Biopesticides

Biopesticides are certain types of pesticides derived from such natural materials as animals, plants, bacteria, and certain minerals. For example, canola oil and baking soda have pesticidal applications and are considered biopesticides. At the end of 2001, there were approximately 195 registered biopesticide active ingredients and 780 products. Biopesticides fall into three major classes:

(1) Microbial pesticides consist of a microorganism (e.g., a bacterium, fungus, virus or protozoan) as the active ingredient. Microbial pesticides can control many different kinds of pests, although each separate active ingredient is relatively specific for its target pest[s]. For example, there are fungi that control certain weeds, and other fungi that kill specific insects.

The most widely used microbial pesticides are subspecies and strains of Bacillus thuringiensis, or Bt. Each strain of this bacterium produces a different mix of proteins, and specifically kills one or a few related species of insect larvae. While some Bt’s control moth larvae found on plants, other Bt’s are specific for larvae of flies and mosquitoes. The target insect species are determined by whether the particular Bt produces a protein that can bind to a larval gut receptor, thereby causing the insect larvae to starve

(2) Plant-Incorporated-Protectants (PIPs) are pesticidal substances that plants produce from genetic material that has been added to the plant. For example, scientists can take the gene for the Bt pesticidal protein, and introduce the gene into the plant’s own genetic material. Then the plant, instead of the Bt bacterium, manufactures the substance that destroys the pest. The protein and its genetic material, but not the plant itself, are regulated by EPA.

(3) Biochemical pesticides are naturally occurring substances that control pests by non-toxic mechanisms. Conventional pesticides, by contrast, are generally synthetic materials that directly kill or inactivate the pest. Biochemical pesticides include substances, such as insect sex pheromones, that interfere with mating, as well as various scented plant extracts that attract insect pests to traps. Because it is sometimes difficult to determine whether a substance meets the criteria for classification as a biochemical pesticide, EPA has established a special committee to make such decisions.

(from www.npic.orst.edu)

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Organic Pesticides and Biopesticides
http://www.clemson.edu/extension/hgic/pests/pesticide/hgic2756.html

Pros and Cons of Pesticides
http://www2.mcdaniel.edu/Biology/eh01/pesticides/pro,consof_pesticides.html

Alternatives to pesticides
http://www2.mcdaniel.edu/Biology/eh01/pesticides/alternatives.html

Biopesticides
http://en.wikipedia.org/wiki/Biopesticide

Grandevo® Eurofin bee study
http://www.marronebioinnovations.com/lightray/site/wp-content/uploads/2013/05/Grandevo-Eurofin-bee-study-magazine-article-Digital-edition-03-11-13-.pdf

NPIC- Integrated Pest Management
http://npic.orst.edu/pest/ipm.html

What are biopesticides?
http://www.epa.gov/pesticides/biopesticides/whatarebiopesticides.htm

My agriculture information bank
http://agriinfo.in/default.aspx?page=topic&superid=3&topicid=1951

Calotropis procera and Annona squamosal: Potential Alternatives to Chemical Pesticides
http://www.sciencedomain.org/abstract.php?iid=191&id=5&aid=952#.VCMBhBYXM9I

A three generation study with genetically modified BT corn in rats: Biochemical and histopathological investigation
http://www.ncbi.nlm.nih.gov/pubmed/18191319
Bt corn treatments regardless of soil insecticide application. In the current study, the use of tefluthrin on Bt corn did not significantly affect crop damage or yield, and tefluthrin may travel off-site in runoff water and sediment.”