Postharvest Kochia (Kochia scoparia) Management with Herbicides in Small Grains1

Uncontrolled kochia plants that regrow after small-grain harvest can produce substantial numbers of seeds. An average of 4,100 seeds per plant were produced between harvest (late July to mid August) and the first killing frost (late September) at three locations in Montana. Field experiments were conducted to determine the optimal timing of postharvest herbicide applications to prevent kochia from producing viable seeds. Herbicide treatments were applied at three timings from late August to mid September. The most effective treatments were glyphosate (631 g/ha) and paraquat (701 g/ha) applied at the second application timing (late August to early September). These treatments reduced kochia seed production by 92% or greater at each site. Kochia regrowth by this time had sufficient leaf area for herbicide absorption, but few viable seed had been produced. Herbicide treatments at the first and third application timings were generally less effective and more variable in reducing kochia seed production. Sulfentrazone (157 g/ha) and 2,4-D (561 g/ha) were not as effective at reducing seed production as other herbicide treatments. Nomenclature: Glyphosate; paraquat; sulfentrazone; 2,4-D; kochia, Kochia scoparia (L.) Schrad. #3 KCHSC. Additional index words: Seed production. Abbreviations: AMS, ammonium sulfate.

[1]  F. Manthey,et al.  Response of Kochia (Kochia scoparia) Inbreds to 2,4-D and Dicamba1 , 2002, Weed Technology.

[2]  B. Maxwell,et al.  Dicamba resistance in kochia , 2001, Weed Science.

[3]  D. Shaw,et al.  Effect of Preharvest Desiccants on Weed Seed Production and Viability1 , 2000, Weed Technology.

[4]  W. E. Dyer,et al.  Differential Herbicide Response Among Sulfonylurea-Resistant Kochia scoparia L. Accessions , 1993, Weed Science.

[5]  T. Prato,et al.  Profitable, Effective Herbicides for Planting-Time Weed Control in No-till Spring Wheat (Triticum aestivum) , 1991, Weed Science.

[6]  L. Saari,et al.  Mechanism of Sulfonylurea Herbicide Resistance in the Broadleaf Weed, Kochia scoparia. , 1990, Plant physiology.

[7]  J. Toler,et al.  Effects of Late-Season Herbicide Applications on Sicklepod (Cassia obtusifolia) Seed Production and Viability , 1989, Weed Science.

[8]  S. Weaver,et al.  Germination Responses to Temperature of Atrazine-Resistant and -Susceptible Biotypes of Two Pigweed (Amaranthus) Species , 1986, Weed Science.

[9]  M. Sd Evaluation of post harvest herbicide treatments for weed control in fallow. , 1986 .

[10]  E. Schweizer,et al.  Effect of Depth and Duration of Seed Burial on Kochia (Kochia scoparia) , 1984, Weed science.

[11]  J. D. Nalewaja,et al.  Light Period, Temperature, and Kochia Flowering , 1972, Weed Science.

[12]  A. F. Wiese,et al.  Soil Moisture Effects on Competitive Ability of Weeds , 1970, Weed Science.

[13]  M. Maun,et al.  Effects of 2,4-D on Seed Production and Embryo Development of Curly Dock , 1969, Weed Science.

[14]  W. C. Johnson,et al.  Weed Root Profiles 1 , 1967 .

[15]  W. Phillips,et al.  Preliminary Studies of the Root System of Kochia scoparia at Hays, Kansas , 1958 .

[16]  O. A. Stevens The number and weight of seeds produced by weeds. , 1932 .