Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties

Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties

The use of macroalgae in food products is growing due to their techno-functionality and nutritional properties. In this context, an increased understanding of the rheological properties which are relevant for manufacturing and texture is needed. Here we investigated the impact of thermal and mechanical treatments, including high pressure homogenisation (HPH), on the polysaccharide composition, microstructure, and rheological properties of brown algae Laminaria digitata suspensions (5 wt %). Monosaccharide analysis and immunolabeling of alginate in combination with confocal laser scanning microscopy, revealed a sequential release of different polysaccharides as result of the applied shear. Results showed that thermal treatment (70 °C 1 h) and mild shear lead to suspensions of clusters of cells and release of fucoidan and laminarin into the liquid phase, conferring shear thinning properties to the suspensions. High pressure homogenisation was able to completely break the macroalgae cells, reducing particle size and releasing other soluble polysaccharides, in particular alginate, conferring gel properties (G'>G'') to the suspensions. This study contributes to the knowledge of how to design sustainable, innovative and nutritious liquid/semiliquid food products containing macroalgae biomass.

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Main Authors: Malafronte, Loredana, Yilmaz-Turan, Secil, Krona, A., Martínez Sanz, Marta, Vilaplana, Francisco, López-Sanchez, Paloma
Format: artículo biblioteca
Language:English
Published: Elsevier 2021-06-25
Subjects:Algae, Polysaccharides, Suspensions, Rheology, Structure, High pressure homogenisation,
Online Access:http://hdl.handle.net/10261/246693
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spelling dig-iata-es-10261-2466932021-07-29T03:01:47Z Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties Malafronte, Loredana Yilmaz-Turan, Secil Krona, A. Martínez Sanz, Marta Vilaplana, Francisco López-Sanchez, Paloma Algae Polysaccharides Suspensions Rheology Structure High pressure homogenisation The use of macroalgae in food products is growing due to their techno-functionality and nutritional properties. In this context, an increased understanding of the rheological properties which are relevant for manufacturing and texture is needed. Here we investigated the impact of thermal and mechanical treatments, including high pressure homogenisation (HPH), on the polysaccharide composition, microstructure, and rheological properties of brown algae Laminaria digitata suspensions (5 wt %). Monosaccharide analysis and immunolabeling of alginate in combination with confocal laser scanning microscopy, revealed a sequential release of different polysaccharides as result of the applied shear. Results showed that thermal treatment (70 °C 1 h) and mild shear lead to suspensions of clusters of cells and release of fucoidan and laminarin into the liquid phase, conferring shear thinning properties to the suspensions. High pressure homogenisation was able to completely break the macroalgae cells, reducing particle size and releasing other soluble polysaccharides, in particular alginate, conferring gel properties (G'>G'') to the suspensions. This study contributes to the knowledge of how to design sustainable, innovative and nutritious liquid/semiliquid food products containing macroalgae biomass. The work was financially supported by the Swedish Research Council Formas (2018–01346). Peer reviewed 2021-07-28T05:40:43Z 2021-07-28T05:40:43Z 2021-06-25 artículo http://purl.org/coar/resource_type/c_6501 Food Hydrocolloids 120: 106989 (2021) 0268-005X http://hdl.handle.net/10261/246693 10.1016/j.foodhyd.2021.106989 en Publisher's version https://doi.org/10.1016/j.foodhyd.2021.106989 Sí open Elsevier
institution IATA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-iata-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IATA España
language English
topic Algae
Polysaccharides
Suspensions
Rheology
Structure
High pressure homogenisation
Algae
Polysaccharides
Suspensions
Rheology
Structure
High pressure homogenisation
spellingShingle Algae
Polysaccharides
Suspensions
Rheology
Structure
High pressure homogenisation
Algae
Polysaccharides
Suspensions
Rheology
Structure
High pressure homogenisation
Malafronte, Loredana
Yilmaz-Turan, Secil
Krona, A.
Martínez Sanz, Marta
Vilaplana, Francisco
López-Sanchez, Paloma
Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
description The use of macroalgae in food products is growing due to their techno-functionality and nutritional properties. In this context, an increased understanding of the rheological properties which are relevant for manufacturing and texture is needed. Here we investigated the impact of thermal and mechanical treatments, including high pressure homogenisation (HPH), on the polysaccharide composition, microstructure, and rheological properties of brown algae Laminaria digitata suspensions (5 wt %). Monosaccharide analysis and immunolabeling of alginate in combination with confocal laser scanning microscopy, revealed a sequential release of different polysaccharides as result of the applied shear. Results showed that thermal treatment (70 °C 1 h) and mild shear lead to suspensions of clusters of cells and release of fucoidan and laminarin into the liquid phase, conferring shear thinning properties to the suspensions. High pressure homogenisation was able to completely break the macroalgae cells, reducing particle size and releasing other soluble polysaccharides, in particular alginate, conferring gel properties (G'>G'') to the suspensions. This study contributes to the knowledge of how to design sustainable, innovative and nutritious liquid/semiliquid food products containing macroalgae biomass.
format artículo
topic_facet Algae
Polysaccharides
Suspensions
Rheology
Structure
High pressure homogenisation
author Malafronte, Loredana
Yilmaz-Turan, Secil
Krona, A.
Martínez Sanz, Marta
Vilaplana, Francisco
López-Sanchez, Paloma
author_facet Malafronte, Loredana
Yilmaz-Turan, Secil
Krona, A.
Martínez Sanz, Marta
Vilaplana, Francisco
López-Sanchez, Paloma
author_sort Malafronte, Loredana
title Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
title_short Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
title_full Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
title_fullStr Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
title_full_unstemmed Macroalgae suspensions prepared by physical treatments: Effect of polysaccharide composition and microstructure on the rheological properties
title_sort macroalgae suspensions prepared by physical treatments: effect of polysaccharide composition and microstructure on the rheological properties
publisher Elsevier
publishDate 2021-06-25
url http://hdl.handle.net/10261/246693
work_keys_str_mv AT malafronteloredana macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
AT yilmazturansecil macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
AT kronaa macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
AT martinezsanzmarta macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
AT vilaplanafrancisco macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
AT lopezsanchezpaloma macroalgaesuspensionspreparedbyphysicaltreatmentseffectofpolysaccharidecompositionandmicrostructureontherheologicalproperties
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