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Effects of Monuron on Halogeton and Associated Salt-Desert Shrub Vegetation

Published online by Cambridge University Press:  12 June 2017

Eugene H. Cronin
Eugene H. Cronin*
Affiliation:
Crops Research Division, A.R.S., U.S.D.A., and Department of Botany and Plant Pathology, Utah State Univ., Logan
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Extract

Halogeton (Halogeton glomeratus) is an introduced, poisonous annual plant which is rapidly invading the salt-desert ranges of western North America. The poisonous constituent of this plant is water-soluble oxalic acid, which varies from 17 to more than 30 percent of the dry weight in its leaves during the growing season. Because of the poisonous property of halogeton and its dense population on disturbed site, it is of considerable importance to the livestock industry.

Type
Research Article
Information
Weeds , Volume 8 , Issue 2 , April 1960 , pp. 168 - 172
Copyright
Copyright © 1960 Weed Science Society of America 

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References

Literature Cited

1. Bohmont, D. W. Halogeton—unwanted tenant of the west. Wyoming Agr. Exp. Sta. Cir. 48. 1951.Google Scholar
2. Burge, L. M., and O'Harra, J. L. Halogeton in Nevada—animal poisoning and control studies. Nevada State Dept. of Agr. Bul. 4. 1953.Google Scholar
3. Cook, C. W., and Stoddart, L. A. The halogeton problem in Utah. Utah Agr. Exp. Sta. Bul. 364. 1953.Google Scholar
4. Eckert, R. E. Jr. A study of competition between whitesage and halogeton in Nevada. Jour. Range Mangmt. 7:223225. 1954.Google Scholar
5. Holl, R. G. A study of the ecology and control of halogeton in Idaho—Part II. (abst. of thesis. Univ. of Idaho). Jour. Range Mangmt. 7:243244. 1954.Google Scholar
6. Holmgren, A. H. New poisonous weed invades western ranges. Utah Agr. Exp. Sta. Farm & Home Sci. 4:3 and 11. 1943.Google Scholar
7. Loustalot, A. J., Muzik, T. J., and Cruzado, J. J. A study of the persistence of CMU in soil. Agr. Chem. 8:5253 and 97–99. 1953.Google Scholar
8. Rauchfuss, F. L., Bohmont, D. W., and Beetle, A. A. Halogeton—how to live with it. Wyoming Agr. Exp. Sta. Cir. 48. 1957.Google Scholar
9. Robocker, W. C. Some characteristics of soils and associated vegetation infested with halogeton. Jour. Range Mangmt. 11:215220. 1958.Google Scholar
10. Sherburne, H. R., Freed, V. H., and Fang, S. C. The use of C14 carbonyl labeled 3–(p–chlorophenyl)–1,1–dimethylurea in a leaching study. Weeds 4:5054. 1956.Google Scholar
11. Stoddart, L. A., Cook, C. W., and Gomm, B. P. Halogeton may be spread by animals. Utah Agr. Exp. Sta. Farm & Home Sci. 14(2):37 and 46. 1953.Google Scholar
12. Tisdale, E. W., and Zappettini, G. Halogeton studies on Idaho ranges. Jour. Range Mangmt. 6:225236. 1953.Google Scholar
13. Williams, M. C. Biochemical and physiological properties of brown and black seed of Halogeton glomeratus . Proc. WWCC 16:5155. 1958.Google Scholar
14. Zappettini, George. The taxonomy of Halogeton glomeratus . Am. Midland Nat. 50:238247. 1953.Google Scholar