Cereals & Grains Association
Log In

Genotypic Variation in Nutritional Composition of Buckwheat Groats and Husks

March 2013 Volume 90 Number 2
Pages 132 — 137
Lu Lu,1 Kevin Murphy,2 and Byung-Kee Baik2,3

School of Food Science, Washington State University, Pullman, WA 99164, U.S.A. Department of Crop and Soil Sciences, Washington State University, Pullman, WA 99164, U.S.A. Corresponding author. Phone: (509) 335-8230. Fax: (509) 335-8674. E-mail: bbaik@wsu.edu


Go to Article:
Accepted November 8, 2012.
ABSTRACT

Buckwheat (Fagopyrum esculentum), a highly nutritious pseudocereal rich in bioactive compounds, is principally cultivated in central and eastern European countries. Buckwheat groats and husks of 10 cultivars were subjected to nutritional composition analysis and in vitro starch digestibility determination. Significant genetic variation was detected in buckwheat groats for 1,000-kernel weight (16.5–39.8 g), protein content (10.2–17.9%), soluble dietary fiber (1.4–3.4%), insoluble dietary fiber (2.3–8.6%), total dietary fiber (3.6–10.6%), free phenolics (4.5–17.1 mg of gallic acid equivalent [GA]/g), and total phenolics content (6.8–20.7 mg of GA/g). The buckwheat husks exhibited large differences between cultivars in protein content (3.0–6.5%), bound phenolics (6.7–26.1 mg of GA/g), and total phenolics content (32.4–58.6 mg of GA/g), which was 1.5–8 times higher than in the groat. Cooked and cooled buckwheat groats exhibited lower starch digestibility and greater resistant starch content than raw buckwheat groats. Buckwheat cultivars with unique nutritional composition, such as Co901 and Ta-1, were identified for future breeding.



© 2013 AACC International, Inc.