Fiorella Neri scite author profile

Nine plant volatiles were tested for their activity in vitro and in vivo against Penicillium expansum , the cause of blue mould of pear. In vitro spore germination and mycelial growth assay showed a consistent fungicidal activity by trans -2-hexenal, carvacrol, trans -cinnamaldehyde and citral, while hexanal (-)-carvone, p -anisaldehyde, eugenol and 2-nonanone exhibited a progressively lower inhibition. trans -2-Hexenal was the best inhibitor of conidial germination [MIC (minimum inhibitory concentration) = 24·6 µ L L − 1 ; ED 50 = 10·2 µ L L − 1 ], while carvacrol was the best inhibitor of mycelial growth (MIC = 24·6 µ L L − 1 ; ED 50 = 9 µ L L − 1 ). The four most active compounds in in vitro studies were tested in vivo as fumigants against blue mould on pear cv. Conference. Best control was achieved by trans -2-hexenal vapour treatments (12·5 µ L L − 1 ) when applied over a 24-h period, beginning 24 h after inoculation. In contrast, carvacrol (12·5 -200 µ L L − 1 ), and trans -cinnamaldehyde (50-400 µ L L − 1 ) were ineffective and citral (200 µ L L − 1 ) showed only slight effect.

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Physical treatments to control postharvest diseases of fresh fruits and vegetables

Usall

Ippolito

Sisquella

et al. 2016

Postharvest Biology and Technology

184

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Fungicidal Activity of Plant Volatile Compounds for Controlling Monilinia laxa in Stone Fruit

et al. 2007

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Nine plant-volatile compounds were tested for their activity against Monilinia laxa, the cause of brown rot in stone fruit. In vitro trials on conidial germination and mycelial growth showed a consistent fungicidal activity of trans-2-hexenal, carvacrol, and citral, whereas trans-cinnamaldehyde, hexanal, (-)-carvone, eugenol, 2-nonanone, and p-anisaldehyde exhibited a progressively lower inhibition. The best inhibitor of conidial germination was trans-2-hexenal (effective dose for 50 and 90% inhibition [ED50 and ED95] = 7.53 and 9.4 μl/liter, respectively; minimal inhibitory concentration [MIC] = 12.3 μl/liter], whereas carvacrol was the best inhibitor of mycelial growth (ED50 and ED95 = 2 and 3.4 μl/liter, respectively; MIC = 6.1 μl/liter). The three most active compounds in in vitro studies also were tested in vivo as postharvest biofumigants. The best control of brown rot was with trans-2-hexenal (efficacy ranging from 46.2 to 80.3%, depending on cultivar), whereas citral and carvacrol resulted in a lower efficacy of 40 and 32.9%, respectively. Fumigation with trans-2-hexenal at concentrations that stopped decay did not cause any visible disorders to plum, whereas it was phytotoxic to apricot, peach, and nectarine and produced off-odors or off-flavors in all species of stone fruit tested.

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Control of Neofabraea alba by plant volatile compounds and hot water

Neri

Mari

Brigati

et al. 2009

Postharvest Biology and Technology

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Postharvest biocontrol of Monilinia laxa, Monilinia fructicola and Monilinia fructigena on stone fruit by two Aureobasidium pullulans strains

et al. 2012

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Fiorella Neri

Control of Penicillium expansum by plant volatile compounds

Physical treatments to control postharvest diseases of fresh fruits and vegetables

Fungicidal Activity of Plant Volatile Compounds for Controlling Monilinia laxa in Stone Fruit

Control of Neofabraea alba by plant volatile compounds and hot water

Postharvest biocontrol of Monilinia laxa, Monilinia fructicola and Monilinia fructigena on stone fruit by two Aureobasidium pullulans strains

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