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Spring wheat seed size and seeding rate effects on yield loss due to wild oat (Avena fatua) interference

Published online by Cambridge University Press:  20 January 2017

Robert N. Stougaard  and
Qingwu Xue
Qingwu Xue
Affiliation:
Montana State University, Northwestern Agricultural Research Center, 4570 MT 35, Kalispell, MT 59901
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Abstract

The development of competitive cropping systems could minimize the negative effects of wild oat competition on cereal grain yield, and in the process, help augment herbicide use. A 3-yr field experiment was conducted at Kalispell, MT, to investigate the effects of spring wheat seed size and seeding rate on wheat spike production, biomass, and grain yield under a range of wild oat densities. Wheat plant density, spikes, biomass, and yield all increased as seed size and seeding rates increased. Averaged across all other factors, the use of higher seeding rates and larger seed sizes improved yields by 12 and 18%, respectively. Accordingly, grain yield was more highly correlated with seed size than with seeding rate effects. However, the combined use of both tactics resulted in a more competitive cropping system, improving grain yields by 30%. Seeding rate effects were related to spike production, whereas seed size effects were related to biomass production. As such, plants derived from large seed appear to have greater vigor and are able to acquire a larger share of plant growth factors relative to plants derived from small seed.

Keywords

Wild oat, Avena fatua L. AVEFAwheat, Triticum aestivum L. ‘McNeal’Competitivenessseeding rateseed size
Type
Weed Management
Information
Weed Science , Volume 52 , Issue 1 , February 2004 , pp. 133 - 141
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Balyan, R. S., Malik, R. K., Panwar, R. S., and Singh, S. 1991. Competitive ability of winter wheat cultivars with wild oat (Avena indoviciana). Weed Sci 39:154158.CrossRefGoogle Scholar
Barton, D. L., Thill, D. C., and Shafii, B. 1992. Integrated wild oat (Avena fatua) management affects spring barley (Hordeum vulgare) yield and economics. Weed Technol 6:129135.CrossRefGoogle Scholar
Bockus, W. W. and Shroyer, J. P. 1996. Effect of seed size on seedling vigor and forage production of winter wheat. Can. J. Plant Sci 76:101105.Google Scholar
Bulisani, E. A. and Warner, R. L. 1980. Seed protein and nitrogen effects upon seedling vigor in wheat. Agron. J 72:657662.CrossRefGoogle Scholar
Carlson, H. L. and Hill, J. E. 1985. Wild oat (Avena fatua) competition with spring wheat: plant density effects. Weed Sci 33:176181.CrossRefGoogle Scholar
Chastain, T. G., Ward, K. J., and Wysocki, D. J. 1995. Stand establishment responses of soft white winter wheat to seedbed residue and seed size. Crop Sci 35:213218.Google Scholar
Cornish, P. S. and Hindmarsh, S. 1988. Seed size influences the coleoptile length of wheat. Aust. J. Exp. Agric 28:521523.Google Scholar
Cousens, R. 1985. A simple model relating yield loss to weed density. Ann. Appl. Biol 107:239252.Google Scholar
Cudney, D. W., Jordan, L. S., Holt, J. S., and Reints, J. S. 1989. Competitive interactions of wheat (Triticum aestivum) and wild oats (Avena fatua) grown at different densities. Weed Sci 37:538543.Google Scholar
Evans, R. M., Thill, D. C., Tapia, L., Shafii, B., and Lish, J. M. 1991. Wild oat (Avena fatua) and spring barley (Hordeum vulgare) density affect spring barley grain yield. Weed Technol 5:3339.Google Scholar
