Tobacco Bio-oil: Agricultural Pesticide

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Agricultural pest. Source: Wikimedia Commons.

This article, written by Carol Potera*, appeared first in Environmental Health Perspectivesthe peer-reviewed, open access journal of the National Institute of Environmental Health Sciences.

The article is a verbatim version of the original and is not available for edits or additions by Encyclopedia of Earth editors or authors. Companion articles on the same topic that are editable may exist within the Encyclopedia of Earth.

Tobacco Bio-oil Kills Agricultural Pests

Cigarette smoking continues to be the leading cause of preventable death and disease in the United States,1 but tobacco has potentially beneficial uses as well as deadly ones. Gardeners have long known that homemade mixtures of tobacco and water can kill insect pests. But these homemade brews kill desirable insects, too, and could poison animals that ingest them. Now researchers at the University of Western Ontario are finding new ways to turn tobacco into a more selective eco-friendly pest control agent.2

A team led by chemical engineer Cedric Briens heated finely ground tobacco leaves to 500°C in a vacuum, a process called pyrolysis, then collected the condensate. (Since publishing the paper, the team has found they can use the entire plant—leaves and stalks—which makes it easier and cheaper to harvest the tobacco.) The bio-oil was tested against the Colorado potato beetle (Leptinotarsa decemlineata), 11 fungi, and 4 bacteria, all of which are agricultural pests.

The bio-oil blocked the growth of the bacteria Streptomyces scabies and Clavibacter michiganensis and the fungus Pythium ultimum. S. scabies causes a common potato scab disease that makes potatoes unmarketable, C. michiganensis kills young plants and deforms fruits, especially tomatoes, and P. ultimum kills seedlings of eggplant, peppers, lettuce, tomatoes, and cucumbers. The bio-oil also killed 100% of Colorado potato beetles, a resistant pest that can destroy potato crops. The other organisms were unaffected.

Nicotine, a key toxin in tobacco, has known insecticidal properties on its own. But even after removing nicotine from the bio-oil, it still potently killed these few pests.2 The authors say the active components probably include a mixture of phenols with known pesticidal properties working synergistically. They analyzed the bio-oil using gas chromatography–mass spectrometry and note that some of the constituents defy detection. It’s possible new pesticidal molecules are being formed in the high heat conditions of pyrolysis. “We do know that no single molecule is effective, and we seem to have discovered a natural cocktail,” Briens says.

The probable mixture of active chemicals suggests agricultural pests may not readily develop resistance to the bio-oil. Control of the Colorado potato beetle is especially challenging because the beetle is notorious for its ability to adapt rapidly to new pesticides that are applied.3 “Insecticides that work now will be obsolete in a few years, and we’ll need new insecticides,” Briens says.

The ability of the bio-oil to target certain agricultural pests could be an asset for future commercialization, because it could spare desirable insects such as honeybees. Some pesticide manufacturers are watching the bio-oil work, but they want to know the active molecules before becoming involved. Then the active components of the bio-oil will require toxicity testing to assess their impact on the environment.

Briens’ study “is a logical and efficient approach to identify a useful by-product of tobacco plants, creating a value-added pesticidal fraction,” says Joel Coats, a professor of entomology and toxicology at Iowa State University in Ames. “The possibility of discovering a novel pesticidal molecule makes the project very worthwhile.”


1. Dube SR, et al. Vital signs: current cigarette smoking among adults aged ≥ 18 years—United States, 2009. MMWR 59(35):1135–1140. 2010. Available: http://tinyurl.com/2v3eszr [accessed 8 Dec 2010].

2. Booker CJ, et al. Experimental investigations into the insecticidal, fungicidal, and bactericidal properties of pyrolysis bio-oil from tobacco leaves using a fluidized bed pilot plant. Ind Eng Chem Res 49(20):10074–10079. 2010. doi:10.1021/ie100329z Find this article online

3. Insecticide Resistance in Colorado Potato Beetles [website]. Orono, ME:University of Maine Cooperative Extension (updated 19 Feb 2010). Available: http://tinyurl.com/34mbkd2 [accessed 8 Dec 2010].

Editor's Notes

  • *Carol Potera, based in Montana, has written for EHP since 1996. She also writes for Microbe, Genetic Engineering News, and the American Journal of Nursing.
  • Citation: Potera C 2011. Tobacco Bio-oil Kills Agricultural Pests. Environ Health Perspect 119:a18-a18. doi:10.1289/ehp.119-a18a
  • Online: 01 January 2011


(2011). Tobacco Bio-oil: Agricultural Pesticide. Retrieved from http://www.eoearth.org/view/article/51cbf04b7896bb431f6a119a


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