Control of postharvest fungal rots on citrus fruit and sweet cherries using a pomegranate peel extract

•A pomegranate peel extract (PGE) was evaluated as a natural fungicide to control postharvest rots.•PGE revealed a strong in vitro activity against germination of fungal conidia.•In preventive treatments PGE was very effective on inoculated lemons, grapefruits and apples.•PGE showed residual effect...

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Published in:	Postharvest biology and technology Vol. 114; pp. 54 - 61
Main Authors:	Li Destri Nicosia, Maria G., Pangallo, Sonia, Raphael, Ginat, Romeo, Flora V., Strano, Maria C., Rapisarda, Paolo, Droby, Samir, Schena, Leonardo
Format:	Journal Article
Language:	English
Published:	Elsevier B.V 01-04-2016
Subjects:	Apples Botrytis cinerea Citrus Citrus fruit Monilinia laxa Natural fungicide Penicillium digitatum Penicillium expansum Penicillium italicum Pomegranate peel extract Postharvest rots Prunus Sweet cherries Apples Postharvest rots Pomegranate peel extract Citrus fruit Natural fungicide Sweet cherries
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Abstract	•A pomegranate peel extract (PGE) was evaluated as a natural fungicide to control postharvest rots.•PGE revealed a strong in vitro activity against germination of fungal conidia.•In preventive treatments PGE was very effective on inoculated lemons, grapefruits and apples.•PGE showed residual effect by inhibiting infections made 6, 12, and 24h after its application.•PGE exhibited curative activity reducing rots when applied 6 and 24h after the pathogens.•PGE reduced natural rots under semi-commercial conditions on sweet cherries and lemons.•PGE extract did not have any apparent phytotoxic effect on treated fruits. A pomegranate peel extract (PGE) was evaluated as a natural antifungal preparation for the control of postharvest rots. In vitro trials revealed a strong fungicidal activity against germination of conidia of Botrytis cinerea, Penicillium digitatum and Penicillium expansum. Almost complete inhibition of all fungal spore germination was achieved after 20h of incubation with PGE. PGE was very effective in inhibiting decay following artificial inoculations of lemons by P. digitatum and Penicillium italicum, grapefruits by P. italicum and apples by P. expansum . At concentrations of 1.2 and 12g/l complete inhibition of infection was achieved in the majority of host pathogen combinations. Furthermore, it was also effective in reducing natural rots under semi-commercial conditions on both sweet cherries and lemons: on cherries Monilinia laxa and B. cinerea rots were reduced by 61.0% (cv. Bigarreau Moreau) and 95.6% (cv. Giorgia), respectively, and on lemons 87.8% reduction of total rot was achieved. PGE treatment showed residual effect as it was effective in inhibiting infections made at 6, 12, and 24h after the application of the extract in fruit wounds. Additionally, PGE exhibited curative activity and reduced the incidence of rots when it was applied 6 and 24h after inoculation. Considering that PGE was extracted and stabilized using safe chemicals (food grade ethanol and citric acid) and that it did not have any apparent phytotoxic effect on treated fruit, PGE proved to be effectively eco-friendly and safe control mean for postharvest rots of fruit.
AbstractList	•A pomegranate peel extract (PGE) was evaluated as a natural fungicide to control postharvest rots.•PGE revealed a strong in vitro activity against germination of fungal conidia.•In preventive treatments PGE was very effective on inoculated lemons, grapefruits and apples.•PGE showed residual effect by inhibiting infections made 6, 12, and 24h after its application.•PGE exhibited curative activity reducing rots when applied 6 and 24h after the pathogens.•PGE reduced natural rots under semi-commercial conditions on sweet cherries and lemons.•PGE extract did not have any apparent phytotoxic effect on treated fruits. A pomegranate peel extract (PGE) was evaluated as a natural antifungal preparation for the control of postharvest rots. In vitro trials revealed a strong fungicidal activity against germination of conidia of Botrytis cinerea, Penicillium digitatum and Penicillium expansum. Almost complete inhibition of all fungal spore germination was achieved after 20h of incubation with PGE. PGE was very effective in inhibiting decay following artificial inoculations of lemons by P. digitatum and Penicillium italicum, grapefruits by P. italicum and apples by P. expansum . At concentrations of 1.2 and 12g/l complete inhibition of infection was achieved in the majority of host pathogen combinations. Furthermore, it was also effective in reducing natural rots under semi-commercial conditions on both sweet cherries and lemons: on cherries Monilinia laxa and B. cinerea rots were reduced by 61.0% (cv. Bigarreau Moreau) and 95.6% (cv. Giorgia), respectively, and on lemons 87.8% reduction of total rot was achieved. PGE treatment showed residual effect as it was effective in inhibiting infections made at 6, 12, and 24h after the application of the extract in fruit wounds. Additionally, PGE exhibited curative activity and reduced the incidence of rots when it was applied 6 and 24h after inoculation. Considering that PGE was extracted and stabilized using safe chemicals (food grade ethanol and citric acid) and that it did not have any apparent phytotoxic effect on treated fruit, PGE proved to be effectively eco-friendly and safe control mean for postharvest rots of fruit. A pomegranate peel extract (PGE) was evaluated as a natural antifungal preparation for the control of postharvest rots. In vitro trials revealed a strong fungicidal activity against germination of conidia of Botrytis cinerea, Penicillium digitatum and Penicillium expansum. Almost complete inhibition of all fungal spore germination was achieved after 20 h of incubation with PGE. PGE was very effective in inhibiting decay following artificial inoculations of lemons by P. digitatum and Penicillium italicum, grapefruits by P. italicum and apples by P. expansum . At concentrations of 1.2 and 12 g/l complete inhibition of infection was achieved in the majority of host pathogen combinations. Furthermore, it was also effective in reducing natural rots under semi-commercial conditions on both sweet cherries and lemons: on cherries Monilinia laxa and B. cinerea rots were reduced by 61.0% (cv. Bigarreau Moreau) and 95.6% (cv. Giorgia), respectively, and on lemons 87.8% reduction of total rot was achieved. PGE treatment showed residual effect as it was effective in inhibiting infections made at 6, 12, and 24 h after the application of the extract in fruit wounds. Additionally, PGE exhibited curative activity and reduced the incidence of rots when it was applied 6 and 24 h after inoculation. Considering that PGE was extracted and stabilized using safe chemicals (food grade ethanol and citric acid) and that it did not have any apparent phytotoxic effect on treated fruit, PGE proved to be effectively eco-friendly and safe control mean for postharvest rots of fruit.
Author	Raphael, Ginat Droby, Samir Li Destri Nicosia, Maria G. Strano, Maria C. Pangallo, Sonia Romeo, Flora V. Schena, Leonardo Rapisarda, Paolo
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Keywords	Apples Postharvest rots Pomegranate peel extract Citrus fruit Natural fungicide Sweet cherries
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Snippet	•A pomegranate peel extract (PGE) was evaluated as a natural fungicide to control postharvest rots.•PGE revealed a strong in vitro activity against germination... A pomegranate peel extract (PGE) was evaluated as a natural antifungal preparation for the control of postharvest rots. In vitro trials revealed a strong...
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SubjectTerms	Apples Botrytis cinerea Citrus Citrus fruit Monilinia laxa Natural fungicide Penicillium digitatum Penicillium expansum Penicillium italicum Pomegranate peel extract Postharvest rots Prunus Sweet cherries
Title	Control of postharvest fungal rots on citrus fruit and sweet cherries using a pomegranate peel extract
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