Azadirachtin
Natural 0-2250
ppm in Neem
Oil, Azadirachtin
Technical (
10 - 96% ),
Azadirachtin
formulations
from 300-50000
ppm, Azadirachtin
Uses, Azadirachtin
Mode of Action,Azadirachtin
Chemistry,
for Researchers,
Universities
& Companies
Azadirachtin in Neem Oil ( 50-2250 ppm ), in Extracts: Powder ( 7 % to 41.77 % ) & Formulations ( 300 to 50000 ppm ) |
Azadirachtin
Natural 0-2250
ppm in Neem
Oil, Azadirachtin
Technical
( 10 - 44.5
% ), Azadirachtin
formulations
from 300-50000
ppm, Azadirachtin
Uses, Azadirachtin
Mode of Action,Azadirachtin
Chemistry,
for Researchers,
Universities
& Companies
Azadirachtin in Neem Oil ( 50-2250 ppm ), in Extracts: Powder ( 7 % to 41.77 % ) & Formulations ( 300 to 50000 ppm ) AZADIRACHTIN Modern Science has isolated & identified AZADIRACHTIN as the Chief ingredient in Neem Seed responsible for the Action on the pests. Empirical formula :C 35 H 44 O 16 Molecular weight :720 Chemical family :Tetranortriterpenoids AZADIRACHTIN ACTS IN THE FOLLOWING WAY: - Disturbing or inhibiting the development of the eggs, larvae, or pupae. - Blocking the molting of larvae or nymphs. - Disturbing mating and sexual communication. - Repelling larvae and adults. - Deterring females from laying eggs. - Sterilising adults - Deterring feeding SOURCES: AZADIRACHTIN is Naturally found in Neem Seed Kernel.Depending on the method of extraction and the choice of the Neem Fruits/Seeds/Kernel. Depending on the various combinations & permutations, the following are the possible Azadirachtin levels we have procured for exporting and supplying to Quality conscious Indian Companies. NEEM OIL WITH NATURAL AZADIRACHTIN CONTENT: 1. Azadirachtin 2250 ppm 2. Azadirachtin 1955 ppm 3. Azadirachtin 1750 ppm 3. Azadirachtin 1200 ppm 4. Azadirachtin 800 ppm 5. Azadirachtin 400 ppm 6. Azadirachtin 300 ppm 7. Azadirachtin 50 ppm 8. Azadirachtin 0 ppm TECHNICAL EXTRACTS: This is also from various processed used with different types of Solvents & Machineries. 1. Azadirachtin 10 % 2. Azadirachtin 25 % 3. Azadirachtin 35 % 4. Azadirachtin 42 % 5. Azadirachtin A & B 96 % Standard READY FORMULATIONS TO USE : 1. Azadirachtin 300 ppm 2. Azadirachtin 1500 ppm 3. Azadirachtin 3000 ppm 4. Azadirachtin 5000 ppm 5. Azadirachtin 10000 ppm 6. Azadirachtin 20000 ppm 7. Azadirachtin 50000 ppm 8. Azadirachtin 65000 ppm 9. Azadirachtin ( Custom made ) Advantages: 1. Broad spectrum of activity 2. No Known insecticide resistance mechanisms 3. Compatible with many commercial insecticides and fungicides 4. New mode of action with possible multiple sites of attack. 5. Classified as a biological insecticide for registration purposes. 6. Low use rates 7. Compatible with other biological agents for IPM Programme. 8. Not persistent in the Environment 9. Minimal impact of Non-target organisms. 10. Formulation flexibility 11. No re-entry restrictions 12. Supply available from pre-existing infrastructure. 13. Application flexibility - can be sprayed or drenched. 14. Non-phytotoxic formulations available. FOLLOWING DETAILS REPRODUCED BELOW WITH PERMISSION FROM CORNELL UNIVERSITY. E X T O X N E T Extension Toxicology Network A Pesticide Information Project of Cooperative Extension Offices of Cornell University, Michigan State University, Oregon State University, and University of California at Davis. Major support and funding was provided by the USDA/Extension Service/National Agricultural Pesticide Impact Assessment Program. Pesticide Information Profile Azadirachtin REGULATORY STATUS Azadirachtin is registered in the United States as a general use pesticide with a toxicity classification of IV (relatively non-toxic). Check with specific state regulations for local restrictions which may apply. Products containing azadirachtin must bear the signal word "Caution" or "Warning" on their label (1). INTRODUCTION The key insecticidal ingredient found in the neem tree is azadirachtin, a naturally occurring substance that belongs to an organic molecule class called tetranortriterpenoids (6). It is structurally similar to insect hormones called "ecdysones," which control the process of metamorphosis as the insects pass from larva to pupa to adult. Metamorphosis requires the careful synchrony of many hormones and other physiological changes to be successful, and azadirachtin seems to be an "ecdysone blocker." It blocks the insect's production and release of these vital hormones. Insects then will not molt, thus breaking their life cycle (4, 5). Azadirachtin may also serve as a feeding deterrent for some