The serious emergence of chemical-mediated residual toxicity and insect resistance have been enforced the regulation of synthetic pesticides. Future decisions to select more realistic control options probably depend on the speed of technological development in chemical and biological pesticides. Now, a strategic collaboration between synthetic pesticides and biopesticides has been progressed, such as distribution and R&D in collaboration and M&A for obtaining microbial resources. Recently registered microbial pesticides are entomopathogenic fungi in pest management. A concept of e-biopesticide could be properly combined with digital agriculture and accelerate the use of biological control agents in the future farming.

Alternative control agents, hopefully overcoming the present issues and problems in agrochemicals, should be considered and finally applied to the vector controls. Entomopathogenic fungi can used as one of the possible novel control agents and great considerations are given to the control of soil- or water-dwelling stages of vectors, such as mosquitoes and ticks. In our research group, the entomopathogenic fungal library has been constructed using the mealworm-based isolation system, which showed a variety of opportunities of their use in vector control. Important key production technologies including granular formulation have been developed to increase their industrialization. Some entomopathogenic fungal isolates showed high biological performance in the control of mosquitoes and ticks in field stands. R&D of down-stream process should be seriously considered as the key step.

Background : This study was investigated the effect of organic fertilizer application and stem training methods on the growth and yield of Cynanchum willfordii. Methods and Results : Traditional species, C. willfordii conducted the test to the field in Chungbuk ARES, Korea. Two methods, non-supporting (custom) and I-shape supporting was used for stem training method. Planting spacing was adjusted to 30 (interrow spacing) x 20 cm (intrarow spacing) and other key management is the followed the cultivation manual for standard medicinal crops. Organic fertilizer application is conducted in mid-March before planting of C. willfordii. Registered organic agricultural materials such as fungal cultures (CC), mixed organic materials (MO), fermented and mixed expeller cake (EC), and fermented fowl dropping (FD) was used. Application rate is based on the nitrogen application rate after soil testing. Plant height was both good in all at I-shape supporting (266.7 ㎝) and all in non-supporting (160.8 ㎝); however, stem diameter was more thicker in custom (4.6 ㎜) of I-shape supporting and EC (4.8 mm) of non-supporting. Number of branched stem were good at EC from I-shape supporting and non-supporting, as well as leaf growth. SPAD value was evaluated in MO (52.7) of I-shape supporting and EC (52.3) of non-supporting. Number of branched root per organic fertilizer were showed 7.0 at MO from I-shape supporting, but 7.3 at FD from non-supporting. While length of main root were 27.0 cm in MO of I-shape supporting and 31.3 ㎝ in FD of non-supporting. Root weight also more heavier in EC (66.3 g) of I-shape supporting and FD (53.0 g) of non-supporting. When applied organic fertilizer, total density of soil microorganisms were changed into 38.4 ppm in custom; however, it more plentiful of 90.7 ppm in MO, it showed good effect on the replication of soil microbiota. Conclusion : From the investigated results, MO of I-shape supporting was good at overall growth, including good tendency of roots growth.

Background : The effect of ridge-up bed cultivation and stem training method on the plant growth and yield of Cynanachum willfordii was investigated. Methods and Results : Domestic variety of Cynanachum willfordii was tested at Chungbuk ARES under the following conditions. Nonsupporting (custom) and I-form supporting was used for stem training method, and ridge height was set as 30 (custom) and 60 cm (high ridge). Planting spacing was adjusted to 30 (interrow spacing) × 20 cm (intrarow spacing), and other major management was followed the method of standard cultivation for medicinal crop. Investigated result from leaf characteristics, leaf length was longer in high ridge cultivation (HRC) as 11.1 cm than custom cultivation (CC) as 10.6 cm. Leaf width is proved to be 12.8 (HRC) > 11.2 cm (CC). Leaf number is proved to be 294 (HRC) > 254/plant (CC), with higher number of 44/plant at HRC and weight/10 leaves were more heavy at HRC (4.9 g) than that of CC (2.6 g). It was more fruit setting at HRC over 15/plant. According to the stem training method and ridge height from nonsupporting cultivation, main root was 4.0 (CC), higher than that of HRC over 0.5/plant. However, root length was more longer in HRC (28.6) than that of CC (25.0 cm). Main root diameter was also showed more thicker pattern in HRC. From staking cultivation, root number of HRC was 7/plant, it was recorded more 3/plant than that of CC, and it was also same pattern in main root length and root diameter. By the standard of commercial root, yield of living roots in nonsupporting cultivation were 59.0g/plant (HRC), it was more heavy over 10.4g/plant than that of CC. In staking cultivation, HRC were recorded as 74.2g/plant, more heavy 6.9g/plant than that of CC. Yield from I-form support stem training and ridge-up bed cultivation of HRC was higher approxmiately 52.7% than that of CC. Conclusion : Overall growth by high ridge cultivation of I-form support was good and yield of HRC was also increased over 52.7% than that of CC.

“Jokyoung”, a new bread making wheat cultivar, was developed from the cross between “Seri 82”, a hard white wheat from CIMMYT, Mexico and “Keumkang”, a hard white wheat with high milling rate and early maturing from Korea by National Institute of Crop Sci