Background : Bai Zhu (Atractylodes macrocephala Koidz.) has been generally harvested in 1-2 years after seedstock planting. Recently, seed is used increasingly for planting in spring and rhizome is harvested in 1 year. In 1 year open field culture, seed harvesting rate is low below 30% and supply and demand of seed is so hard. This study was carried out to improve seed harvesting for stable seed supply and demand in Atractylodes macrocephala Methods and Results : Seed of Atractylodes macrocephala Koidzumi was directly sown in open field, under tunnel and rain shielding condition in mid-April. Tunnel was installed from prebloom, mid-september to seed harvesting time, November using 240 ㎝ wires for 120 ㎝ by interval and 20 ㎝ by height in furrow to assure insect pollination and wind fertilization. In rain shielding condition, plant height was highest as 38.2 ㎝ and number of branches, number of nodes, and content of chlorophyll were higher as 7.8 ea/plant, 8.7 ea/plant, and 65.4 respectively compared to open field and under tunnel. Flowering time was earliest as 23rd September in rain shielding condition and in open field and under tunnel was 26th September. There is no blossom rot in rain shielding condition while blossom rot occurrence was highest in open field by 5 in degree. Seed setting rate was highest as 42.0% in tunnel cultivation and seed weight per plant and 1,000 seed weight were highest as 3.7 g/plant and 22.3 g respectively. Total seed yield was higher as 58% and 65% in tunnel and rain shield condition respectively compared to 29 ㎏/10 a of open field. Tunnel cultivation for seed production of Atractylodes macrocephala is more beneficial for lower installation cost. Conclusion : Tunnel cultivation for seed production of Atractylodes macrocephala is more beneficial due to low blossom rot degree by 1, higher 1,000 seed weight and seed setting rate as 19.0 g and 42%, increased seed yield, and lower installation cost.

Background : In the year 2015, the area under rhizome of Rehmannia glutinosa in Chungnam province increased to 65% (105 ha) of domestic total cutivation area and is recognized as income crop. Since proper strorage method of rhizome has not been established, rhizome decay rate is so high during storage. This experiment was carried out to establish proper strorage method for stable production of rhizome of Rehmannia glutinosa Methods and Results : Korea jiwhang was used for this experiment and rhizome was cured under vinyl house and room temperature for 1, 2, 3 days respectively. Rhizome was stored for 140 days at –2 - 0℃ after curing, and rhizome quality and saprogen were investigated after storage. Trimming loss was 11.3 - 21.9%, higher in longer curig time and rice hull packing. Moisture content was 70.0 - 75.1%, higher in shorter curing time and no rice hull packing. Curing efficacy was better in vinyl house than room temperature, decay rate by weight and number of rhizome was lowest in 48hrs curing and no hull packing as 0.5% and 2.0% respectively. Identified saprogen during storage was Fusarium oxysporum, Fusarium tricinctum, Penicillium verrucosum, Mucor racemosus. Conclusion : Curing efficacy was better in 48hrs treatment under vinyl house with lowest decay rate and rice hull packing increased decay rate considerd due to saprogen existing in rice hull. 4 saprogens including Fusarium oxysporum were identified during storage of rhizome.

Background : Ginseng is a perennial, and damage occurs due to various diseases and pests. As a result, yield decreases and quality deteriorates. In particular, it is impossible to be repeatedly cultivated due to root rot, soil-borne disease. For this, in order to control root rot and repeatedly cultivate ginseng by using soil fumigation from virgin soil, this experiment was conducted. Methods and Results : This experiment was performed in ginseng farm field, Geumsan-gun, Chungnam province. And total area was 3ha. And the experiment was conducted in soil where apple trees had been grown. Apple trees were rooted up in 2006. And soil was fumigated in May 2007. With regard to soil fumigant, soil was treated with Basamid of 40kg/10a. After soil fumigation, 5 ton/10a of cattle manure fermented for 1 year was put in the soil in June, and then the soil was cared for by being plowed and rotary-tilled as occasion. Ginseng seeds were sowed in the soil cared for in October 2007. And 4-year-old ginseng was harvested in 2011. The soil from which ginseng was harvested was fumigated by the same method in May 2012, and then ginseng seeds were sowed in 1.5ha in October 2012 and in 1.5ha in October 2013. In October 2013, 3-year-old and 4-year-old ginseng was harvested. And ginseng growth characteristics and root rot incidence was examined. It was shown that 4-year-old ginseng yield after the fumigation of virgin soil was nearly 2 times as high as that of conventional virgin soil cultivation. And root rot didn't occur. After that time, the soil was fumigated again. And when ginseng was cultivated, 3-year-old and 4-year-old ginseng yield was 650kg and 960kg per 10a. And it was shown that root rot incidence was 1.3% and 15.3% in 3-year-old and 4-year-old ginseng respectively. Conclusion : This study showed the results where ginseng can be cultivated repeatedly if soil was fumigated again after ginseng was harvested following the soil fumigation from virgin soil so as to control the ginseng root rot and cultivate ginseng repeatedly.

