1. Plant-derived Insecticides

2. David S. Seigler Department of Plant Biology University of Illinois Urbana, Illinois 61801 USA seigler@life.illinois.edu http://www.life.illinois.edu/seigler seigler@life.illinois.edu

3. Outline: Plant-Derived Insecticides Important insecticides from plants o rotenoids - New World and Asia o pyrethrins - Near Eastern center o tobacco - New World Ryania speciosa, Flacourtiaceae Antifeedants o neem, Azadirichta indica, Meliaceae

4. Reading CHAPTER 13 IN THE TEXT, and lecture material

5. Introduction Many insecticidal compounds are known from plants. Most plants make defensive compounds called allomones. Only a few are important commercially. Plant-derived insecticides have largely been replaced by synthetic materials, but there are some advantages to the naturally occurring materials. For example, these substances are biodegradable. Selectivity is needed. Compounds that are toxic to insects, but not toxic to mammals, are preferable, of course.

6. Rotenoids A series of compounds found in members of the genera Derris, Lonchocarpus, Tephrosia (and in an Illinois plant, Amorpha -- although that's never been exploited) are known as rotenones. We discussed them previously, as they have been used in "primitive" cultures as fish poisons.

7. Commercially, rotenoids are isolated mostly from the roots of Derris elliptica in Indonesia and from Lonchocarpus in South and Central America. These compounds are isolated by grinding the plant and extracting with solvents such as hexane or petroleum ether or chloroform. The compounds are oil soluble or lipids. They make up 1-20% of the dry weight of the roots.

8. Derris elliptica, Fabaceae Pacific Island Ecosystems at Risk (PIER) Photo by Agnes Rinehart

9. Rabo molle, Lonchocarpus muehlenbergianus, Fabaceae Libro del Arbol, Celulosa Argentina, Vol. 2, 1975

10. False indigo bush, Amorpha fruticosa, Fabaceae

11. Pyrethrins Another major series of compounds, the pyrethrins, come from species of the genus Chrysanthemum (some people put these species in Pyrethrum) (Asteraceae or Compositae). These were used as far back as the 1st century B.C. by the Chinese. Insecticidal plants mostly are grown in countries with inexpensive labor and high elevations such as Kenya and New Guinea.

12. Pyrethrum, Chrysanthemum cinerariifolium, Asteraceae Courtesy Dr. Saifu Dossaji

13. Harvesting pyrethrum flowers in Kenya Courtesy Dr. Saifu Dossaji

14. The flower heads contain about 3% crude pyrethrins. The compounds are extracted with lipid-like solvents just as rotenoids above. These plant-derived compounds are the major ingredients of many household insecticides. Often synergists (compounds not active themselves, but that enhance the activity of the insecticide) are added.

15. Ryania speciosa (Flacourtiaceae) is also used occasionally and an insecticide. A mixture of diterpene alkaloids is isolated and used for specialty insecticide uses. Because the extract is expensive, it is not commonly used. Other plant-derived insecticides

16. Ryania speciosa, flower and fruit, Flacourtiaceae

17. Tobacco, Nicotiana tabacum, Solanaceae Tobacco (which contains nicotine) is another major source of insecticides. Tobacco wastes are often extracted and used as a source of nicotine. Nicotine especially effective against aphids.

18. Tobacco, Nicotiana tabacum, Solanaceae, in Ohio

19. Calabar bean Calabar bean (Physostigma venenosa, Fabaceae) is (or has been) a trial-by-ordeal drug in the Calabar coast of Nigeria. The active component is physostigmine, an acetyl choline esterase inhibitor. The structure of several commercial carbamate insecticides is patterned after the structure of the plant alkaloid.

20. Calabar bean, Physostigma venenosum, Fabaceae R. Bentley and H. Trimen, Medicinal Plants, London, Churchill, 1880

21. Antifeedants Antifeedants are compounds that prevent insect feeding. Although many are toxic, the insects usually don’t consume enough to be poisoned. Only one of these, neem, Azadirachta indica, Meliaceae, is commercially available. The active compound, azadirachtin, is a structurally modified triterpene.

22. Neem, Azadirachta indica, Meliaceae Courtesy Dr. Ramesh Pandey William M. Ciesla, Forest Health Management International, United States