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W1870330131 endingPage "189" @default.
W1870330131 startingPage "179" @default.
W1870330131 abstract "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 maybe 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.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.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 insecteradication. Overall, there are still major gaps in surveillance and selective eradication technologies for most insects." @default.
W1870330131 created "2016-06-24" @default.
W1870330131 creator A5002284568 @default.
W1870330131 creator A5002562522 @default.
W1870330131 creator A5007103574 @default.
W1870330131 creator A5008541964 @default.
W1870330131 creator A5058791397 @default.
W1870330131 creator A5069661769 @default.
W1870330131 creator A5081603359 @default.
W1870330131 date "2013-11-21" @default.
W1870330131 modified "2023-10-12" @default.
W1870330131 title "From integrated pest management to integrated pest eradication: technologies and future needs" @default.
W1870330131 cites W100472449 @default.
W1870330131 cites W114143029 @default.
W1870330131 cites W124502926 @default.
W1870330131 cites W1498458588 @default.
W1870330131 cites W1512102673 @default.
W1870330131 cites W1529193408 @default.
W1870330131 cites W1532926350 @default.
W1870330131 cites W1549374978 @default.
W1870330131 cites W1562990638 @default.
W1870330131 cites W158387054 @default.
W1870330131 cites W1935784338 @default.
W1870330131 cites W1942950790 @default.
W1870330131 cites W1963641689 @default.
W1870330131 cites W1965545273 @default.
W1870330131 cites W1967564010 @default.
W1870330131 cites W1970297928 @default.
W1870330131 cites W1971436105 @default.
W1870330131 cites W1971581267 @default.
W1870330131 cites W197895232 @default.
W1870330131 cites W1988496787 @default.
W1870330131 cites W1988770829 @default.
W1870330131 cites W1992840415 @default.
W1870330131 cites W1992947747 @default.
W1870330131 cites W2004274225 @default.
W1870330131 cites W2005240622 @default.
W1870330131 cites W2012431898 @default.
W1870330131 cites W2017971345 @default.
W1870330131 cites W2025867412 @default.
W1870330131 cites W2028993011 @default.
W1870330131 cites W2029387218 @default.
W1870330131 cites W2036024377 @default.
W1870330131 cites W2036568006 @default.
W1870330131 cites W2037006161 @default.
W1870330131 cites W2039452526 @default.
W1870330131 cites W2039546460 @default.
W1870330131 cites W2045598918 @default.
W1870330131 cites W2047089531 @default.
W1870330131 cites W2048558403 @default.
W1870330131 cites W2052337437 @default.
W1870330131 cites W2059237973 @default.
W1870330131 cites W2061034528 @default.
W1870330131 cites W2065393782 @default.
W1870330131 cites W2069846846 @default.
W1870330131 cites W2079683437 @default.
W1870330131 cites W2080067847 @default.
W1870330131 cites W2081185991 @default.
W1870330131 cites W2082452438 @default.
W1870330131 cites W2083807739 @default.
W1870330131 cites W2086461320 @default.
W1870330131 cites W2087837392 @default.
W1870330131 cites W2089846981 @default.
W1870330131 cites W2100250262 @default.
W1870330131 cites W2101353772 @default.
W1870330131 cites W2101393013 @default.
W1870330131 cites W2101544151 @default.
W1870330131 cites W2104461822 @default.
W1870330131 cites W2104960188 @default.
W1870330131 cites W2108783870 @default.
W1870330131 cites W2122754759 @default.
W1870330131 cites W2129599322 @default.
W1870330131 cites W2130092591 @default.
W1870330131 cites W2134769985 @default.
W1870330131 cites W2135529411 @default.
W1870330131 cites W2145593041 @default.
W1870330131 cites W2162798631 @default.
W1870330131 cites W2164122267 @default.
W1870330131 cites W2164170185 @default.
W1870330131 cites W2164513826 @default.
W1870330131 cites W2165685993 @default.
W1870330131 cites W2167432348 @default.
W1870330131 cites W2174267014 @default.
W1870330131 cites W2174392680 @default.
W1870330131 cites W2180540612 @default.
W1870330131 cites W2240868125 @default.
W1870330131 cites W248425378 @default.
W1870330131 cites W2484797369 @default.
W1870330131 cites W2515486261 @default.
W1870330131 cites W29430845 @default.
W1870330131 cites W4239736672 @default.
W1870330131 cites W4240376186 @default.
W1870330131 cites W4244465644 @default.
W1870330131 cites W4244507156 @default.
W1870330131 cites W4254623698 @default.
W1870330131 cites W977778270 @default.
W1870330131 cites W991108169 @default.
W1870330131 doi "https://doi.org/10.1002/ps.3670" @default.