Background : The effective components of Omija(Schisandra chinensis Bailllon) are lignans (schizandrins and gomisins), and this components were contented mostly in seed part on Omija, which have various physiological functionalities such as anti-cancer, anti-inflammatory, and antioxidant activities. Methods and Results : This study was carried out to determine effective condition(CO2, CO2+ethanol) on extraction using supercritical carbon dioxide extraction (SFE) system and to find interrelation on effective components and antioxidant activity of extracts and residues obtained after extraction. Effective components were analysed lignans and phenolic compounds and antioxidant activirty was determined for DPPH radical scavenging ability on methanol extracts of SFE-extract and SFE-residue. On SFE with ethanol, SFE extract was separated two phase, upper(water phase) and lower(oil phase). SFE-extract showed the highest total lignans content(61.36 mg/g, 72.14 mg/g on lower, 50.58 mg/g on upper) and the lowest total phenolic compounds(6.52 mg/100g) and SFE-residue showed the lowest total lignans content(1.45 mg/g) and the highest total phenolic compounds(16.23 mg/100g) by extracted on CO2+ethanol treatment. SFE-residue methanol extract showed the highest DPPH radical scavenging abilities and SFE-extract upper showed the lowest. Conclusion : Thus, this results showed SFE-extract showed the highest total lignans content, but SFE-residue showed the highest DPPH radical scavenging ability although the lowest total lignans content.

Background : According to medicinal plant standard culture, flower organ should be removed but there is no detail information on flower organ removal in Atractylodes macrocephala Koidzumi. This study was carried out to examine effect of flower organ removal on the increase of roots yield in Atractylodes macrocephala Koidzumi. Methods and Results : ○ Experiment variety : Atractylodes macrocephala Koidzumi. ○ Treatment : ① Flower organ non-cutting ② Flower organ cutting ○ Planting date : April, 2015/ April 25, 2016 ○ Planting distance : 30×20cm/ 30×15cm ○ Experiment place : Ginseng & Medicinal Plant Research Institute(Geumsan-gun, Chungcheongnam-do) Conclusion : The fresh rhizome yield of F. O. C. at a bud treatments were increased 21.0% ∼50.0% compare to F. O. N. C. treatments. The fresh rhizome yield of F. O. C. at a flower treatments were increased 17.4%∼34.6% compare to F. O. N. C. treatments. The fresh weight of above-ground parts of F. O. C. treatments were decreased 77.2%∼65.7% compare to F. O. N. C. treatments. F. O. C.(=Flower organ cutting) / F. O. N. C.(=Flower organ non-cutting).

Background : Platycodon grandiflorum root(PGR) was one of the primary herbs used in a phlegm-relieving herb from the past. Purified platycoside compounds from the roots of PGR may exhibit neuroprotective, antimicrobial, anti-inflammatory, anti-cancer, anti-allergy, improved insulin resistance, and cholesterol-lowering properties. To evaluate preference and functionality of PGR extracts, PGR was fermented by several lactic acid bacteria. Lactic acid bacteria used were Leuc. mesenteroides N12-4 and N58-5, L. plantarum N76-10 and 56-12, L. brevis N70-9 and E3-8. Methods and Results : This study was performed in order to investigate the changes of platycosides, as well as the antimicrobial activities on bronchus diseases inducing bacteria(C. diphtheriae, K. pnneumoniae, S. aureus, S. pyogenes) of Platycodon grandiflorum root(PGR) fermented by using lactic acid bacteria(Leuc. mesenteroides N12-4, Leuc. mesenteroides N58-5, L. plantarum N76-10, L. plantarum N56-12, L. brevis N70-9, L. brevis E3-8). Growth of L. plantarum on PGR was the most active during lactic acid fermentation by some different strains. Total platycoside, platycoside E, platycodin A, polygalacin D2, polygalacin D and diapioplatycoside E contents of PGR fermented for 96 hours at 37℃ by Leuc. mesenteroides and L. plantarum were increased, while platycodin D and platycodin D3 were decreased. The antimicribial activity on PGR fermented by L. plantarum N56-12 exhibited a strong microbial proliferation in all four kinds of bronchus diseases inducing bacteria and was higher than non-fermented PGR extract. Conclusion : Thus, this results showed antimicrobial activities on bronchus diseases inducing bacteria and platycosides content of PGR by L. plantarum N56-12 were higher than non-fermented PGR extract.

