Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-18T01:17:46.550Z Has data issue: false hasContentIssue false

Additives to Dalapon Sprays

Published online by Cambridge University Press:  12 June 2017

L. S. Jordan
Affiliation:
University of California Citrus Research Center and Agricultural Experiment Station, Riverside, California
B. E. Day
Affiliation:
University of California Citrus Research Center and Agricultural Experiment Station, Riverside, California
R. T. Hendrixson
Affiliation:
University of California Citrus Research Center and Agricultural Experiment Station, Riverside, California
Get access

Abstract

The addition of a combination of methyl cellulose, sodium acetate and an alkyl aryl sodium sulfonate (sodium petroleum sulfonate) to spray solutions increased the toxicity of 2,2-dichloropropionic acid (dalapon) to oats and Cynodon dactylon L. The most effective combination tested on oats in the laboratory was 2.25% methyl cellulose, 1.75% sodium acetate, and 0.8% of an alkyl aryl sodium sulfonate. Lower concentrations of the three materials, combinations of any two of these additives, or any one added alone were less effective. Under field conditions, the response of Cynodon dactylon L. to dalapon was more rapid, control was more uniform and regrowth slower when dalapon sprays contained the three additives. Methyl cellulose increased and maintained the spray load on the grass foliage. Alkyl aryl sodium sulfonate probably increased penetration of dalapon. Sodium acetate increased the toxicity of the spray.

Type
Research Article
Copyright
Copyright © 1963 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. Blackman, G. E. 1952. Studies in the principles of phytotoxicity. J. Exp. Bot. 3:127.Google Scholar
2. Currier, H. B., and Dybing, C. B. 1952. Foliar penetration of herbicides—review and present status. Weeds 7:195213.Google Scholar
3. Day, B. E. 1957. The bermudagrass problem in citrus and avocado orchards. Proc. Ninth Ann. California Weed Conf. 2225 (Mimeo.) Google Scholar
4. Day, B. E. 1961. Formulation of dalapon to reduce soil contamination. Weed Res. 1:177183.Google Scholar
5. Day, B. E. and Jordan, L. S. 1961. Spray retention by Bermudagrass. Weeds 9:351355.Google Scholar
6. Day, B. E. Jordan, L. S., and Hendrixson, R. T. 1963. Herbicidal properties of low volatile esters of dalapon. Weeds 11:128130.Google Scholar
7. Day, B. E. Jordan, L. S., Hendrixson, R. T., and Jollifff, V. A. 1962. Herbicidal properties of glycol and polyglycol esters of dalapon. WWCC Res. Prog. Repts. 8687.Google Scholar
8. Day, B. E. Jordan, L. S., and Russell, R. C. 1963. The persistence of dalapon residues in California soils. Soil Science (In press).Google Scholar
9. Day, B. E., McCarty, C. D., and Jordan, L. S. 1962. Dalapon, amitrole, and weed oil compared for effectiveness in control of Bermudagrass in California citrus orchards. Hilgardia 32(2):207227.Google Scholar
10. Ennis, W. B. Jr., Williamson, R. E., and Dorschner, K. P. 1952. Studies on spray retention by leaves of different plants. Weeds 1:274286.CrossRefGoogle Scholar
11. Foy, Chester L. 1962. Absorption and translocation of dalapon-2-C14 and -Cl36 in Tradescantia fluminensis . Weeds 10:97100.Google Scholar
12. Jansex, L. L., Gentner, W. A., and Shaw, W. C. 1961. Effects of surfactants on the herbicidal activity of several herbicides in aqueous spray systems. Weeds 9:381405.Google Scholar
13. Hull, H. M. 1956. Studies on herbicidal absorption and translocation in velvet mesquite seedlings. Weeds 4:2242.Google Scholar
14. Kretchman, D. W. 1961. Dalapon for controlling perennial grasses in Florida citrus groves. Down to Earth 16(4): 69.Google Scholar