Resilience and robustness of IPM in protected horticulture in the face of potential invasive pests
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Other documents of the author: Perez-Hedo, Meritxell; Suay, R.; Alonso, M.; Ruocco, M.; Giorgini, M.; Poncet, C.; Urbaneja, Alberto
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http://dx.doi.org/10.1016/j.cropro.2016.11.001 |
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Title
Resilience and robustness of IPM in protected horticulture in the face of potential invasive pestsAuthor (s)
Date
2016-11-11Publisher
ElsevierBibliographic citation
PÉREZ HEDO, Meritxell; SUAY, R.; ALONSO, M.; RUOCCO, M.; GIORGINI, M.; PONCET, C.; URBANEJA, Alberto. Resilience and robustness of IPM in protected horticulture in the face of potential invasive pests. Crop Protection (2016), online, pp. 1-9Type
info:eu-repo/semantics/articlePublisher version
http://www.sciencedirect.com/science/article/pii/S0261219416303143Subject
Abstract
Recently, various approaches for the biological control of major pests in protected crops have successfully
been adopted. These successes have primarily occurred via the selection, release and/or conservation of
g ... [+]
Recently, various approaches for the biological control of major pests in protected crops have successfully
been adopted. These successes have primarily occurred via the selection, release and/or conservation of
generalist native predators that naturally colonize Mediterranean crops that are highly adapted to local
environmental conditions. These generalist predators have resulted very effective in controlling key
pests; as a result, pesticide use has been reduced considerably. In addition, because these predators are
typically highly polyphagous, horticultural crops have become more resilient to newly emerging pests,
which are preyed upon by these predators. Possibilities to further strengthen pest management in
horticultural crops have recently arisen, such as the use of bene
fi
cial microbes (BM) to induce plant
resilience. In this review, we used a tomato crop as an example to present two new, highly interrelated
plant defense induction strategies: the use of Miridae zoophytophagous predators and the use of
Tri-
choderma
spp. microbial biological control agents. Both the mirid predators and
Trichoderma
symbiotic
fungi can activate direct and indirect plant defense responses, which may increase the robustness of pest
management against invading organisms. The practical use of these new approaches is discussed. [-]
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Crop Protection (2016), onlineRights
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info:eu-repo/semantics/restrictedAccess
info:eu-repo/semantics/restrictedAccess
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