insects. Depending on the stage of life-cycle, insect death may not occur for several days. However, upon ingestion of minute quantities, insects become quiescent and stop feeding. Residual insecticidal activity is evident for 7 to 10 days orlonger, depending on insect and application rate (1,2). Azadirachtin is used to control whiteflies, aphids, thrips, fungus gnats, caterpillars, beetles, mushroom flies, mealybugs, leafminers, gypsy moths and others on food, greenhouse crops, ornamentals and turf (2, 11). TOXICOLOGICAL EFFECTS ACUTE TOXICITY The acute oral toxicity in rats fed technical grade azadirachtin ranged from greater than 3,540 mg/kg to greater than 5,000 mg/kg, the highest dose tested when administered undiluted to albino rats (1, 2, 3). The acute inhalation toxicity study in rats exposed to technical azadirachtin showed that the acute inhalation LD50 is greater than 2.41 mg/L per animal, the highest dose tested. Although this figure is below the 5.0 mg/L limit test dose for an acute inhalation study, the reported concentration was the maximum dose possible under the test conditions. No deaths occurred during the course of the study. Azadirachtin was given a toxicity classification of Category III (3). A primary eye irritation study in rabbits exposed to technical azadirachtin was rated mild to moderately irritating after instillation of 0.1 gm of the undiluted material. At one hour post-instillation, the maximum eye irritation score was 15.3/110; by 24, 48, and 72 hours the scores were 6.2/110, 0.3/110, and 0/110, respectively. It was given a toxicity category of III (3). Primary dermal irritation in rabbits when tested at a single dose (0.5 gm) by applying it to the shaved backs of rabbits, did not cause any dermal irritation after 4 hours of exposure. The dermal score was zero for all treated rabbits at all examination times. A toxicity category of IV, mild to slightly irritating,was assigned. An acute dermal toxicity study of rabbits exposed to technical azadirachtin was performed. The material was applied for 24 hours at a single dose of 2.0 gm/kg to the shaved backs of the rabbits, that caused dermal irritation which resolved by day nine. Azadirachtin was classified as a mild irritant (3). Another study reported the dermal LD50 for rabbits to be >2,000 mg/kg (1,2). Dermal sensitization in guinea pigs found the technical end-use product to be categorized as a mild sensitizer when administered undiluted to albino guinea pigs. The test material was considered a weak dermal sensitizer to albino guinea pigs (3). CHRONIC TOXICITY A 90-day oral toxicity study in rats fed levels of 500, 2500, and 10,000 ppm of azadirachtin showed no signs of overt systemic toxicity at any dose level after 90 days of feeding. Mean body weight was significantly decreased in the 10,000 ppm males and females at weeks 3 and 4, respectively. This persisted for the duration of the 90-day feeding period (11). Reproductive Effects Male antifertility activity of neem leaf extract was studied in mice, rats, rabbits and guinea pigs by daily oral feeding of a cold-water extract of fresh green neem leaves. The infertility effect was seen in treated male rats as there was a 66.7% reduction in fertility after 6 weeks, 80% after 9 weeks, and 100% after 11 weeks. There was no inhibition of spermatogenesis. During this period there was no decrease in body weight and no other manifestation of toxicity observed. There was a marked decrease in the mortality of spermatozoa. The infertility in rats was not associated with loss of libido or with impotence and the animals maintained normal mating behavior. The male antifertility activity was reversible in 4 to 6 weeks. Neem extract also shows reversible male antifertility activity in mice without inhibition of spermatogenesis. In guinea pigs and rabbits, however, it exhibited toxicity as demonstrated by 66.6% and 74.9% mortality in guinea pigs and 80 and 90% mortality in rabbits at the end of 4 and 6 weeks, respectively (9). Teratogenic Effects No information was found. Mutagenic Effects Technical azadirachtin was evaluated for the potential to cause gene mutations in the S. typhimurium strains at any dose (5, 50, 500, 5,000 micrograms/plate) with or without S-9 activation. The study was negative (3). Carcinogenic Effects No information was found. Fate in Humans and Animals No information was found. ECOLOGICAL EFFECTS Effects on Birds No significant effects on other wildlife were reported (8). Effects on Aquatic Organisms The LC50 for