Insecticide: Difference between revisions

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'''Insecticides''' are chemicals that kill [[insect]]s. Manufactured insecticides have long been deemed necessary to kill insects that have [[venom|venomous]] or lethal bites, or those which simply have an irritating bite or sting.  Many insects and particularly their [[larva|larvae]] attack [[plant]]s and [[cash crop]]s and so are the bane of farmers and gardeners.  Insecticides are indicated for [[agriculture|agricultural]] use where large quantities of highly-effective poison are required.
'''Insecticides''' are materials that kill, repel or regulate the growth of [[insect]]s. They are wilfully used against those insects that are considered pest insects, although often they may kill beneficial non-target insects.


Using such poisons is not without consequences. For one thing, insecticides do not discriminate, killing insects humans find useful as well as those that are destructive. In addition, strong poisons may harm or even kill wild and domestic [[fish]] and [[animal]]s as well.  
Often [[miticide]]s (or acaricides) are included in the insecticid category. Insecticides may include substances developed to target life stages of insects or mites, thus may be referred to as adulticides, larvacides, or ovicides. Biological insecticides may be toxins produced by cultured organisms or they may be microscopic organisms themselves.


== Insecticide resistance ==
Some insects are regarded as pests because they compete with humans for food supplies, make foods unsightly and unappealing, vector diseases, damage wooden structures, or subject humans to irritating stings or bites. Insect [[larva|larvae]] may damage crop [[plant]]s or harvested food, and so are the bane of farmers and gardeners. Insecticides are often used in [[agriculture|agricultural]], to control pest insects. They are also used for public health; to control mosquitoes, fleas and other disease carrying insects.
Use of insecticides is associated to insect resistance and often, as a result, more extensive use of the said insecticides. Insecticide resistance is a topic of concern that has been traditionally studied by two groups of scientists: agronomists and ecologists on the one hand, and medical scientists on the other hand. Concern has been voiced that there exists too little interaction between the two groups.<ref name="pmid18060069">{{cite journal |author=Bourguet D ''et al'' |title=Structure of the scientific community modelling the evolution of resistance |journal=PLoS ONE |volume=2 |pages=e1275 |year=2007 |pmid=18060069 |doi=10.1371/journal.pone.0001275|url=http://www.plosone.org/article/info:doi/10.1371/journal.pone.0001275#top}}</ref>


==References==
Using insecticides may have unwanted secondary consequences. Insecticides may be toxic or detrimental to non-target organisms such as humans, fish and wildlife, and beneficial insects such as pollinators. Ground and surface waters may be polluted by insecticide runoff. Insecticides may kill or disrupt biologogical control agents, to the point of sometimes creating a backlash of explosive population growth of a pest insect.
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Best practices in modern insecticide use is to attempt to reduce insecticide usage through better understanding of pest insect life cycles, natural control agents, and acceptance of a predetermined level of damage. This field is called "[[Integrated Pest Management]]" (IPM). A farmer who may have sprayed an orchard on a regular schedule 7 or 8 times during the growing season, may be able to reduce that schedule by half or more, according to the monitoring of actual pest levels by an IPM advisor.
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[[Category: Biology Workgroup]]
[[Category: Agriculture Workgroup]][[Category:Suggestion Bot Tag]]

Latest revision as of 11:01, 1 September 2024

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Insecticides are materials that kill, repel or regulate the growth of insects. They are wilfully used against those insects that are considered pest insects, although often they may kill beneficial non-target insects.

Often miticides (or acaricides) are included in the insecticid category. Insecticides may include substances developed to target life stages of insects or mites, thus may be referred to as adulticides, larvacides, or ovicides. Biological insecticides may be toxins produced by cultured organisms or they may be microscopic organisms themselves.

Some insects are regarded as pests because they compete with humans for food supplies, make foods unsightly and unappealing, vector diseases, damage wooden structures, or subject humans to irritating stings or bites. Insect larvae may damage crop plants or harvested food, and so are the bane of farmers and gardeners. Insecticides are often used in agricultural, to control pest insects. They are also used for public health; to control mosquitoes, fleas and other disease carrying insects.

Using insecticides may have unwanted secondary consequences. Insecticides may be toxic or detrimental to non-target organisms such as humans, fish and wildlife, and beneficial insects such as pollinators. Ground and surface waters may be polluted by insecticide runoff. Insecticides may kill or disrupt biologogical control agents, to the point of sometimes creating a backlash of explosive population growth of a pest insect.

Best practices in modern insecticide use is to attempt to reduce insecticide usage through better understanding of pest insect life cycles, natural control agents, and acceptance of a predetermined level of damage. This field is called "Integrated Pest Management" (IPM). A farmer who may have sprayed an orchard on a regular schedule 7 or 8 times during the growing season, may be able to reduce that schedule by half or more, according to the monitoring of actual pest levels by an IPM advisor.