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http://dx.doi.org/10.3746/pnf.2013.18.3.214

Mineral Compositions of Korean Wheat Cultivars  

Choi, Induck (National Institute of Crop Science, RDA)
Kang, Chon-Sik (National Institute of Crop Science, RDA)
Hyun, Jong-Nae (National Institute of Crop Science, RDA)
Lee, Choon-Ki (National Institute of Crop Science, RDA)
Park, Kwang-Geun (National Institute of Crop Science, RDA)
Publication Information
Preventive Nutrition and Food Science / v.18, no.3, 2013 , pp. 214-217 More about this Journal
Abstract
Twenty-nine Korean wheat cultivars were analyzed for 8 important minerals (Cu, Fe, Mn, Zn, Ca, K, Mg and P) using Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES). A hierarchical cluster analysis (HCA) was applied to classify wheat cultivars, which has a similarity in mineral compositions. The concentration ranges of the micro-minerals Cu, Fe, Mn, and Zn: 0.12~0.71 mg/100 g, 2.89~5.89 mg/100 g, 1.65~4.48 mg/100 g, and 2.58~6.68 mg/100 g, respectively. The content ranges of the macro-minerals Ca, K, Mg and P: 31.3~46.3 mg/100 g, 288.2~383.3 mg/100 g, 113.6~168.6 mg/100 g, and 286.2~416.5 mg/100 g, respectively. The HCA grouped 6 clusters from all wheat samples and a significant variance was observed in the mineral composition of each group. Among the 6 clusters, the second group was high in Fe and Ca, whereas the fourth group had high Cu, Mn and K concentrations; the fifth cluster was high in Zn, Mg and P. The variation in mineral compositions in Korean wheat cultivars can be used in the wheat breeding program to develop a new wheat cultivar with high mineral content, thus to improve the nutritional profile of wheat grains.
Keywords
Korean wheat; cultivars; minerals; ICP; cluster analysis;
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1 Hussain A, Larsson H, Kuktaite R, Johanson E. 2010. Mineral composition of organically grown wheat genotypes: Contribution to daily minerals intake. Int J Environ Res Public Health 7: 3442-3456.   DOI   ScienceOn
2 Zhang Y, Song Q, Yan J, Tang J, Zhao R, Zhang Y, He Z, Zou C, Ortiz-Monasterio I. 2010. Mineral element concentrations in grains of Chinese wheat cultivars. Euphytica 174: 303-313.   DOI
3 Ozturk I, Sagdic O, Hayta M, Yetim H. 2011. Alteration in ${\alpha}$-tochpherol, some minerals, and fatty acid contents of wheat through sprouting. Chem Nat Compd 47: 876-879.
4 Hwang JB, Yang MO, Shin HK. 1997. Survey for approximate composition and mineral content of medicinal herbs. Koreans J Food Sci Technol 29: 671-679.   과학기술학회마을
5 Araujo R, Macedo S, Korn M, Pimentel M, Bruns R, Ferreira S. 2008. Mineral composition of wheat flour consumed in Brazilian cities. J Braz Chem Soc 19: 935-942.   DOI   ScienceOn
6 Hwang HR, Kim KH, Lee J, Chung CT, Lee JC, Choi JJ, Chun JP, Yook HS. 2009. Comparison of mineral contents of three rice varieties under different cultural practices. J Korean Soc Food Sci Nutr 38: 721-726.   과학기술학회마을   DOI   ScienceOn
7 Peterson CJ, Johnson VA, Mattern PJ. 1983. Evaluation of variation in mineral element concentrations in wheat flour and bran of different cultivars. Cereal Chem 60: 450-455.
8 Branca F, Ferrari M. 2002. Impact of micronutrient deficiencies on growth: The stunting syndrome. Ann Nutr Metab 46: 8-17.   DOI   ScienceOn
9 Lorenz K. 1978. Selenium in wheats and commercial wheat flours. Cereal Chem 55: 287-294.
10 Zook EG, Greene FE, Morris ER. 1970. Nutrient composition of selected wheats and wheat products. VI: Distribution of manganese, copper, nichel, determined by atomic absorption spectroscopy and colorimetry. Cereal Chem 47: 720-731.
11 Ranhotra GS, Gelroth JA, Novak FA, Bock MA, Matthews RM. 1985. Retention of selected minerals in enriched pasta products during cooking. Cereal Chem 62: 117-119.
12 Graham R, Senadhira D, Beebs S, Iglesias C, Monasterio I. 1999. Breeding for micronutrient density in edible portions of staple food crops: Conventional approaches. Field Crop Res 60: 57-80.   DOI   ScienceOn