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biopesticides HISTORY AND TYPES OF BIOPESTICIDES

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DrAnita Sharma

This course provide information about history of biopesticides and types of biopesticide like microbisal, botanical and PIPs

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Course no. – ENTO-221 Title- Bio-pesticides and Bio- fertilizers Dr. Anita Sharma Asstt. Professor (Entomology)
Topic 1. - HISTORY AND CONCEPT OF BIOPESTICIDES Biopesticide- Bio- means involving life or living organisms. Pesticide- includes substance or mixture of substances intended for preventing, destroying or controlling any pest Biopesticides may be derived from animals (e.g. nematodes), plants (Chrysanthemum, Azadirachta) and micro-organisms (e.g. Bacillus thuringiensis, Trichoderma, nucleopolyhedrosis virus), and include living organisms (natural enemies) etc. According to the US Environmental Protection Agency (EPA), Biopesticides "include naturally occurring substances that control pests (biochemical pesticides), microorganisms that control pests (microbial pesticides), and pesticidal substances produced by plants containing added genetic material (plant-incorporated protectants) or PIPs". However, biopesticides are generally less toxic to the user and are non-target organisms, making them desirable and sustainable tools for disease and pests management.
How Biopesticides work? Biologicals are used to control pests, pathogens and weeds by a variety of means. Microbial biocontrols may include a pathogen or parasite that infects the target. Alternatively, they might act as competitors or inducers of plant host resistance. Biochemical biocontrols can also act through a variety of mechanisms. Some act by inhibiting the growth, feeding, development or reproduction of a pest or pathogen. Still other biocontrols may be used to form a barrier on the host, so as to act as a feeding or infection inhibitor.
History of Biopesticides  Plant extracts were likely the earliest agricultural biocontrols, as history records that nicotine was used to control plum beetles as early as the 17th century. Experiments involving biological controls for insect pests in agriculture date back as far as 1835, when Agostine Bassi demonstrated that white muscadine fungus (Beauveria bassiana) could be used to cause an infectious disease in silkworm. The first, and still most, widely used biocontrols included spores of the bacteria Bacillus thuringiensis (Bt). In 1901, Bt was isolated from a diseased silkworm by Japanese biologist Shigetane Ishiwata. In 1909 Dr. Ernst Berliner in Thuringen, Germany, then rediscovered it in a diseased caterpillar of flour moth larvae. The Bt pathogen was classified in 1911 as type species Bacillus thuringiensis and remains the most widely used biocontrols to this day.
In the early 1920s, the French began to use Bt as a biological insecticide. The first commercially available Bt product, Sporeine, appeared in France in 1938.  The first Bt strain was commercialized and marketed as ‘ Thuricide’ in 1960. In the latter half of the 20th century, research and development continued at a low level because of the widespread adoption of cheaper but more toxic synthetic chemical insecticides. In 1973, Heliothis (Ha) NPV was granted exemption from tolerance and the first viral insecticide, Elcar received a label in 1975. In 1977, Bacillus thuringiensis var. israelensis (toxic to flies) was discovered, and in 1983 the strain tenebrionis (toxic to beetles) was found.
