Scald development and the levels of α-farnesene and conjugated triene hydroperoxides in apple peel after treatment with sucrose ester-based coatings in combination with food-approved antioxidants

Scald development and the levels of α-farnesene and conjugated triene hydroperoxides in apple peel after treatment with sucrose ester-based coatings in combination with food-approved antioxidants

Ascorbyl palmitate and n-propyl gallate were applied either separately or together to ‘Granny Smith’ apples ( Malus domestica Borkh.) as a possible treatment to control scald development. The antioxidants were applied as formulations with Semperfresh (a sucrose ester-based fruit coating). Their effe...

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Bibliographic Details
Published in:Postharvest biology and technology Vol. 7; no. 1; pp. 41 - 49
Main Authors: Bauchot, A.D., John, P.
Format: Journal Article
Language:English
Published: Elsevier B.V 1996
Subjects:
ALMACENAMIENTO
ANTIOXIDANTES
ANTIOXIDANTS
ANTIOXYDANT
Apple scald
APPLES
Ascorbyl palmitate
Conjugated triene hydroperoxides
CONTROL DE ENFERMEDADES
CONTROLE DE MALADIES
Diphenylamine
DISEASE CONTROL
ECHAUDURE
ESCALDADURA
GALATO
GALLATE
GALLATES
Malus domestica Borkh
MANZANA
n-Propyl gallate
POMME
SCALD
Semperfresh
STOCKAGE
STORAGE
TEMPERATURA
TEMPERATURE
α-farnesene
Ascorbyl palmitate
Apple scald
Malus domestica Borkh
Semperfresh
α-farnesene
Diphenylamine
Conjugated triene hydroperoxides
n-Propyl gallate
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Summary:Ascorbyl palmitate and n-propyl gallate were applied either separately or together to ‘Granny Smith’ apples ( Malus domestica Borkh.) as a possible treatment to control scald development. The antioxidants were applied as formulations with Semperfresh (a sucrose ester-based fruit coating). Their effect on scald development and also on α-farnesene and conjugated triene hydroperoxide (CTH) levels was compared to that of diphenylamine (DPA). After four months storage at 0 °C and ten days at 20 °C, untreated apples were affected on 10–25% of their surface area. Apples treated with ascorbyl palmitate plus Semperfresh delayed scald development during the assessment at room temperature, while DPA provided almost complete control. After six months at 0 °C and then ten days at room temperature, DPA-treated apples were only slightly scalded, whereas all the other apples were severely scalded. After four months storage, the beneficial effect of DPA treatment was accompanied by a slightly higher α-farnesene level than that of the control, and by CTH levels one third to one half than those of the control. Compared to the DPA treatment, coating with ascorbyl palmitate plus Semperfresh led to similar levels of CTH, but the α-farnesene level was much lower. It is concluded that the limited scald control obtained with Semperfresh plus ascorbyl palmitate, unlike the greater control seen with DPA, is not due to an inhibition of α-farnesene oxidation to CTH.
Bibliography:9600807
J11
ISSN:0925-5214
1873-2356
DOI:10.1016/0925-5214(95)00019-4