Comparison in Seed and Sprout Quality under Different Cropping Patterns in Mungbean

This study was performed to determine the relative quality of mungbeans harvested in bulk after applying a labor-saving cultivation (LSC) method, compared to mungbeans harvested three different times under the conventional cultivation condition. There was no significant difference in starch, crude p...

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Published inKorean journal of crop science Vol. 56; no. 3
Main Authors Kim, D.K., Jeollanamdo Agricultural Research and Extension Service, Naju, Republic of Korea, Son, D.M., Jeollanamdo Agricultural Research and Extension Service, Naju, Republic of Korea, Choi, J.G., Jeollanamdo Agricultural Research and Extension Service, Naju, Republic of Korea, Shin, H.R., Jeollanamdo Agricultural Research and Extension Service, Naju, Republic of Korea, Chon, S.U., EFARINET Co. Ltd., TBI Center, Chosun University, Gwangju, Republic of Korea, Lee, K.D., Dongshin University, Naju, Republic of Korea, Jung, K.Y., National Institute of Crop Science, RDA, Milyang, Republic of Korea, Rim, Y.S., Sunchon National University, Sunchon, Republic of Korea
Format Journal Article
LanguageKorean
Published 01.09.2011
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Summary:This study was performed to determine the relative quality of mungbeans harvested in bulk after applying a labor-saving cultivation (LSC) method, compared to mungbeans harvested three different times under the conventional cultivation condition. There was no significant difference in starch, crude protein, and vitexin or isovitexin content of seed according to the cropping system or harvest time. The mungbeans grown under the LSC method had the highest crude fat content, followed by mungbeans from the third-, the second- and the first-harvest mungbeans under the conventional cultivation. No significant difference was found in the composite ratio of saturated fatty acids to unsaturated fatty acids according to cropping system or harvest time. The second-harvest mungbeans grown under the conventional cultivation condition had 17 different types of fatty acids, while the third-harvest mungbeans grown under the conventional cultivation and those grown under the LSC condition had the fewest types of fatty acids with 12. Of the major saturated fatty acids, palmitic acid and arachidonic acid had the highest composite ratio in the first conventional cultivation followed by the second, the third and the LSC. However, stearic acid showed the opposite tendency. Of the major unsaturated fatty acids, linoleic acid had the highest composite ratio in the first conventional cultivation, followed by the second and third conventional cultivation and the LSC. Amylogram characteristics of the mungbeans were significantly different according to cropping system and harvest times. The mungbeans harvested after the first conventional cultivation had significantly higher pasting temperature, peak viscosity, holding strength viscosity, final viscosity and breakdown, while mungbeans harvested after the third conventional cultivation had significantly higher setback viscosity. In contrast, the mungbeans harvested under the LSC methods had a significantly lower amylogram value. When harvest rate, color values and amino acid content of sprout were measured, mungbeans grown under the LSC conditions had a low harvest rate of sprout, but had Hunter's color values and amino acid content of sprout similar to those of mungbeans grown under the conventional cultivation condition.
Bibliography:F01
2012003142
ISSN:0252-9777