rainbow trout exposed to azadirachtin is 0.48 ppm (11). It may cause significant fish kill if large concentrations reach waterways. It breaks down rapidly (in 50-100 hours) in water or light, and is not likely to accumulate or cause long-term effects (8, 11). Effects on Other Animals (Nontarget species) Azadirachtin is relatively harmless to spiders, butterflies, and insects such as bees that pollinate crops and trees, ladybugs that consume aphids, and wasps that act as parasites on various crop pests. This is because neem products must be ingested to be effective. Thus, insects that feed on plant tissue succumb, while those that feed on nectar or other insects rarely contact significant concentrations of neem products. Another study found that only after repeated spraying of highly concentrated neem products onto plants in flower were worker bees at all affected. Under these extreme conditions, the workers carried contaminated pollen or nectar to the hives and fed it to the brood. Small hives then showed insect-growth-regulating effects; however, medium-sized and large bee populations were unaffected (4). A study of neem products and their effect on mortality, growth and reproduction of earthworms in soils was conducted. Positive effects on weight and survival were found in soil treated with ground neem leaves and ground seed kernals under greenhouse conditions. Reproduction was slightly favored over a period of 13 weeks in a neem-enriched substrate in rearing cages. Various neem products were incorporated in the upper 10-cm soil layer of tomato plots. None of the materials had negative side effects on seven species of earthworms (10). No significant effects on other wildlife were reported (8). ENVIRONMENTAL FATE Breakdown of Chemical in Soil and Groundwater Potential for mobility in soil is very low for the formulated product . Accumulation in the environment is not expected (8). Breakdown of Chemical in Surface Water A formulated product which contains the active ingredient azadirachtin is considered a water pollutant. It breaks down rapidly (in 100 hours) in water or light, and will not cause long-term effects (8). Breakdown of Chemical in Vegetation Azadirachtin is considered non-phytotoxic when used as directed (2). PHYSICAL PROPERTIES AND GUIDELINES Azadirachtin is a tetranortriterpenoid botanical insecticide of the liminoid class extracted from the neem tree Azadirachta indica. It is a yellow-green powder, with a strong garlic-sulfur odor. Hazardous combustion products include carbon monoxide and carbon dioxide (1, 2, 8, 11). REFERENCES 1.Farm Chemicals Handbook. 1995. Meister Publishing Co. Willoughby, OH. 2.Thomson, W.T. Agricultural Chemicals. Book I: Insecticides. 1992. Thomson Publications, Fresno, CA. 3.U.S. Environmental Protection Agency. 1993. Azadirachtin: Tolerance Exemption. Federal Register. Vol. 58, No. 30. Rules and Regulations. Wednesday, February 17, 1993. 4.National Research Council. 1992. Neem: A tree for solving global problems. National Academy Press, Washington, DC. 5.AgriDyne Technologies, Inc. March, 1994. Greenhouse Grower. Floritech report: Tough on pests, easy on crops--and the environment. AgriDyne Technologies, Inc.,Salt Lake City, UT. 6.Grace-Sierra Crop Protection Co. 1990. Margosan-O technical bulletin. Grace-Sierra Crop Protection Co., Milpitas, CA. 7.W. R. Grace & Co. 1991. MSDS for Margosan-O.Washington Research Center, Columbia, MD. 8.Martineau, Jess. AgriDyne Technologies, Inc.January 26, 1994. MSDS for Azatin-EC Biological Insecticide. 9.Sadre, N. L., V. Y. Deshpande, K. N. Mendulkar and D. H. Nandal. 1983. "Male antifertility activity of azadirachta indica in different species" (paper presented at the Proceedings of the 2nd International Neem conference, Rauischholzhausen, Germany, 1983). pp. 473-482. 10.Rossner, J. and C. P. W. Zebitz. 1986. "Effect of soil treatment with neem products on earthworms(Lumbricidae)" (paper presented at the Proceedings of the 3rd International Neem Conference, Nairobi, 1986). pp. 627-632. 11.Review by AgriDyne Technologies, Inc. May, 1995 Disclaimer: Please read the pesticide label prior to use. The information contained at this web site is not a substitute for a pesticide label. Trade names used herein are for convenience only. No endorsement of products is intended, nor is criticism of unnamed products implied. |
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Friday, 17 July 2015
AZADIRACHTIN ACTS IN THE FOLLOWING WAY
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