Louis Pasteur, was the first to use fungus on grape vines in the vine yards to control the tiny inhabiting insect. E. Metschnikoff (1879) and J Krassiltchik (1888) produced the fungus, Metarhizium anisopliae to control the wheat cockchafer, Anisoplia austriacea. In 1979, the U.S. EPA registered the first insect pheromone for use in mass trapping of Japanese beetles. In the 1990s, researchers began testing kaolin clay as an insect repellent in organic fruit orchards. It was made commercially available, particularly for use in organic systems, in 1999. Commercial success stories from the 1980s and 1990s include products containing Agrobacterium radiobacter for the prevention of crown gall on woody crops and Pseudomonas fluorescens for the prevention of fire blight in orchards where the streptomycin had been overused and resistant pathogen populations were abundant.
Some examples of biocontrols developed in more recent years  Agrobacterium radiobacter Strain K84 Agrobacterium radiobacter Strain K84 is a naturally occurring bacterium found in many soils and in plant root zones. This biocontrols is used in the greenhouse and nursery environment to control crown gall, an important plant disease.  Bacillus spp. Bacillus licheniformis, B. pumilus, and B. subtilis are naturally occurring soil bacteria with fungicidal properties that together have become one of the fastest growing biocontrols in today’s market. Successes include uses as seed treatments or dressings, foliar application and soilapplied control of diseases in a variety of crops. Paecilomyces lilacinus - Paecilomyces lilacinus is used to control nematodes that attack plant roots in field crops including many vegetables, fruit, turf, and ornamental crops.
Trichoderma spp. -Trichodermais a genus of fungi that helps to control plant disease by stimulating plant host defenses and growth, and under certain conditions, parasitizing harmful fungi within the plant root zone.  Azadirachtin -Azadirachtin is an insect growth regulator derived from neem tree seeds. Known to affect some 200 species of insects, azadirachtin disrupts insect feeding and inhibits its ability to molt as it changes from the pupa to adult stage. Beauveria bassiana and Metarrhizium anisopliae-Beauveria bassiana is a naturally occurring soil fungus that grows as white mold. Metarrhizium grow as green mold. This insect pathogen can be used to control a wide range of target pests, which become infected and develop white muscardine disease and green muscardine disease, killing the pest within a matter of days.
HaNPV -is a viral pathogen belong to baculoviridae family is highly useful for control the specific insect like Helicoverpa, Spodoptera spp. Are major pest of field crops. Cydia pomonella granulo virus (CpGV) -CpGV is a natural pathogen of the codling moth, a major pest of tree fruits such as apples and pears. Developed through research begun in the 1980’s, commercial use of CpGV in both organic and conventional systems has gained in popularity over the last ten years as codling moth has displayed resistance to many traditional insecticides.

