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Background : This experiment was conducted to improve the farm income by decreasing the rate of corrosion and increasing the emergence rate by selecting the proper storage method of the medicinal crop seed root.
Methods and Result : Ten kinds of medicinal crop seed roots of Glycyrrhiza uralensis Fischer, Salvia miltiorrhiza Bunge, Codonopsis lanceolata, Platycodon grandiflorum, Atractylodes japonica, Angelica acutiloba, Adenophora triphylla, Rehmannia glutinosa, Angelica gigas and Cnidium officinale were used as test materials. In experiment 1, storage experiments were carried out using four treatments: untreated (dry in advance), untreated, filler (dry in advance) and filler. Drying in advance was carried for 2 days in dark place and the filler was vermiculite. For storage, in styrofoam box, seed roots were laid down in 3 replicates of 10 sets, stored in – 1℃ warehouse. The storage temperature was set as long as each seed root was not frozen investigating freezing point, supercooling point. As a result, the rate of corrosion was significantly lower in the 4th treatments (filler), such as A. japonica (30%) and A. gigas (10%), compared with untreated one. Therefore, in experiment 2, six treatments were carried out using filler. There were 6 treatments: filler disinfectant (dry in advance), filler disinfectant, filler biochar (dry in advance), filler biochar, filler disinfectant biochar (dry in advance) and filler disinfectant biochar. The disinfectant was used by metalaxyl-M at a concentration of 0.4 g/ℓ, and a biochar was used at a volume ratio of 50% (v/v). As a result, the rate of corrosion was significantly lower in the 6th treatment (filler disinfectant biochar), such as S. miltiorrhiza (13.3%) and C. lanceolata (6.7%).
Conclusion : In storing medicinal crop root, it is better to store using fillers. It was shown that a mixture of filler and disinfectant biochar reduced the rate of corrosion.
