Several elicitors, stimulating induced resistance mechanisms, have potential in preventing or mitigating pathogen infections. Some of these compounds, triggering the production of jasmonic acid (JA), a precursor of herbivore-induced plant volatiles, could also play a central role in indirect resistance to pest species, by improving beneficial arthropod performance, and necrotrophic pathogens. In the current work, Trichoderma gamsii/T. asperellum and silica gel treatments-alone and in combination-were studied to evaluate the plant defence mechanism on grapevines (Vitis vinifera L.) by laboratory and field trials. JA production level was measured before and after Plasmopara viticola infection on potted vines. JA production induced by silica gel was higher than that caused by Trichoderma before infection. In Trichoderma-Treated plants, JA production increased after P. viticola inoculation. In vineyard field trials, Mymaridae (Hymenoptera: Chalcidoidea) showed higher captures in transparent sticky traps on silica gel-Treated plants, in comparison with control. On the other hand, no significant attraction was detected for Ichneumonoidea and other Chalcidoidea in silica gel and T. gamsii/T. asperellum-Treated plants. The potential effects of elicitors are discussed, in the frame of attract and reward strategy.

The role of Trichoderma spp. and silica gel in plant defence mechanisms and insect response in vineyard / Parrilli, M.; Sommaggio, D.; Tassini, C.; Di Marco, S.; Osti, F.; Ferrari, R.; Metruccio, E.; Masetti, A.; Burgio, G.. - In: BULLETIN OF ENTOMOLOGICAL RESEARCH. - ISSN 0007-4853. - 109:6(2019), pp. 771-780. [10.1017/S0007485319000075]

The role of Trichoderma spp. and silica gel in plant defence mechanisms and insect response in vineyard

Sommaggio D.;
2019

Abstract

Several elicitors, stimulating induced resistance mechanisms, have potential in preventing or mitigating pathogen infections. Some of these compounds, triggering the production of jasmonic acid (JA), a precursor of herbivore-induced plant volatiles, could also play a central role in indirect resistance to pest species, by improving beneficial arthropod performance, and necrotrophic pathogens. In the current work, Trichoderma gamsii/T. asperellum and silica gel treatments-alone and in combination-were studied to evaluate the plant defence mechanism on grapevines (Vitis vinifera L.) by laboratory and field trials. JA production level was measured before and after Plasmopara viticola infection on potted vines. JA production induced by silica gel was higher than that caused by Trichoderma before infection. In Trichoderma-Treated plants, JA production increased after P. viticola inoculation. In vineyard field trials, Mymaridae (Hymenoptera: Chalcidoidea) showed higher captures in transparent sticky traps on silica gel-Treated plants, in comparison with control. On the other hand, no significant attraction was detected for Ichneumonoidea and other Chalcidoidea in silica gel and T. gamsii/T. asperellum-Treated plants. The potential effects of elicitors are discussed, in the frame of attract and reward strategy.
2019
109
6
771
780
The role of Trichoderma spp. and silica gel in plant defence mechanisms and insect response in vineyard / Parrilli, M.; Sommaggio, D.; Tassini, C.; Di Marco, S.; Osti, F.; Ferrari, R.; Metruccio, E.; Masetti, A.; Burgio, G.. - In: BULLETIN OF ENTOMOLOGICAL RESEARCH. - ISSN 0007-4853. - 109:6(2019), pp. 771-780. [10.1017/S0007485319000075]
Parrilli, M.; Sommaggio, D.; Tassini, C.; Di Marco, S.; Osti, F.; Ferrari, R.; Metruccio, E.; Masetti, A.; Burgio, G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1302777
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