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Germination Response of Weed Seeds to Soil Nitrate and Ammonium With and Without Simulated Overwintering

Published online by Cambridge University Press:  12 June 2017

David J. Schimpf
Affiliation:
Dep. Biol. and Ecol. Ctr., UMC 45, Utah State Univ., Logan, UT 84322
Ivan G. Palmblad
Affiliation:
Dep. Biol. and Ecol. Ctr., UMC 45, Utah State Univ., Logan, UT 84322

Abstract

Moist-chilled and freshly harvested seeds of redroot pigweed (Amaranthus retroflexus L.) and yellow foxtail [Setaria glauca (L.) Beauv.] were tested for germination responses to soil ammonium and nitrate. A controlled environment was used to simulate overwintering and germination conditions in the field. The results suggest that no alteration of weed germination behavior should be expected in the crop ecosystems studied if ammonium plus nitrification inhibitor replaces other fertilizer systems which result in substantial levels of nitrate in the soil solution. The only germination effect was one of nitrate on unchilled foxtail. Chilling lowered catalase activity in both species.

Type
Research Article
Copyright
Copyright © 1980 by the Weed Science Society of America 

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References

Literature Cited

1. Baker, H. G. 1974. The evolution of weeds. Annu. Rev. Ecol. Syst. 5:124.CrossRefGoogle Scholar
2. Burguillo, P. F. and Nicolás, G. 1977. Appearance of an alternate pathway cyanide-resistant during germination of seeds of Cicer arietinum . Plant Physiol. 60:525527.CrossRefGoogle ScholarPubMed
3. Burns, I. G. 1976. Equations to predict the leaching of nitrate uniformly incorporated to a known depth or uniformly distributed throughout a soil profile. J. Agric. Sci. (Cambridge) 86:305313.CrossRefGoogle Scholar
4. Cavers, P. B. 1974. Germination polymorphism in Rumex crispus. The effects of different storage conditions on germination responses of seeds collected from individual plants. Can. J. Bot. 52:575583.CrossRefGoogle Scholar
5. Crocker, W. and Harrington, G. T. 1918. Catalase and oxidase content of seeds in relation to their dormancy, age, vitality, and respiration. J. Agric. Res. 15:137174.Google Scholar
6. Evenari, M. 1965. Light and seed dormancy. Pages 804847 in Ruhland, W., ed. Encyclopedia of plant physiology. Springer-Verlag, Berlin, Vol. 15.Google Scholar
7. Fawcett, R. S. and Slife, F. W. 1978. Effects of field applications of nitrate on weed seed germination and dormancy. Weed Sci. 26: 594596.CrossRefGoogle Scholar
8. Flemion, F. 1931. After-ripening, germination, and vitality of seeds of Sorbus aucuparia L. Contrib. Boyce-Thompson Inst. Plant Res. 3:413439.Google Scholar
9. Haut, I. C. 1932. Catalase activity in relation to the after-ripening of fruit tree seeds. Proc. Am. Soc. Hortic. Sci. 29:375379.Google Scholar
10. Hendricks, S. B. and Taylorson, R. B. 1974. Promotion of seed germination by nitrate, nitrite, hydroxylamine, and ammonium salts. Plant Physiol. 54:304309.CrossRefGoogle ScholarPubMed
11. Hendricks, S. B. and Taylorson, R. B. 1975. Breaking of seed dormancy by catalase inhibition. Proc. Natl. Acad. Sci., USA 72. 306309.CrossRefGoogle ScholarPubMed
12. Herbert, D. 1955. Catalase from bacteria (Micrococcus lysodeikticus . Methods in Enzymol. 2:784788.CrossRefGoogle Scholar
13. Huber, D. M., Warren, H. L., Nelson, D. W., and Tsai, C. Y. 1977. Nitrification inhibitors-new tools for food production. BioScience 27:523529.CrossRefGoogle Scholar
14. Jones, H. A. 1920. Physiological study of maple seeds. Bot. Gaz. 69:127152.CrossRefGoogle Scholar
15. Loustalot, A. J. 1939. Catalase activity in relation to after-ripening of apple seeds. Proc. Am. Soc. Hortic. Sci. 37:361362.Google Scholar
16. Peters, R. A., Meade, J. A., and Santelmann, P. W. 1963. Life history studies as related to weed control in the northeast-yellow foxtail and giant foxtail. Rhode Island Agric. Exp. Stn. Bull. 369. 18 pp.Google Scholar
17. Ransom, E. R. 1935. The interrelations of catalase, respiration, after-ripening, and germination in some dormant seeds of the Polygonaceae. Am. J. Bot. 22:815825.Google Scholar
18. Reisenauer, H. M. 1966. Mineral nutrients in soil solution. Pages 507508 in Altman, P. L. and Dittmer, D. S., eds. Environmental biology. Fed. Am. Soc. Exp. Biol., Bethesda, Maryland.Google Scholar
19. Roberts, E. H. 1973. Oxidative processes and the control of seed germination. Pages 189216 in Heydecker, W., ed. Seed ecology. Penn State Univ. Press, University Park, Pennsylvania.Google Scholar
20. Roberts, H. A. and Lockett, P. M. 1975. Germination of buried and dry-stored seeds of Stellaria media . Weed Res. 15:199204.CrossRefGoogle Scholar
21. Rost, T. L. 1975. The morphology of germination in Setaria lutescens (Gramineae): the effects of covering structures and chemical inhibitors on dormant and nondormant florets. Ann. Bot. 39:2130.CrossRefGoogle Scholar
22. Russell, E. J. 1961. Soil conditions and plant growth, 9th ed. Longmans Green and Co., New York. 688 pp.Google Scholar
23. Salisbury, F. B. and Ross, C. 1969. Plant physiology. Wadsworth, Belmont, California. 747 pp.Google Scholar
24. Sherman, H. 1921. Respiration of dormant seeds. Bot. Gaz. 72:130.CrossRefGoogle Scholar
25. Sinyagin, I. I. and Teper, E. N. 1967. The effect of fertilizers on the germination of weed seeds. Doklady Vsesoyuznoi Akademii Sel-'skokhozyaistrennykh Nauk 1967 (1):24. (In Russian).Google Scholar
26. Steel, R. G. D. and Torrie, J. H. 1960. Principles and procedures of statistics. McGraw-Hill, New York. 481 pp.Google Scholar
27. Taylorson, R. B. and Hendricks, S. B. 1976. Aspects of dormancy in vascular plants. BioScience 26:95101.CrossRefGoogle Scholar
28. Turner, G. O., Warren, L. E., and Andriessen, F. G. 1962. Effect of 2-chloro-6-(trichloromethyl) pyridine on the nitrification of ammonium fertilizers in field soils. Soil Sci. 94:270273.CrossRefGoogle Scholar
29. Vincent, E. M. and Roberts, E. H. 1977. The interaction of light, nitrate and alternating temperatures in promoting the germination of dormant seeds of common weed species. Seed Sci. and Technol. 5:659670.Google Scholar
30. Walter, H. 1960. Grundlagen der Pflanzen verbreitung. Einführüng in die Phytologie, Band III, I. Teil: Standortslehre. Eugen Ulmer, Stuttgart. 566 pp.Google Scholar
31. Yentur, S. and Leopold, A. C. 1976. Respiratory transition during seed germination. Plant Physiol. 57:274276.CrossRefGoogle ScholarPubMed