Entomopathogenic fungi are used to produce raw materials by applying solid culture technology using grains. But there are various problems such as low production efficiency and cross-contamination. Solvum Co., Ltd. conducted research on liquid culture technology to develop a method that can overcome these shortcomings of solid culture technology. We conducted research and development on using Beauveria bassiana 331R to observe the culture according to the seed inoculation amount in a 30 L fermenter, it was carried out at 1.0 % (v/v) and 10.0 % (v/v). Although there was a difference of 1 day, 1.0 %(v/v) seed inoculation was observed to be more than twice that, and active blastospores and yield were observed at over 95.0 %. As a results, it was determined that cost and efficient production would be possible during the culture process in mass production. Based on these experiments, a 300 L fermenter was cultured with 1.0 % (v/v) seed inoculation, resulting in a yield of 1.24E+09 CFU/mL on the 6th day of cultivation. As a result of freeze-drying using the final culture medium, it was confirmed that the production yield was improved by 113.0 % compared to the control.

An increased use of organic phosphorous based chemical pesticides in domestic and overseas agriculture has resultedin emergence of tolerant strains of insect pests. These pests have spread throughout South Korea and are responsible forsignificant reduction in crop yields. Furthermore, as yet there is no effective way of controlling these insects or the damageresulting from pest infestation. To this end, we are attempting to develop biological control based methods to protectcrop plants against insect pests. A screen for biocontrol agents conducted in five farms that were heavily infested bynematodes in 2015-2016 identified Aspergillus niger F22 strain that was very effective against root-knot nematode. Afour-time treatment with A. niger F22 at an internal of ten days was able to reduce nematode population by 70-90%compared to untreated controls. The biocontrol agent was also more effective compared to ograno-phosphorus based pesticide,which caused a 30% reduction in nematode population. Notably, the extract (suspension concentrate) prepared from A.niger culture was equally effective in controlling the root-knot nematode and is currently being developed as a marketableproduct under the brand name “NAMAFREE”.

Thrips worms and root-knot nematodes occur in a variety of crops, and have shown a great deal of damage to farm income every year, and the damage is increasing every year. In order to solve these problems, a variety of biological materials are used in Korea to develop a control agent. However, there are very few products available that can satisfy the consumer's satisfactory control effect, efficacy, formulation stability and pesticide compatibility. In order to propose a biological control solution to these problems, this study was conducted to develop the optimal bioprocess technology and formulations suitable for the material by transferring the Aspergillus nigerF22 strain, which is effective for root-knot nematodes, at Chonnam National University. This study was conducted to investigate the efficacy of Aspergillus niger F22 20% suspension concentrate (Productname:NEMAFREE), which has excellent efficacy on root nematodes. The packing test result showed about 70-90% control effect. Soil fumigation and disinfection treatments after 4 days of planting were effective. In addition, we have developed a product to control the under powder pupa using Beauveria bassiana ERL836, an insect pathogenic microorganism, which has excellent control effect against resistant insect pupa. The main purpose of this study was to investigate the effect of insect pests on the under poor control of the pupa in the soil. In the pavement test, more than 70%(GR) formulation, which can be treated withch emical pesticides, and it is confirmed that synergy effect is in the control of Thrips worm.

Biopesticides are pesticdide derived from natural materials such as animals, plants, bacteria, and certain minerals. Microorganism such as a bacterium, virus, fungus, or microscopic nematode worms can be used in agricultural practices to control of elimate pests that can inflict damage to a plant. Agents used as biopesticides include parasites, predators, fungi, bacteria and viruses. They are being recommended and used as components of IPM programs in the production of high-value specialty crops such as fruit, nut, vegetable, vine, ornamental, and turf crops. The global pesticide market is growing at a 15.8% for the period of 2012 to 2017. Synthetic insecticide use is projected to continue to decline, particularly with the increased use of GM seeds. GM crops are competiong with biopesticides due to disease and pest resistance and complementing for production of chemical residue free crops. Biopesticedes represent a strong growth area in the global pesticide market. Low registration cost and time for development of new active ingredient are major growth drives for the biopesticides market. Bacterial biopesticides control over 70% of microbial biopesticdes market share. Bacillus thuringiensis (Bt) is the most popular bioinsecticide worldwide. The global market for botanical biopesticide is estimated to grow at a CAGR of 14% and semio-chemicals is expected to grow at a CAGR of 16.1% from 2012 to 2017. The global microbial biopesticides market was valued at $862 million in 2011 and is expected to reach $2,606 million by 2017. Global biopesticides market is dominated by bioinsecticides with around 46% share in 2011.