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From integrated pest management to integrated pest eradication: technologies and future needs
Author(s) -
Suckling David M,
Stringer Lloyd D,
Stephens Andrea EA,
Woods Bill,
Williams David G,
Baker Greg,
ElSayed Ashraf M
Publication year - 2014
Publication title -
pest management science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.296
H-Index - 125
eISSN - 1526-4998
pISSN - 1526-498X
DOI - 10.1002/ps.3670
Subject(s) - integrated pest management , emerging technologies , broad spectrum , microbiology and biotechnology , pest control , population , biology , pest analysis , risk analysis (engineering) , business , ecology , computer science , environmental health , marketing , medicine , chemistry , artificial intelligence , combinatorial chemistry
Abstract BACKGROUND With growing globalization and trade, insect incursions are increasing worldwide. A proportion of incursions involve pests of major economic crops (e.g. Mediterranean fruit fly), conservation value (e.g. tramp ants) or health significance (e.g. mosquitoes), and may be the targets of eradication programmes. Historically, such responses have included the use of broad‐spectrum insecticides. However, with increasing public awareness of the negative aspects of pesticides, new environmentally friendly and effective techniques are needed. Here, we review and evaluate a range of selective to broad‐spectrum tactical options for suppression which either have, or show potential for, integration within arthropod eradication programmes . RESULTS Most of the available technologies have their roots in pest management, but higher efficacy is required. Further refinement may be needed for use in eradication. Integration of several tactics is usually needed, as compatible tools can be used simultaneously to target different parts of the pest life cycle. However, not all technologies are fully compatible; for example, the simultaneous use of mass trapping and the sterile insect technique ( SIT ) may be suboptimal, although sequential application may still be effective . CONCLUSIONS Broad‐spectrum insecticides are generally incompatible with some biologically based technologies such as the SIT , but may be used to reduce the population so that density‐dependent tactics can be used. Several novel technologies with fewer nontarget impacts have been proposed in recent years, and need to be properly evaluated for their applicability to insect eradication. Overall, there are still major gaps in surveillance and selective eradication technologies for most insects. © 2013 Society of Chemical Industry

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