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'''Neonicotinoids''' are a class of ]s which act on the ] of insects with lower toxicity to mammals. Neonicotinoidss are among the most widely used insecticides worldwide, but recently the uses of some members of this class have been restricted due to a possible connection to ]. | |||
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==Mode of action== | |||
⚫ | They bind at a specific site |
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⚫ | The ] of neonicotinoids is similar to the natural insecticide ], which acts on the central nervous system.<ref>Guide to pesticide modes of action http://www.dropdata.org/RPU/pesticides_MoA.htm#neonicatinoids</ref> In insects, neonicatinoids cause paralysis which leads to death, often within a few hours. However, they are much less toxic to mammals and under the WHO / EPA classification these compounds are placed toxicity class II or class III. Because the neonicotinoids block a specific neural pathway that is more abundant in insects than warm-blooded animals, these insecticides are selectively more toxic to insects than mammals. | ||
⚫ | They bind at a specific site, the ] ], and there are no records of ] to the ], ], or synthetic ] insecticides, thus making them important for management of ]. As a group they are effective against sucking insects such as ], but also chewing insects such as ] and some ]. | ||
⚫ | ] is possibly the most widely used insecticide, both within the |
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==Use== | |||
⚫ | Thiamethoxam's chemical structure is slightly different from other neonicotinoid insecticides, making it highly water soluble and thus it is readily ] in plant tissue. | ||
⚫ | ] is possibly the most widely used insecticide, both within the mode of action group and in the world-wide market. It is now applied against soil, seed, timber and animal pests as well as foliar treatments for crops including: cereals, cotton, grain legumes, potatoes<ref>http://www.nationalpotatocouncil.org/NPC/p_documents/document_280607084102.pdf</ref>, pome fruits, rice, turf and vegetables. It is ] with particularly effective against sucking insects and has a long residual activity. The application rates for neonicotinoid insecticides are much lower than older, traditionally used insecticides. | ||
⚫ | ]'s chemical structure is slightly different from other neonicotinoid insecticides, making it highly water soluble and thus it is readily ] in plant tissue. | ||
⚫ | In 2001, the ] ruled in |
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⚫ | In 2001, the ] ruled in favor of ] when the company filed suit against ] to protect its patent on a class of neonicotinoid insecticides. | ||
⚫ | ==Environmental |
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⚫ | ==Environmental impact== | ||
⚫ | There is controversy over the role of neonicotinoids in relation to ] and ]. Neonicotinoids have been strictly limited in France since the 1990s, when they were implicated in a mass die-off of the bee population. It is believed by some to account for worker bees neglecting to provide food for eggs and larvae, and for a breakdown of the bees' navigational abilities and possibly leading to what has become generally known as ], which is usually associated with the mite pest '']'' |
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⚫ | There is controversy over the role of neonicotinoids in relation to ] and ]. Neonicotinoids have been strictly limited in France since the 1990s, when they were implicated in a mass die-off of the bee population. It is believed by some to account for worker bees neglecting to provide food for eggs and larvae, and for a breakdown of the bees' navigational abilities and possibly leading to what has become generally known as ], which is usually associated with the mite pest '']''.<ref>Colony Collapse Disorder http://www.telegraph.co.uk/news/main.jhtml?xml=/news/2007/04/01/nbees01.xml</ref><ref>Mysterious Bee Deaths Linked to Pesticides http://www.livescience.com/animals/070615_ap_bee_trouble.html</ref> | ||
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⚫ | In May 2008, Germany banned seed treatment with neonicotinoids due to negative affects upon bee colonies. Bee keepers suffered a severe decline linked to the use of ] in the Baden-Württemberg region of Germany,<ref></ref> allegedly connected to a failure to apply a 'glue' agent that affixes the compound to the coats of seeds. The manufacturer maintains that without the fixative agent, the compound drifted into the environment from sown rapeseed and sweetcorn and then affected the honeybees. | ||
⚫ | ==Active |
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⚫ | ==Active substances== | ||
Available neonicotinoid insecticides: | Available neonicotinoid insecticides include: | ||
*] | *] | ||
*] | *] | ||
*] | *] | ||
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*] | *] | ||
*] | *] | ||
*] | *] | ||
==References== | ==References== | ||
{{reflist}} | {{reflist}} | ||
=== More External Links on Bee Deaths === | |||
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Revision as of 19:21, 26 November 2008
Neonicotinoids are a class of insecticides which act on the central nervous system of insects with lower toxicity to mammals. Neonicotinoidss are among the most widely used insecticides worldwide, but recently the uses of some members of this class have been restricted due to a possible connection to Colony Collapse Disorder.
Mode of action
The mode of action of neonicotinoids is similar to the natural insecticide nicotine, which acts on the central nervous system. In insects, neonicatinoids cause paralysis which leads to death, often within a few hours. However, they are much less toxic to mammals and under the WHO / EPA classification these compounds are placed toxicity class II or class III. Because the neonicotinoids block a specific neural pathway that is more abundant in insects than warm-blooded animals, these insecticides are selectively more toxic to insects than mammals.
They bind at a specific site, the postsynaptic nicotinic acetylcholine receptor, and there are no records of cross-resistance to the carbamate, organophosphate, or synthetic pyrethroid insecticides, thus making them important for management of insecticide resistance. As a group they are effective against sucking insects such as aphids, but also chewing insects such as Coleoptera and some Lepidoptera.
Use
Imidacloprid is possibly the most widely used insecticide, both within the mode of action group and in the world-wide market. It is now applied against soil, seed, timber and animal pests as well as foliar treatments for crops including: cereals, cotton, grain legumes, potatoes, pome fruits, rice, turf and vegetables. It is systemic with particularly effective against sucking insects and has a long residual activity. The application rates for neonicotinoid insecticides are much lower than older, traditionally used insecticides.
Thiamethoxam's chemical structure is slightly different from other neonicotinoid insecticides, making it highly water soluble and thus it is readily translocated in plant tissue.
In 2001, the US Patent and Trademark Office ruled in favor of Syngenta when the company filed suit against Bayer to protect its patent on a class of neonicotinoid insecticides.
Environmental impact
There is controversy over the role of neonicotinoids in relation to pesticide toxicity to bees and imidacloprid effects on bee population. Neonicotinoids have been strictly limited in France since the 1990s, when they were implicated in a mass die-off of the bee population. It is believed by some to account for worker bees neglecting to provide food for eggs and larvae, and for a breakdown of the bees' navigational abilities and possibly leading to what has become generally known as Colony Collapse Disorder, which is usually associated with the mite pest Varroa destructor.
In May 2008, Germany banned seed treatment with neonicotinoids due to negative affects upon bee colonies. Bee keepers suffered a severe decline linked to the use of clothianidin in the Baden-Württemberg region of Germany, allegedly connected to a failure to apply a 'glue' agent that affixes the compound to the coats of seeds. The manufacturer maintains that without the fixative agent, the compound drifted into the environment from sown rapeseed and sweetcorn and then affected the honeybees.
Active substances
Available neonicotinoid insecticides include:
References
- Guide to pesticide modes of action http://www.dropdata.org/RPU/pesticides_MoA.htm#neonicatinoids
- http://www.nationalpotatocouncil.org/NPC/p_documents/document_280607084102.pdf
- Colony Collapse Disorder http://www.telegraph.co.uk/news/main.jhtml?xml=/news/2007/04/01/nbees01.xml
- Mysterious Bee Deaths Linked to Pesticides http://www.livescience.com/animals/070615_ap_bee_trouble.html
- Germany bans pesticides linked to bee colony collapse