Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-22T00:07:49.707Z Has data issue: false hasContentIssue false
  • English
  • Français

Piperonyl Butoxide as a Constituent of Heavy-oil Sprays for the Control of Stored Product Insects. I.—Piperonyl Butoxide as a Synergist for Pyrethrum and its Effect on the Persistence of Pyrethrum Films

Published online by Cambridge University Press:  10 July 2009

P. S. Hewlett
P. S. Hewlett
Affiliation:
Pest Infestation Laboratory, Slough, Bucks.
Get access Rights & Permissions [Opens in a new window]

Extract

Laboratory experiments showed that piperonyl butoxide (PB) is a powerful synergist of pyrethrins in Shell oil P31.

The toxicity of PB alone to different species of insects was determined. Tribolium castaneum was resistant to direct sprays of PB in P31, but appreciably susceptible to films : the toxic action of the films on this species was unusually delayed. Ptinus tedus and Calandragranaria were resistant to films, but C. oryzae somewhat susceptible.

In view of claims that PB makes pyrethrum films more persistent, an experiment specifically designed to reveal such an effect was carried out. This failed to show that PB makes the films any more persistent.

A formula was obtained giving the approximate pyrethrin equivalent of different pyrethrin-PB mixtures applied to T. castaneum as films on filter paper. It was shown, however, that the pyrethrin equivalent of a given pyrethrin-PB mixture could differ according to the method of application and according to the species of test insect.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 42 , Issue 2 , September 1951 , pp. 293 - 310
Copyright
Copyright © Cambridge University Press 1951

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

Anon. (1950). Insecticide resistance AAEE Tampa topic.—Soap & Sanit. Chem., 26, no. 1, pp. 127, 128A, 128C.Google Scholar
Brannon, L. W. (1947). Piperonyl. cyclonene and piperonyl butoxide as synergists with rotenone.—J. econ. Ent., 40, pp. 933934.CrossRefGoogle Scholar
Cotton, R. T., Frankenfeld, J. C. & Dennis, N. M. (1948).—Residual sprays for use against the Confused Flour Beetle.—U.S. Dep. Agric., Bur. Ent., E—766, 15 pp.Google Scholar
Cotton, R. T., Frankenfeld, J. C. & Strickland, W. B. (1949).—Insect-proofing cotton bags.—U.S. Dep. Agric., Bur. Ent., E—783, 4 pp.Google Scholar
Donohoe, E. L. (1948). Pyrenones in roach control practice.—Pests, 16, no. 7, pp. 911, 48.Google Scholar
Dove, W. E. (1947). Piperonyl butoxide, a new and safe insecticide for the household and field.—Amer. J. trop. Med., 27, pp. 339345.CrossRefGoogle Scholar
Finney, D. J. (1947). Probit analysis. A statistical treatment of the sigmoid response curve. Cambridge.Google Scholar
Glass, F. A. (1948). Grain itch—a report of the first outbreak in the city of Baltimore.—Industr. Med., 17, pp. 9596. [Abstract only seen.]Google ScholarPubMed
Hewlett, P. S. (1947 a). A direct spray technique for the biological evaluation of pyrethrum-in-oil insecticides for use against stored product insects in warehouses.—Ann. appl. Biol., 34, pp. 357375.CrossRefGoogle Scholar
Hewlett, P. S. (1947 b). The toxicities of three petroleum oils to the grain weevils.—Ann. appl. Biol., 34, pp. 575585.CrossRefGoogle Scholar
Lehman, A. J. (1949). The toxicology of the newer agricultural chemicals.—Pests, 17, no. 1, pp. 79, 11.Google ScholarPubMed
Moore, J. B. (1950). Relative toxicity to insects of natural pyrethrins and synthetic allyl analog of cinerin I.—J. econ. Ent., 43, pp. 207213.CrossRefGoogle Scholar
Page, A. B. P. & Blackith, R. E. (1950). Stabilization of pyrethrins.—Pyrethrum Post, 2, no. 1, pp. 1820.Google Scholar
Parkin, E. A. & Green, A. A. (1943). A film technique for the biological evaluation of pyrethrum-in-oil insecticides for use against stored product insects in warehouses.—Ann. appl. Biol., 30, pp. 279292.CrossRefGoogle Scholar
Parkin, E. A. & Hewlett, P. S. (1946). The formation of insecticidal films on building materials. I. Preliminary experiments with films of pyrethrum and DDT in a heavy oil.—Ann. appl. Biol., 33, pp. 381386.CrossRefGoogle Scholar
Piquett, P. G. (1949). The effect of four commonly used synergists on a synthetic pyrethroid.—J. econ. Ent., 42, pp. 841842.CrossRefGoogle Scholar
Plackett, R. L. & Hewlett, P. S. (1948). Statistical aspects of the independent joint action of poisons, particularly insecticides. I. The toxicity of a mixture of poisons.—Ann. appl. Biol., 35, pp. 347358.CrossRefGoogle ScholarPubMed
Sarles, M. P., Dove, W. E. & Moore, D. H. (1949). Acute toxicity and irritation tests on animals with the new insecticide, piperonyl butoxide.—Amer. J. trop. Med., 29, pp. 151166.CrossRefGoogle ScholarPubMed
Schroeder, H. O. (1950). Piperonyl butoxide in low pressure aerosol insecticides.—Soap & sanit. Chem., 26, no. 6, pp. 145, 147, 148a, 148c.Google Scholar
Wachs, H. (1947). Synergistic insecticides.—Science, 105, pp. 530531.CrossRefGoogle ScholarPubMed
Wilson, C. S. (1949). Piperonyl butoxide, piperonyl cyclonene, and pyrethrum applied to selected parts of individual flies.—J. econ. Ent., 42, pp. 423428.CrossRefGoogle ScholarPubMed