Quinoa Bitterness: Causes and Solutions for Improving Product Acceptability

Overview

Journal J Sci Food Agric

Specialties Environmental Health
Nutritional Sciences

Date 2018 Feb 28

PMID 29485194

Citations 12

Authors

Diego Suarez-Estrella

Luisa Torri

Maria Ambrogina Pagani

Alessandra Marti

Affiliations

Soon will be listed here.

Abstract

Awareness of the several agronomic, environmental, and health benefits of quinoa has led to a constant increase in its production and consumption not only in South America, where it is a native crop, but also in Europe and the USA. However, producing wheat or gluten-free based products enriched with quinoa alters some quality characteristics, including sensory acceptance. Several anti-nutritional factors such as saponins are concentrated in the grain pericarp. These bitter and astringent substances may interfere with the digestion and absorption of various nutrients. Developing processes to decrease or modify the bitterness of quinoa can enhance palatability, and thus consumption, of quinoa. In addition to the production of sweet varieties of quinoa, other processes have been proposed. Some of them (i.e. washing, pearling and the combination of the two) have a direct effect on saponins, either by solubilization and/or the mechanical removal of seed layers. Others, such as fermentation or germination, are able to mask the bitterness with aroma compounds and/or sugar formation. This review presents the major sources of the undesirable sensory attributes of quinoa, including bitterness, and various ways of counteracting the negative characteristics of quinoa. © 2018 Society of Chemical Industry.

Citing Articles

Cold Plasma Treatment of Quinoa Grains: Changes in Phytic Acid, Saponin, Content, and Antioxidant Capacity.

Arjmand S, Sadrabad E, Ramroudi F, Mollakhalili-Meybodi N Food Sci Nutr. 2025; 13(1):e4691.

PMID: 39803298 PMC: 11716995. DOI: 10.1002/fsn3.4691.

Non-targeted metabolomics reveals the characteristics of the unique bitterness substances in quinoa.

Huo J, Feng T, Shang H, Guo C, Wu T, Chu M Heliyon. 2024; 10(17):e37133.

PMID: 39296137 PMC: 11409112. DOI: 10.1016/j.heliyon.2024.e37133.

Current trends and prospects in quinoa research: An approach for strategic knowledge areas.

Florez-Martinez D, Rodriguez-Cortina J, Chavez-Oliveros L, Aguilera-Arango G, Morales-Castaneda A Food Sci Nutr. 2024; 12(3):1479-1501.

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Quinoa (Chenopodium Quinoa Willd.) as Functional Ingredient for the Formulation of Gluten-Free Shortbreads.

Bravi E, Sileoni V, Marconi O Foods. 2024; 13(3).

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Quinoa dough fermentation by and lactic acid bacteria: Changes in saponin, phytic acid content, and antioxidant capacity.

Arjmand S, Mollakhalili-Meybodi N, Mohajeri F, Madadizadeh F, Sadrabad E Food Sci Nutr. 2023; 11(12):7594-7604.

PMID: 38107108 PMC: 10724584. DOI: 10.1002/fsn3.3679.