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Weed Control in a Winter Wheat-Fallow Rotation

Published online by Cambridge University Press:  12 June 2017

O. C. Burnside
Affiliation:
Department of Agronomy at Lincoln
C. R. Fenster
Affiliation:
Scotts Bluff Station at Mitchell
C. E. Domingo
Affiliation:
U. S. Department of Agriculture, A.R.S., Soil and Water Conservation Research Division, Morris, Minnesota

Abstract

Weed control during the fallow year and yields of subsequent winter wheat (Triticum aestivum L.) were lower on unsprayed plots than on plots treated with 2-chloro-4-ethylamino-6-isopropylamino-s-triazine (atrazine) at 2 lb/A or 3-amino-l,2,4-triazole (amitrole) at 1/2 lb/A plus 3-(p-chlorophenyl)-l,l-dimethylurea (monuron) at 1 lb/A. The moldboard plow gave the most effective weed control in the winter wheat-fallow rotation followed by the oneway and the sweep plow. Sweep plow tillage left the greatest amount of plant residues on the soil surface to prevent wind and water erosion, but it did not consistently destroy shallow-rooted downy brome (Bromus tectorum L.) plants. Average downy brome stands in winter wheat on fallow plots tilled with the sweep plow, oneway, and moldboard plow were 331, 114, and 16 plants per 54 sq ft, respectively. Winter wheat yields averaged for the sweep plow, oneway, and moldboard plow treatments were 17, 18, and 20 bu/A, respectively. The most feasible method of controlling weeds in a winter wheat-fallow rotation, found in this study, was oneway tillage in combination with the lower herbicide rates.

Type
Research Article
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

1. Army, T. J., Wiese, A. F., and Hanks, R. J. 1961. Effect of tillage and chemical weed control practices on soil moisture losses during the fallow period. Soil Sci. Soc. Amer. Proc. 25:410413.Google Scholar
2. Baker, L. O., Krall, J. L., Aasheim, T. S., and Hartman, G. P. 1956. Chemical summer fallow in Montana. Down to Earth 11(4):21.Google Scholar
3. Bovey, R. W. and Fenster, C. R. 1964. Aerial application of herbicides on fallow land. Weeds 12:117119.CrossRefGoogle Scholar
4. Burnside, O. C., Fenster, C. R., and Wicks, G. A. 1963. Dissipation and leaching of monuron, simazine, and atrazine in Nebraska soils. Weeds 11:209213.Google Scholar
5. Fenster, C. R., Burnside, O. C., and Wicks, G. A. 1965. Chemical fallow studies in winter wheat fallow rotations in western Nebraska. Agron. J. 57:469470.CrossRefGoogle Scholar
6. McCalla, T. M. and Haskins, F. A. 1964. Phytotoxic substances from soil microorganisms and crop residues. Bacterial Rev. 28:181207.CrossRefGoogle ScholarPubMed
7. Russel, J. C. 1939. The effect of surface cover on soil moisture losses by evaporation. Soil Sci. Soc. Amer. Proc. 4:6570.Google Scholar
8. Staples, R. and Allington, W. B. 1956. Streak mosaic of wheat in Nebraska and its control. Nebraska Agr. Exp. Sta. Res. Bull. 178. 40 p.Google Scholar
9. Wiese, A. F. and Army, T. J. 1958. Effect of tillage and chemical weed control practices on soil moisture storage and losses. Agron. J. 50:465468.Google Scholar
10. Wiese, A. F., Bond, J. J., and Army, T. J. 1960. Chemical fallow in the southern Great Plains. Weeds 8:284289.CrossRefGoogle Scholar
11. U. S. Economic Research Service. 1967. Changes in farm production and efficiency a summary report. U. S. Dep. Agr. Stat. Bull. 223. 17 p.Google Scholar