Background : Jiwhang (Rehmannia glutinosa L.) cultivation area of chungnam province was 62ha(219 farms, 53.9% of domestic cultivation area, M.A.F.R.A. 20142)). Recently, jiwhang is rapidly spread to 150ha ( Geumsan administration statistics, 2015) as taking place of income crop in Chungnam. High quality jiwhang GAP production and improvement of the distribution system including magnus customers, producer association fosterage and conventional market Vitalization were the reason of rapid cultivation area increase of Rehmannia glutinosa L. in Geumsan. This study was performed to set up the standard Rhizome size for planting in Rehmannia glutinosa L. Materials and Methods ○ Experiment variety : Togang ○ Treatment(rhizome length) : ① 1cm ② 2cm ③ 3cm ④ 4cm ⑤ 6cm(control) ○ Planting date : May 6, 2015 ○ Planting distance : 30×15cm ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : In the aboveground growth was no significant difference among treatments. In the root characteristics, there was no significant difference among treatments. Take a 1∼2cm rhizome planting saved rhizome amount and planting time to 73.8%∼64.3% and 68.4%∼ 57.8% respectively than 6cm(control).

Background : Generally, price of Jiwhang(Rehmannia glutinosa L.) is highest in August. In this study, Economic Evaluation and Productivity of 9 Jiwhang varieties w ere analyzed according to harvesting tim es of August and October. Materials and Methods ○ Experiment variety : Jiwhang 1, Korea jiwhang, Daegyung, Gogang, Togang, Dagang, Wongang, Hwanggang and Yeongang ○ Treatment : ①Initial-August harvest ②Mid-August harvest ③Ended-August harvest ④Ended-October harvest ○ Planting date : April 17, 2015 ○ Planting distance : 30×15cm ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : The higher roots yield at August harvest was in Gogang, Dagang and Togang. The lower roots yield at August harvest was in Korea jiwhang and Hwanggang. The higher economic feasibility at August harvest was in Gogang, Togang, Dagang and Wongang. The higher economic feasibility at ended-October harvest was in Gogang, Yeongang, Togang, Dagang and Wongang.

Background : According to medicinal plant standard culture, flower stalk should be removed at the stage of 4-5 main leaves appearance but there is no detail information on stalk removal in jiwhang (Rehmannia glutinosa L.). This study was carried out to examine effect of flower stalk removal on the increase of total yield in Rehmannia glutinosa L. Materials and Methods ○ Experiment variety : Korea jiwhang, Wongang ○ Treatment : ① Peduncle non-cutting ② Peduncle cutting ○ Planting date : April 18, 2015 ○ Planting distance : 30×15cm ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : Aerial part growth was no significant difference according to treatments in Wongang and aerial weight was havier in Peduncle cutting than in Peduncle non-cutting. Aerial part growth was no significant difference according to treatments in Korea jiwhang. The roots yield in Korea jiwhang was increased about 5.2% in Peduncle cutting. The roots yield in Wongang was increased about 24.9% in Peduncle cutting.

Background : Bai Zhu is generally harvested in 1-2 years after seedstock planting. Recently mainly in Guemsan, Bai Zhu is harvested in just 1 year after planting in spring . According to medicinal plant standard culture, Bai Zhu should be directly sown by 20cm distance in April. This study was carried out to find out proper planting date. Materials and Methods ○ Experiment variety : Bai Zhu (Atractylodes macrocephala Koidz.) ○ Treatment : Planting Date ① Late march ② Early april ③ Middle of april(control) ④ Late april Plantind density : ① 30×10cm ② ① 30×20cm ○ Planting type : Direct Seeding ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : Number of lateral branches in 30×10cm was more in late march than late April and aerial part growth was superior as planting date was earlier. Emergence rate was higher in middle of April and late April and aerial part weight, fresh root weight, dry root weight rate, and dry root weight were superior as planting date was earlier. Dry weight yield increased as 38.3% in late March compared to middle of April. Dry weight was havier as 36.2% in planting time of late March and early April than planting time of middle of April and late April. Total income was higher in planting time of late March and early April than planting time of middle of April and late April.

