• KOREAN JOURNAL OF CROP SCIENCE
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• v.48 no.6
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• pp.495-500
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• 2003

To establish the dual-purpose barley cultivation for forage by clipping before overwintering and grain next year, an experiment was conducted to clarify the effect of clipping times and cultivars haying different winter habits in rice-barley cropping system at paddy field in southern Korea. Barley showed more forage yield by clipping once only on December 10 than that of twice-clipping on November 10 and December 10. Among experimented cultivars, Saegangbori (winter habit II) and Keunalbori (winter habit IV) produced higher forage yield in one time clipping than the others. On the contrary, higher total digestive nutrients(TDN) was gained from twice-cut plants. Barley clipped once or twice headed and matured without serious delay as compared to the conventionally sown barley. In spite of clipping in November and/or December, barley produced grain yield similar to that of the conventional. Conclusively, it was regarded that cultivars having II-III winter habit were suitable for dual-purpose barley cultivation for forage in winter season and grain harvest next year.

• KSBB Journal
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• v.5 no.4
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• pp.383-390
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• 1990

Alcoholic distillery waste was utilized as dual purposes to produce citric acid and to reduce the amount of waste to be treated. Enzyme and acid hydrolysis of this waste were studied to suggest effective way of present purpose. Enzymatic hydrolysis of this naked barley alcoholic distillery waste by $\alpha$-and $\beta$-amylase gave glucose as 8g/l concentration at $55^{\circ}C$ for 6 hours, which produced 1g/l citric acid and 5.33g/l mycelial. This waste material hydrolyzed with 25% HCl at $120^{\circ}C$ showed 21.5g/l glucose and produced 1.75g/l citric acid with 4.9g/1 mycelial. The glucose concentration was decreased to 3.44g/l by further 2nd acid hydrolysis because the monosugars were decomposed at prolonged hydrolysis conditions. The addition of 3g/l $NH_4NO_3$ increased the mycelial growth but reduced the amount of citric acid formed. The formation of citric acid was increased at low concentration of manganese ion.