Hostname: page-component-84b7d79bbc-fnpn6 Total loading time: 0 Render date: 2024-07-29T23:33:20.317Z Has data issue: false hasContentIssue false
  • English
  • Français

Germination of Broom Snakeweed (Gutierrezia sarothrae) and Threadleaf Snakeweed (G. microcephalum) Seed

Published online by Cambridge University Press:  12 June 2017

H. S. Mayeux Jr.  and
Laura Leotta
H. S. Mayeux Jr.
Affiliation:
U.S. Dep. Agric., Sci. Ed. Admin., Agric. Res.
Laura Leotta
Affiliation:
Texas Agric. Exp. Stn., Grassland, Soil and Water Res. Lab., Temple, TX 76501
Get access Rights & Permissions [Opens in a new window]

Abstract

Most seed of broom snakeweed [Gutierrezia sarothrae (Pursh) Britt. & Rusby] and threadleaf snakeweed [G. microcephala (DC.) Gray] were dormant when collected soon after maturity, requiring 4 to 6 months of storage at room conditions to break dormancy. An alternating temperature regime of 10 C (16 h) and 20 C (8 h) favored snakeweed germination during the afterripening period, but germination was greatest under alternating temperatures of 20 C (16 h) and 30 C (8 h) after 24 months of storage. After 6 months of storage, maximum germination (70% or more) of threadleaf snakeweed seed occurred at continuous temperatures of 15 to 25 C; whereas, broom snakeweed seed germinated best at 15 and 30 C. Germination of both species in darkness was half or less of germination with daily 8-h periods of light. Germination of seed lots containing a high proportion of dormant achenes was enhanced by preimbibition storage at 50 C; after dormancy was naturally broken, exposure to 50 C prior to germination decreased early seedling vigor and growth but not germination.

Keywords

Xanthocephalumafterripeningdormancy
Type
Research Article
Information
Weed Science , Volume 29 , Issue 5 , September 1981 , pp. 530 - 534
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

1. Bray, W. L. 1906. Distribution and adaptation of the vegetation of Texas. Univ. of Texas Bull. 82, Scientific Serv. 10. 110 pp.Google Scholar
2. Capon, B. and Van Asdall, W. 1967. Heat pre-treatment as a means of increasing germination of desert annual seeds. Ecology 48:305306.Google Scholar
3. Dwyer, D. D. 1958. Competition between forbs and grasses. J. Range Manage. 11:115118.Google Scholar
4. Dwyer, D. D. 1967. Fertilization and burning of blue grama grass. J. Anim. Sci. 26:934.Google Scholar
5. Gesink, R. W., Alley, H. P., and Lee, G. A. 1973. Vegetative response to chemical control of broom snakeweed on a blue grama range. J. Range Manage. 12:139143.CrossRefGoogle Scholar
6. Helwig, J. T. and Council, K. A. 1979. SAS User's Guide. Statistical Analysis System Institute, Cary, NC. 494 pp.Google Scholar
7. Hopkins, H. F., Albertson, F. W., and Riegel, A. 1948. Some effects of burning upon a prairie in West-central Kansas. Trans. Kansas Acad. Sci. 51:131141.CrossRefGoogle Scholar
8. Jameson, D. A. 1966. Competition in a blue grama-broom snakeweed-Actinea community and responses to selective herbicides. J. Range Manage. 19:121124.CrossRefGoogle Scholar
9. Kingsbury, J. M. 1964. Poisonous Plants of the United States and Canada. Prentice-Hall, New York. 626 pp.Google Scholar
10. Mayeux, H. S., Jr. and Scifres, C. J. 1978. Germination of goldenweed seed. J. Range Manage. 31:371374.Google Scholar
11. McDonough, W. T. and Harniss, R. O. 1974. Seed dormancy in Artemisia tridentata Nutt. subspecies vaseyana Rydb. Northwest Sci. 48:1719.Google Scholar
12. Parker, K. W. 1939. The control of snakeweed in the Southwest. Southwest. Forest and Range Exp. Stn. Res. Note 76. 4 pp.Google Scholar
13. Piatt, K. B. 1959. Plant control -Some possibilities and limitations. I. The challenge to management. J. Range Manage. 12:64– 68.Google Scholar
14. Schmutz, E. M., Cable, D. R., and Warwick, J. J. 1959. Effects of shrub removal on the vegetation of a semidesert grass-shrub range. J. Range Manage. 12:3437.Google Scholar
15. Schmutz, E. M. and Little, D. E. 1970. Effects of 2,4, 5-T and picloram on broom snakeweed in Arizona. J. Range Manage. 23:354357.Google Scholar
16. Solbrig, O. T. 1960. Cytotaxonomic and evolutionary studies in the North American species of Gutierrezia (Compositae). Contrib. Gray Herb. Harv. Univ. 188:163.Google Scholar
17. Solbrig, O. T. 1964. Intraspecific variation in the Gutierrezia Sarothrae complex (Compositae-Astereae). Contrib. Gray Herb. Harv. Univ. 193:67115.Google Scholar
18. Taylorson, R. B. and Brown, M. M. 1977. Accelerated afterripening for overcoming seed dormancy in grass weeds. Weed Sci. 25:473476.Google Scholar
19. Ueckert, D. N. 1979. Broom snakeweed: Effect of shortgrass forage production and soil water depletion. J. Range Manage. 32:216220.Google Scholar
20. Ueckert, D. N. and Northam, F. E. 1976. Effects of perennial broomweed litter on germination and emergence of three perennial grasses and honey mesquite. Noxious Brush and Weed Control Res. Highlights 7:30. Texas Tech. Univ., Lubbock, Texas.Google Scholar
21. Westman, W. E., Panetta, F. D., and Stanley, T. D. 1975. Ecological studies on reproduction and establishment of the woody weed, groundsel bush (Baccbaris balimifolia L.: Asteraceae). Aust. J. Agric. Res. 26:855870.Google Scholar
22. Woolley, J. T. and Stoller, E. W. 1978. Light penetration and light-induced seed germination in soil. Plant Physiol. 61:597600.Google Scholar
23. Wooten, E. O. 1915. Factors affecting range management in New Mexico. U.S. Dep. Agric. Bull. 211. 39 pp.Google Scholar
24. Young, J. A. and Evans, R. A. 1972. Germination and establishment of Salsola in relation to seedbed environment. I. Temperature, afterripening, and moisture relations of Salsola seeds as determined by laboratory studies. Agron. J. 64:214224.Google Scholar
25. Young, J. A., Evans, R. A., and Hawkes, R. B. 1978. Milk thistle (Silybum marianum) seed germination. Weed Sci. 26:395398.Google Scholar