Plasticized Starch-Based Coatings To Improve Strawberry (Fragaria × Ananassa) Quality and Stability

Starch-based coatings were applied to extend storage life of strawberries (Fragaria × ananassa) stored at 0 °C and 84.8% relative humidity. The effects of amylose content of the starch, the type of plasticizer (glycerol and sorbitol), and the inclusion of antimicrobial agents on coating formulation...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 1998-09, Vol.46 (9), p.3758-3767
Main Authors: García, María A, Martino, Miriam N, Zaritzky, Noemí E
Format: Article
Language:English
Subjects:
ACIDE CITRIQUE
ACIDE SORBIQUE
ACIDO CITRICO
ACIDO SORBICO
ALMACENAMIENTO EN FRIO
ALMIDON DE MAIZ
AMIDON DE MAIS
AMIDON DE POMME DE TERRE
AMILOSA
AMYLOSE
ANTIMICROBIAL PROPERTIES
APTITUD PARA LA CONSERVACION
APTITUDE A LA CONSERVATION
Biological and medical sciences
CALIDAD
CHEMICOPHYSICAL PROPERTIES
CITRIC ACID
COLD STORAGE
CORN STARCH
EDIBLE PROTECTIVE COATINGS
ENDUIT PROTECTEUR
ESTABILIDAD
FECULA DE LA PAPA
FISIOLOGIA POSTCOSECHA
Food industries
FORMULACIONES
FORMULATION
FORMULATIONS
FRAISE
FRESA
Fruit and vegetable industries
Fundamental and applied biological sciences. Psychology
GLICEROL
GLYCEROL
KEEPING QUALITY
PERMEABILIDAD
PERMEABILITE
PERMEABILITY
PHYSIOLOGIE APRES RECOLTE
PLASTICIZERS
POSTHARVEST PHYSIOLOGY
POTASIO
POTASSIUM
POTASSIUM SORBATE
POTATO STARCH
PROPIEDADES ANTIMICROBIANAS
PROPIEDADES FISICOQUIMICAS
PROPRIETE ANTIMICROBIENNE
PROPRIETE PHYSICOCHIMIQUE
PROTECTIVE COATINGS
QUALITE
QUALITY
REVESTIMIENTO DE PROTECCION
SORBIC ACID
SORBITOL
STABILITE
STABILITY
STOCKAGE AU FROID
STORAGE LIFE
STRAWBERRIES
ULTRAESTRUCTURA
ULTRASTRUCTURE
VAPEUR D'EAU
VAPOR DE AGUA
WATER VAPOR MOVEMENT
WATER VAPOR PERMEABILITY
WATER VAPOUR
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Summary:Starch-based coatings were applied to extend storage life of strawberries (Fragaria × ananassa) stored at 0 °C and 84.8% relative humidity. The effects of amylose content of the starch, the type of plasticizer (glycerol and sorbitol), and the inclusion of antimicrobial agents on coating formulation were analyzed. Microstructure characterization of coatings was related to water vapor permeability (WVP) observations. Coatings made with starches with the higher amylose content decreased WVP and weight losses and retained fruit firmness for longer periods than coatings formulated with medium amylose content starches. Coatings with sorbitol showed lower WVPs than glycerol ones. Both sorbitol and glycerol reduced weight losses and maintained texture and surface color of fruits, with 20 g/L sorbitol being the most effective plasticizer option. Modifications of physiological parameters in strawberries such as anthocyanin content, reducing and nonreducing sugars, titratable acidity, and pH were slowed for coated fruits. The formulations with potassium sorbate reduced microbial counts, extending strawberry storage life from 14 days (for control fruits) to 28 days in coated strawberries. The addition of citric acid enhanced antimicrobial action of potassium sorbate. Keywords: Starch coating; plasticizer; strawberry; water vapor permeability; refrigerated storage
ISSN:0021-8561
1520-5118
DOI:10.1021/jf980014c