Fischer, R. A. and Miles, R. E. 1973. The role of spatial pattern in the competition between crop plants and weeds. A theoretical analysis. Math. Biosci 18:335350.CrossRefGoogle Scholar
Florez, J. A., Fischer, A. J., Ramirez, H., and Duque, M. C. 1999. Predicting rice yield losses caused by multispecies weed competition. Agron. J 91:8792.Google Scholar
Gonzalez Ponce, R., Salas, M. L., and Herce, A. 1992. Competition of wild oat with wheat in comparison to the wheat itself. Biol. Plantarum 34:285290.Google Scholar
Grieve, C. M. and Francois, L. E. 1992. The importance of initial seed size in wheat plant response to salinity. Plant Soil 147:197205.Google Scholar
Kirkland, K. J. 1993. Weed management in spring barley (Hordeum vulgare) in the absence of herbicides. J. Sustain. Ag 3:95104.Google Scholar
Lafond, G. P. and Baker, R. J. 1986. Effects of genotype and seed size on speed of emergence and seedling vigor in nine spring wheat cultivars. Crop Sci 26:341346.Google Scholar
Lemerle, D., Verbeek, B., Cousens, R. D., and Coombes, N. E. 1996. The potential for selecting wheat varieties strongly competitive against weeds. Weed Res 36:505513.Google Scholar
Lindquist, J. L., Mortensen, D. A., Clay, S. A., Schmenk, R., Kells, J. J., Howatt, K., and Westra, P. 1996. Stability of corn (Zea mays)-velvetleaf (Abutilon theophrasti) interference relationships. Weed Sci 44:309313.Google Scholar
Lotz, L. A. P., Christensen, S., and Cloutier, D. et al. 1996. Prediction of the competitive effects of weeds on crop yields based on the relative leaf area of weeds. Weed Res 36:93101.CrossRefGoogle Scholar
Martin, M. P. L. D. and Field, R. J. 1987. Competition between vegetative plants of wild oat (Avena fatua L.) and wheat (Triticum aestivum L). Weed Res 27:119124.Google Scholar
Maxwell, B. D., Stougaard, R., and Davis, E. 1994. Bioeconomic model for optimizing wild oat management in barley. Proc. West. Soc. Weed Sci 47:7476.Google Scholar
Mian, M. A. R. and Nafziger, E. D. 1992. Seed size and water potential effects on germination and seedling growth of winter wheat. Crop Sci 34:169171.Google Scholar
Ni, H., Moody, K., Robles, R. P., Paller, E. C. Jr., and Lales, J. S. 2000. Oryza sativa plant traits conferring competitive ability against weeds. Weed Sci 48:200204.Google Scholar
O'Donovan, J. T., Harker, K. N., Clayton, G. W., and Hall, L. M. 2000. Wild oat (Avena fatua) interference in barley (Hordeum vulgare) is influenced by barley variety and seed rate. Weed Technol 14:624629.CrossRefGoogle Scholar
Peterson, C. M., Klepper, B., and Rickman, R. W. 1989. Seed reserves and seedling development in winter wheat. Agron. J 81:245251.Google Scholar
[SAS] Statistical Analysis Systems. 1999. SAS/STAT User's Guide. Version 7-1. Cary, NC: Statistical Analysis Systems Institute.Google Scholar
Satorre, E. H. and Snaydon, R. W. 1992. A comparison of root and shoot competition between spring cereals and Avena fatua . L. Weed Res 32:4555.Google Scholar
Sharma, M. P. 1979. Wild oat—a billion dollar problem. Weeds Today 10/3:56.Google Scholar
Sharma, M. P., Mcbeath, D. K., and Vanden Born, W. H. 1977. Studies on the biology of wild oat. II. Growth. Can. J. Plant Sci 57:811817.Google Scholar
Spilde, L. A. 1989. Influence of seed size and test weight on several agronomic traits of barley and hard red spring wheat. J. Prod. Agric 2:169172.Google Scholar
Wilson, B. J., Wright, K. J., Brain, P., Clements, M., and Stephens, E. 1995. Predicting the competitive effects of weed and crop density on weed biomass, weed seed production and crop yield in wheat. Weed Res 35:265278.Google Scholar