management; PRE herbicides;

Management of Pigweed (Amaranthus spp.) in Glufosinate-Resistant Soybean in the Midwest and Mid-South

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