Apple rings as a model for fruit drying behavior: Effects of surfactant and reduced osmolality reveal biological mechanisms

G. B. Bengtsson; M. S. Rahman; R. A. Stanley; C. O. Perera

doi:10.1111/j.1365-2621.2003.tb05712.x

Apple rings as a model for fruit drying behavior: Effects of surfactant and reduced osmolality reveal biological mechanisms

G. B. Bengtsson^*, M. S. Rahman, R. A. Stanley, C. O. Perera

^*Corresponding author for this work

Food Science and Nutrition

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Drying behavior at 60°C was studied in uniform rings of apple fruit parenchyma after vacuum infiltration of fluids with different osmolality and surface tension. All infiltrations gave a halved final porosity. Both reduced surface tension and reduced osmolality caused tissue destruction shown as darker visual color. Addition of surfactant resulted in a high drying rate on a surface area basis corresponding to 15% more water lost after 2 h. The results indicate that biological mechanisms related to function and structure of living tissue are important for drying behavior. The apple ring model is suitable for further studies of biological and other types of drying behavior in relation to the tissue organization.

Original language	English
Pages (from-to)	563-569
Number of pages	7
Journal	Journal of Food Science
Volume	68
Issue number	2
DOIs	https://doi.org/10.1111/j.1365-2621.2003.tb05712.x
Publication status	Published - Mar 2003

Keywords

Apple
Drying mechanisms
Structure
Surfactant
Vacuum infiltration

ASJC Scopus subject areas

Food Science

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10.1111/j.1365-2621.2003.tb05712.x

Cite this

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title = "Apple rings as a model for fruit drying behavior: Effects of surfactant and reduced osmolality reveal biological mechanisms",

abstract = "Drying behavior at 60°C was studied in uniform rings of apple fruit parenchyma after vacuum infiltration of fluids with different osmolality and surface tension. All infiltrations gave a halved final porosity. Both reduced surface tension and reduced osmolality caused tissue destruction shown as darker visual color. Addition of surfactant resulted in a high drying rate on a surface area basis corresponding to 15% more water lost after 2 h. The results indicate that biological mechanisms related to function and structure of living tissue are important for drying behavior. The apple ring model is suitable for further studies of biological and other types of drying behavior in relation to the tissue organization.",

keywords = "Apple, Drying mechanisms, Structure, Surfactant, Vacuum infiltration",

author = "Bengtsson, {G. B.} and Rahman, {M. S.} and Stanley, {R. A.} and Perera, {C. O.}",

year = "2003",

month = mar,

doi = "10.1111/j.1365-2621.2003.tb05712.x",

language = "English",

volume = "68",

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journal = "Journal of Food Science",

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T1 - Apple rings as a model for fruit drying behavior

T2 - Effects of surfactant and reduced osmolality reveal biological mechanisms

AU - Bengtsson, G. B.

AU - Rahman, M. S.

AU - Stanley, R. A.

AU - Perera, C. O.

PY - 2003/3

Y1 - 2003/3

N2 - Drying behavior at 60°C was studied in uniform rings of apple fruit parenchyma after vacuum infiltration of fluids with different osmolality and surface tension. All infiltrations gave a halved final porosity. Both reduced surface tension and reduced osmolality caused tissue destruction shown as darker visual color. Addition of surfactant resulted in a high drying rate on a surface area basis corresponding to 15% more water lost after 2 h. The results indicate that biological mechanisms related to function and structure of living tissue are important for drying behavior. The apple ring model is suitable for further studies of biological and other types of drying behavior in relation to the tissue organization.

AB - Drying behavior at 60°C was studied in uniform rings of apple fruit parenchyma after vacuum infiltration of fluids with different osmolality and surface tension. All infiltrations gave a halved final porosity. Both reduced surface tension and reduced osmolality caused tissue destruction shown as darker visual color. Addition of surfactant resulted in a high drying rate on a surface area basis corresponding to 15% more water lost after 2 h. The results indicate that biological mechanisms related to function and structure of living tissue are important for drying behavior. The apple ring model is suitable for further studies of biological and other types of drying behavior in relation to the tissue organization.

KW - Apple

KW - Drying mechanisms

KW - Structure

KW - Surfactant

KW - Vacuum infiltration

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M3 - Article

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VL - 68

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JO - Journal of Food Science

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ER -

Apple rings as a model for fruit drying behavior: Effects of surfactant and reduced osmolality reveal biological mechanisms

Abstract

Keywords

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