Background : Jiwhang (Rehmannia glutinosa L.) cultivation area of Chungnam province was 62ha (219 farms, 53.9% of domestic cultivation area, MAFRA. 20142)**). Recently, jiwhang is rapidly spread to 150ha (Geumsan administration statistics, 2015) as taking place of income crop in Chungnam. High quality jiwhang GAP production and improvement of the distribution system including magnus customers, producer association fosterage and conventional market vitalization were the reason of rapid cultivation area increase of Jiwhang in Geumsan. But low emergence rate caused by spring drought should be solved. This study was carried out to obtain basic data for emergence rate improvement in jiwhang. Materials and Methods ○ Experiment variety : Korea jiwhang ○ Treatment : ①Control ② 1 time irrigation at planting time ③1 time irrigation at planting time + transparent vinyl mulching ○ Planting date : April 30, 2015 ○ Planting distance : 30×15cm ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : There was no significant difference in the aboveground growth among treatments. The seedling emergence rate was higher in 1 time irrigation at planting time + transparent vinyl mulching(1ITVM) than control or 1 time irrigation at planting time(1I). Aerial part weight was significantly havier in 11ITVM than control or 1I. The roots yield was also more in 1ITVM than control or 1I. According to economic analysis, total income in 1ITVM compared to 1I and control was 125.1% and 54.0% higher respectively.

Cytoplasmic male sterility (CMS) and fertility restoration have been utilized as valuable tools for F_1-hybrid seed production in many crops despite laborious breeding processes. Molecular markers for the selection of CMS-related genes help reduce the expenses and breeding times. A previously reported genomic region containing the Ppr-B gene, which is responsible for restoration of fertility and corresponds to the Rfo locus, was used to develop gene-based or so-called "functional" markers for allelic selection of the restorer-of-fertility gene (Rfo) in F_1-hybrid breeding of radish (Raphanus sativus L.) Polymorphic sequences among Rfo alleles of diverse breeding lines of radish were examined by sequencing the Ppr-B alleles. However, presence of Ppr-B homolog, designated as Ppr-D, interferes on specific PCR amplification of Ppr-B in certain breeding lines. The organization of Ppr-D, resolved by genome walking, revealed extended homology with Ppr-B even in the promoter region. Interestingly, PCR amplification of Ppr-D was repeatedly unsuccessful in certain breeding lines implying the lack of Ppr-D in these radishes. Ppr-B could only be successfully amplified for analysis through designing primers based on the sequences unique to Ppr-B that exclude interference from Ppr-D gene. Four variants of Rfo alleles were identified from 20 breeding lines. A combination of three molecular markers was developed in order to genotype the Rfo locus based on polymorphisms among four different variants. These markers will be useful in facilitating F_1-hybrid cultivar development in radish.

“Shinmichal1”, a waxy red winter wheat (Triticum aestivum L.) cultivar was developed by the National Institute of Crop Science, RDA. It was derived from the cross “Alchan”/“Chal2”during 1997. “Alchan” is a soft red winter wheat with high yield and good noodle quality. “Chal2” is a waxy wheat line crossed by “Kanto107” (Wx-A1b and Wx-B1b) and “BaiHuo” (Wx-D1b). “Shinmichal1” was evaluated as “Suwon306” in Advanced Yield Trial Test in 2002. It was tested in the regional yield trial test between 2003 and 2006. “Shinmichal1” is an awned, semi dwarf and soft red winter wheat, similar to “Uri” (check cultivar). The Heading and maturing date of “Shinmichal1” were similar to “Uri”. Culm and spike length of “Shinmichal1“ were 79 cm and 7.8 cm. “Shinmichal1“ had greater test weight (802 g) and lower 1,000-grain weight (31.8 g) than “Uri” (782 g and 35.2 g, respectively). It has resistance to winter hardiness, wet-soil tolerance, lodging tolerance and moderate post-harvest sprouting damage. “Shinmichal1” had higher flour yield (66.2%), ash (0.73%), protein (10.9%) and SDS sedimentation volume (40.7 ml) than “Uri” (64.7%, 0.53%, 9.3%, and 32.5 ml, respectively) and similar flour color to “Uri”. “Shinmichal1” had higher dough extensibility and lower dough strength than “Uri”. It is 5.2% of amylose content and had typical waxy starch pasting properties. Average yield of “Shnmichal1” in the regional adaptation yield trial was 5.24 MT ha-1 in upland and 5.58 MT ha-1 in paddy field, which was 3% and 8% lower than those of “Uri” (5.39 MT ha-1 and 6.09 MT ha-1, respectively). “Shinmichal1” would be suitable for the area above the daily minimum temperature of -10℃ in January in Korean peninsula.