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Strigol Analogs as Germination Regulators in Weed and Crop Seeds

Published online by Cambridge University Press:  12 June 2017

Armand B. Pepperman  and
Judith M. Bradow
Armand B. Pepperman
Affiliation:
U.S. Dep. Agric., Agric. Res. Serv., South. Regional Res. Ctr., New Orleans, LA 70119
Judith M. Bradow
Affiliation:
U.S. Dep. Agric., Agric. Res. Serv., South. Regional Res. Ctr., New Orleans, LA 70119
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Abstract

Twelve analogs of the strigol D-ring (butenolides) were evaluated at 0.1 mM as germination regulators of 26 weed and crop seeds. In general, the butenolides either inhibited or did not affect monocot germination, although the hydroxybutenolide stimulated germination of dormant cheat and nondormant perennial ryegrass and sorghum seeds. The response rate for dicots was greater but still primarily inhibitory. Dormant lettuce seeds (both light-sensitive and light-insensitive), Palmer amaranth, and redroot pigweed showed several significant responses, both inhibitory and stimulatory. Some of the butenolides that had not been previously assayed against witchweed were tested as 10-4 to 10-11 M dilution series. The allyloxybutenolide demonstrated activity comparable to strigol (30 to 60% germination at 10-6 to 10-11 M); the sec-butyloxybutenolide was somewhat less active (20 to 40% germination) but still effective at 10-9 M. In general, the butenolide analogs of strigol were less effective in stimulating seed germination than the multiring analogs.

Keywords

Cheat, Bromus secalinus (L.) Beauv. # BROSEperennial ryegrass, Lolium perenne L. # LOLPESorghum, Sorghum bicolor (L.) Beauv. # SORVUlettuce seed, Lactuca sativa L.Palmer amaranth, Amaranthus palmeri S. Wats. # AMAPAredroot pigweed, Amaranthus retroflexus L. # AMAREwitchweed, Striga asiatica (L.) Ktze. # STRLUSeed germinationwitchweedseed dormancyStrigaSTRLU
Type
Physiology, Chemistry, and Biochemistry
Information
Weed Science , Volume 36 , Issue 6 , November 1988 , pp. 719 - 725
Copyright
Copyright © 1988 by the Weed Science Society of America 

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References

Literature Cited

1. Bradow, J. M. 1985. Germination regulation by Amaranthus palmeri and Ambrosia artemisiifolia . Pages 285289 in Thompson, A. C., ed. The Chemistry of Allelopathy: Biochemical Interactions Among Plants. ACS Symp. No. 268, Am. Chem. Soc, Washington, DC.Google Scholar
2. Bradow, J. M. 1986. Germination Promotion in dormant shepherdspurse (Capsella bursa-pastoris) seeds by strigol analogs and other stimulants. Weed Sci. 34:17.CrossRefGoogle Scholar
3. Bradow, J. M., Connick, W. J. Jr., and Pepperman, A. B. (1988). Comparison of the seed germination effects of synthetic analogs of strigol, gibberellic acid, cytokinins and other growth regulators. J. Plant Growth Regul. (accepted for publication).Google Scholar
4. Cassady, J. M. and Howie, G. A. 1974. Synthesis and stereochemistry of dilactones related to strigol. J. Chem. Soc., Chem. Commun. 2:512513.Google Scholar
5. Cook, C. E., Whichard, L. P., Turner, B., Wall, M. E., and Egley, G. H. 1966. Germination of witchweed (Striga lutea Lour.): Isolation and properties of a potent stimulant. Science 154:11891190.Google Scholar
6. Cook, C. E., Whichard, L. P., Wall, M. E., Egley, G. H., Coggon, P., Luhan, P. A., and McPhail, A. T. 1972. Germination stimulants. II. The structure of strigol – A potent seed germination stimulant for witchweed (Striga lutea Lour.). J. Am. Chem. Soc. 94:61986199.CrossRefGoogle Scholar
7. Egley, G. H. 1980. Stimulation of common cocklebur (Xanthium pensylvanicum) and redroot pigweed (Amaranthus retroflexus) seed germination by injections of ethylene in soil. Weed Sci. 28:510514.Google Scholar
8. Farina, F. and Martin, M. V. 1971. Preparacion de esteres del acido 2-Metil-3-formilacrilico y su empleo en la sintesis diencia. Annales Quimica. 67:315327.Google Scholar
9. Heather, J. B., Mittal, R.S.D., and Sih, C. J. 1976. Synthesis of the witchweed seed germination stimulant (±)-strigol. J. Am. Chem. Soc. 98:36613669.CrossRefGoogle Scholar
10. Hsiao, A. I., Worsham, A. D., and Moreland, D. E. 1981. Regulation of witchweed (Striga asiatica) conditioning and germination by d,1-strigol. Weed Sci. 29:101104.Google Scholar
11. Johnson, A. W., Rosebery, G., and Parker, C. 1976. A novel approach to Striga and Orobanche control using synthetic stimulants. Weed Sci. 30:561566.Google Scholar
12. McAlpine, G. A., Raphael, R. A., Shaw, A., Taylor, A. W., and Wild, H. J. 1976. Synthesis of the germination stimulant (±)-strigol. J. Chem. Soc. Perkin Trans. 410416.Google Scholar
13. Menetrez, M. E. 1985. Pre-germination and germination changes in storage components and α-galactosidase activity in Striga asiatica seeds. Ph.D. Thesis, North Carolina State Univ., Raleigh, NC.Google Scholar
14. Musselman, L. J. 1980. The biology of Striga, Orobanche and other root-parasitic weeds. Annu. Rev. Phytopathol. 18:463489.CrossRefGoogle Scholar
15. Pepperman, A. B., Connick, W. J. Jr., Vail, S. L., Worsham, A. D., Pavlista, A. D., and Moreland, D. E. 1982. Evaluation of precursors and analogs of strigol as witchweed (Striga asiatica) seed germination stimulants. Weed Sci. 30:561566.Google Scholar
16. Shaw, W. C., Shepherd, D. R., Robinson, E. L., and Sand, P. F. 1962. Advances in witchweed control. Weeds. 10:182192.Google Scholar
17. Sokal, R. R. and Rohlf, F. J. 1981. Biometry. 2nd ed. W. H. Freeman, San Francisco. 859 pp.Google Scholar
18. Steel, R.G.D. and Torrie, J. H. 1980. Principles and Procedures of Statistics. 2nd ed. McGraw-Hill Book Co., New York. 683 pp.Google Scholar