. 2019 Nov 6;7(12):3902-3911.

doi: 10.1002/fsn3.1247. eCollection 2019 Dec.

Effect of fermentation and dry roasting on the nutritional quality and sensory attributes of quinoa

Vanesa Castro-Alba^{1

2}, Claudia Eliana Lazarte¹, Daysi Perez-Rea², Ann-Sofie Sandberg³, Nils-Gunnar Carlsson³, Annette Almgren³, Björn Bergenståhl¹, Yvonne Granfeldt¹

Affiliations

¹ Department of Food Technology, Engineering and Nutrition Lund University Lund Sweden.
² Food and Natural Products Center San Simón University Cochabamba Bolivia.
³ Department of Chemical and Biological Engineering Food Science Chalmers University of Technology Gothenburg Sweden.

PMID: 31890168
PMCID: PMC6924334
DOI: 10.1002/fsn3.1247

Effect of fermentation and dry roasting on the nutritional quality and sensory attributes of quinoa

Vanesa Castro-Alba et al. Food Sci Nutr. 2019.

. 2019 Nov 6;7(12):3902-3911.

doi: 10.1002/fsn3.1247. eCollection 2019 Dec.

Authors

Vanesa Castro-Alba^{1

2}, Claudia Eliana Lazarte¹, Daysi Perez-Rea², Ann-Sofie Sandberg³, Nils-Gunnar Carlsson³, Annette Almgren³, Björn Bergenståhl¹, Yvonne Granfeldt¹

Affiliations

¹ Department of Food Technology, Engineering and Nutrition Lund University Lund Sweden.
² Food and Natural Products Center San Simón University Cochabamba Bolivia.
³ Department of Chemical and Biological Engineering Food Science Chalmers University of Technology Gothenburg Sweden.

PMID: 31890168
PMCID: PMC6924334
DOI: 10.1002/fsn3.1247

Abstract

Background: Quinoa is a pseudocereal with relatively high content of proteins and minerals that also contains mineral inhibitors such as phytate. The aim of the present study was to evaluate lactic acid fermentation and dry roasting on the nutritional quality and sensory attributes of quinoa. Various processes were evaluated, and quinoa grains were dry-roasted, milled, and fermented, either with or without the addition of wheat phytase or activated quinoa phytase (added as back-slop starter), for 10 hr. In other processes, raw quinoa flour was fermented for 10 hr or 4 hr and dry-roasted. Hedonic sensory evaluation was then performed to evaluate the acceptability of the fermented flours prepared as porridges.

Results: The combined dry roasting and fermentation processes significantly (p < .05) degraded phytate between 30% and 73% from initial content. The most effective process was fermentation of raw quinoa flour followed by dry roasting, which improved the estimated zinc and iron bioavailability. Particularly, estimated zinc bioavailability improved from low (Phy:Zn 25.4, Phy·Zn:Ca 295) to moderate (Phy:Zn 7.14, Phy·Zn:Ca 81.5). Phytate degradation was mainly attributed to the activation of endogenous phytase during fermentation. Dry roasting was effective in improving the sensory attributes of the fermented quinoa flour. Porridge made with raw quinoa flour fermented for 4 hr and dry-roasted was more favorable to overall acceptability than that which was fermented for 10 hr and dry-roasted.

Conclusion: Fermentation of quinoa flour for 4 hr followed by dry roasting was successful in improving both nutritional and sensory attributes of the final product.

Keywords: dry roasting; fermentation; minerals; phytate degradation; quinoa; sensory attributes.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
Description of quinoa processing. The processes included dry roasting and fermentation with *Lactobacillus plantarum*. Process 1: Dry‐roasted quinoa grains, milled, and fermented for 10 hr—RF10h. Process 2a: Dry‐roasted quinoa grains, milled, and fermented for 10 hr with addition of 1 g/kg wheat phytase—RFw. Process 2b: Dry‐roasted quinoa grains, milled, and fermented for 10 hr with addition of 10 g/kg activated quinoa phytase—RFq1. Process 2c: Dry‐roasted quinoa grains, milled, and fermented for 10 hr with addition of 50 g/kg activated quinoa phytase—RFq5. Process 3a: Raw quinoa flour fermented for 10 hr followed by dry roasting at 120°C for 3 min—FR10h. Process 3b: Raw quinoa flour fermented for 4 hr followed by dry roasting at 120°C for 3 min—FR4h. *The activated quinoa phytase (qP) was prepared mixing quinoa flour and water. This blend was kept at 30°C for 2 hr. The fermented flours used for hedonic sensory evaluation are within double‐line boxes

**Figure 2**
Principal component analysis biplot from four porridges prepared with fermented quinoa flour from processes 1 (RF10h) and 3 (FR10h, FR4h) and nonfermented flour (Rqf) and 13 variables which include six sensory attributes, three analytical variables, and four processing variables. Results are expressed in dry matter. Rqf: nonfermented dry‐roasted quinoa flour. RF10h: dry‐roasted quinoa grains, milled, and fermented for 10 hr. FR10h: raw quinoa flour fermented for 10 hr followed by dry roasting at 120°C for 3 min. FR4h: raw quinoa flour fermented for 4 hr followed by dry roasting at 120°C for 3 min. RQG: dry roasting of raw grains. RFF: dry roasting of fermented flour

**Figure 3**
Relation between taste and phytate degradation for four porridges prepared with fermented quinoa flour from processes 1, dry‐roasted quinoa grains, milled, and fermented for 10 hr (RF10h), and process 3, raw quinoa flour fermented for 10 hr or 4h followed by dry roasting (FR10h, FR4h) and nonfermented dry‐roasted flour (Rqf). All data were normalized and centered

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Effect of fermentation and dry roasting on the nutritional quality and sensory attributes of quinoa

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Effect of fermentation and dry roasting on the nutritional quality and sensory attributes of quinoa

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Conflict of interest statement

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