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biopesticides HISTORY AND TYPES OF BIOPESTICIDES

  • 1. Course no. – ENTO-221 Title- Bio-pesticides and Bio- fertilizers Dr. Anita Sharma Asstt. Professor (Entomology)
  • 2. Topic 1. - HISTORY AND CONCEPT OF BIOPESTICIDES Biopesticide- Bio- means involving life or living organisms. Pesticide- includes substance or mixture of substances intended for preventing, destroying or controlling any pest Biopesticides may be derived from animals (e.g. nematodes), plants (Chrysanthemum, Azadirachta) and micro-organisms (e.g. Bacillus thuringiensis, Trichoderma, nucleopolyhedrosis virus), and include living organisms (natural enemies) etc. According to the US Environmental Protection Agency (EPA), Biopesticides "include naturally occurring substances that control pests (biochemical pesticides), microorganisms that control pests (microbial pesticides), and pesticidal substances produced by plants containing added genetic material (plant-incorporated protectants) or PIPs". However, biopesticides are generally less toxic to the user and are non-target organisms, making them desirable and sustainable tools for disease and pests management.
  • 3. How Biopesticides work? Biologicals are used to control pests, pathogens and weeds by a variety of means. Microbial biocontrols may include a pathogen or parasite that infects the target. Alternatively, they might act as competitors or inducers of plant host resistance. Biochemical biocontrols can also act through a variety of mechanisms. Some act by inhibiting the growth, feeding, development or reproduction of a pest or pathogen. Still other biocontrols may be used to form a barrier on the host, so as to act as a feeding or infection inhibitor.
  • 4. History of Biopesticides  Plant extracts were likely the earliest agricultural biocontrols, as history records that nicotine was used to control plum beetles as early as the 17th century. Experiments involving biological controls for insect pests in agriculture date back as far as 1835, when Agostine Bassi demonstrated that white muscadine fungus (Beauveria bassiana) could be used to cause an infectious disease in silkworm. The first, and still most, widely used biocontrols included spores of the bacteria Bacillus thuringiensis (Bt). In 1901, Bt was isolated from a diseased silkworm by Japanese biologist Shigetane Ishiwata. In 1909 Dr. Ernst Berliner in Thuringen, Germany, then rediscovered it in a diseased caterpillar of flour moth larvae. The Bt pathogen was classified in 1911 as type species Bacillus thuringiensis and remains the most widely used biocontrols to this day.
  • 5. In the early 1920s, the French began to use Bt as a biological insecticide. The first commercially available Bt product, Sporeine, appeared in France in 1938.  The first Bt strain was commercialized and marketed as ‘ Thuricide’ in 1960. In the latter half of the 20th century, research and development continued at a low level because of the widespread adoption of cheaper but more toxic synthetic chemical insecticides. In 1973, Heliothis (Ha) NPV was granted exemption from tolerance and the first viral insecticide, Elcar received a label in 1975. In 1977, Bacillus thuringiensis var. israelensis (toxic to flies) was discovered, and in 1983 the strain tenebrionis (toxic to beetles) was found.
  • 6. Louis Pasteur, was the first to use fungus on grape vines in the vine yards to control the tiny inhabiting insect. E. Metschnikoff (1879) and J Krassiltchik (1888) produced the fungus, Metarhizium anisopliae to control the wheat cockchafer, Anisoplia austriacea. In 1979, the U.S. EPA registered the first insect pheromone for use in mass trapping of Japanese beetles. In the 1990s, researchers began testing kaolin clay as an insect repellent in organic fruit orchards. It was made commercially available, particularly for use in organic systems, in 1999. Commercial success stories from the 1980s and 1990s include products containing Agrobacterium radiobacter for the prevention of crown gall on woody crops and Pseudomonas fluorescens for the prevention of fire blight in orchards where the streptomycin had been overused and resistant pathogen populations were abundant.
  • 7. Some examples of biocontrols developed in more recent years  Agrobacterium radiobacter Strain K84 Agrobacterium radiobacter Strain K84 is a naturally occurring bacterium found in many soils and in plant root zones. This biocontrols is used in the greenhouse and nursery environment to control crown gall, an important plant disease.  Bacillus spp. Bacillus licheniformis, B. pumilus, and B. subtilis are naturally occurring soil bacteria with fungicidal properties that together have become one of the fastest growing biocontrols in today’s market. Successes include uses as seed treatments or dressings, foliar application and soilapplied control of diseases in a variety of crops. Paecilomyces lilacinus - Paecilomyces lilacinus is used to control nematodes that attack plant roots in field crops including many vegetables, fruit, turf, and ornamental crops.
  • 8. Trichoderma spp. -Trichodermais a genus of fungi that helps to control plant disease by stimulating plant host defenses and growth, and under certain conditions, parasitizing harmful fungi within the plant root zone.  Azadirachtin -Azadirachtin is an insect growth regulator derived from neem tree seeds. Known to affect some 200 species of insects, azadirachtin disrupts insect feeding and inhibits its ability to molt as it changes from the pupa to adult stage. Beauveria bassiana and Metarrhizium anisopliae-Beauveria bassiana is a naturally occurring soil fungus that grows as white mold. Metarrhizium grow as green mold. This insect pathogen can be used to control a wide range of target pests, which become infected and develop white muscardine disease and green muscardine disease, killing the pest within a matter of days.
  • 9. HaNPV -is a viral pathogen belong to baculoviridae family is highly useful for control the specific insect like Helicoverpa, Spodoptera spp. Are major pest of field crops. Cydia pomonella granulo virus (CpGV) -CpGV is a natural pathogen of the codling moth, a major pest of tree fruits such as apples and pears. Developed through research begun in the 1980’s, commercial use of CpGV in both organic and conventional systems has gained in popularity over the last ten years as codling moth has displayed resistance to many traditional insecticides.