낭충봉아부패병에 저항성인 신품종 토종벌을 농업과학원에서 시험재료로 제공받아 일반 농가에서 사육중인 일반벌과 비교하였다. 꿀벌 수밀력을 조사한 결과 일벌 개체당 수밀력은 비저항성 계통보다 저항성계통이 15% 높았으며, 화분채집량은 저항성계통에서는 358mg, 비저항성 계통은 330.3mg으로 저항성계통이 비저항성계통보다 8.4%의 높은 화분채집력을 보였다. 질병저항성을 알아보기 위해 봉개유충 청소행동 평가에서 8시간 후 저항성계통에 서는 51.3%, 비저항성계통에서는 50.7%이었으며, 24시간 후에는 두계통 모두 98.7~100%의 사충 제거율을 보였다. 봉군발육조사에서는 저항성 계통의 경우, 일벌, 유충, 번데기의 수가 비저항성계통에 비하여 41%, 7%, 73% 로 발육이 우수하였다.

Background : The cultivation area of Rehmannia glutinosa Liboschitz is 156 ㏊ ('16), which is one of my representative medicinal crops. However, since it grows by roots, the damage of the repeated cultivation and the degeneration of the seedstock are increasing. To solve these problems, we are developing new varieties every year by testing the regional adaptability of high quality system. In recent years, as the quality and quantity of new varieties have been proven to increase, the need for continuous development of excellent varieties is increasing. Methods and Results : The test material used a jihwang-1 as standard variety, the system was planted in 3-year (RGES 20), 2-year (RGES 21, 22, 23) and 3-year (RGES 24, 25). The root lengths were cut at intervals of about 2 to 3 ㎝ and immersed for 20 minutes in a fludioxonil suspension concentrate (1,000-fold dilution) and shaded for 1 day. Sowing was planted on April 30th, and planting interval was 30 ㎝ × 15 ㎝. Growth investigation was carried out on the overground growing (plant length, leaf length, leaf number, plant type, etc) and degree of generation of pests. As a result of the growth investigation, the third year RGES 20, the second year RGES 22, and the first year RGES 25 were excellent. RGES 20 was upright type and superior in overground growing, RGES 22 had strong pest resistance. RGES 25 was characterized by strong at high temperature, but growth is not as good as other high quality system. Conclusion : Recently, the difficulty of cultivation of zucchini has been increasing due to abnormal weather. Especially in this year, high temperature of 35℃ or more continued for about 30 days, and the need to cultivate varieties resistant to high temperatures is increasing. Therefore, it is expected that RGES 25 can be registered as a promising strain that is resistant to high temperature if the yield is corrected.

Background : Rehmannia glutinose Liboschitz is a perennial herb belonging to the family of Scrophulariaceae. Its roots have been used as a traditional medicine. For cultivation of varieties of Rehmannia glutinose Liboschitz, the pure line selection method, which is to select the best line among those cultivated in farms for pedigree breeding, replicated yield test and regional adaptation test before registering as a new variety, is widely used. Until now, there are 8 registered varieties of Rehmannia glutinose Liboschitz in Korea. The needs for development of disaster-resistant varieties with better chances of surviving when high temperature, salts and disease are increasing. Therefore, this study focused on cultivation of disaster-resistant varieties among those selected for their disaster tolerance and salt tolerance through regional adaptation test. Methods and Results : As a result of examining the incidence of pest insects of the selected 1 - 2 years old varieties used in the study, among the 2-years-old crops, RGES 20 showed the lowest rate in ground parts. Among the 1-year-old crops, the lowest rate incidence of pest insects in ground parts was observed in RGES 23. In addition, RGES 20 and RGES 23 showed superior growth in under ground part with the highest dry root amount. Conclusion : Based on the above results, RGES 20 among the 2-years-old crops, RGES 23 among the 1-year-old crops showed superior growth in under ground part with the highest dry root amount.

Background : For cultivation of varieties of ginseng, the pure line selection method, which is to select the best among those cultivated in farms for pedigree breeding, replicated yield trials and regional adaptation trials before registering as a new variety, is widely used. Although there are 25 registered varieties of ginseng in Korea, the quality of ginseng is declining together with the amount of harvest being decreased by 15 - 20% due to the heat injuries and diseases from the warming & abnormal climate. Thus, the needs for development of disaster-resistant varieties with better chances of surviving through high temperature, salts and disease are increasing. Therefore, this study is to cultivate disaster-resistant varieties among those selected for their disaster tolerance and salt tolerance through regional adaptation trials. Methods and Results : As a result of examining the growth characteristics of the selected 2 - 5 year old varieties used in the study, among the 5-year old crops, Goryeo 4 and Eumseong 5 showed superior growth in both above and below aerial parts, and among the 4-year old crops, Eumseong 11 and Cheonryang showed superior growth while the growth in the below aerial parts were satisfactory in the order of Cheonryang > Eumseong 10 > Eumseong 11 > Eumseong 9. Among the 3-year old crops, the most superior growth in both above and below aerial parts was observed in Eumseong 14 with the weight of the below aerial part, root diameter and taproot length at 13.8 g, 11.8 ㎝ and 6.2 ㎝ respectively. Among the 2-year old crops, Eumseong 10 showed the most superior growth in both above and below aerial parts. Conclusion : Based on the above results, Goryeo 4 and Eumseong 5 among the 5-year old crops, Eumseong 11 among the 4-year old crops, Eumseong 14 among the 3-year old crops and Eumseon 10 among the 2-year old crops showed the most superior growth among the selected varieties. The growth characteristics of both above and below aerial parts in each year will continuously be monitored.

최근 들어 기후변화로 인한 수자원 분야의 잠재적 영향 예측 및 평가를 위한 연구를 활발히 수행하고는 있으나, 수문기상학적인 자연현상을 정확히 예측하기란 사실상 어려운 일이며, 불확실성이 매우 크다는 문제점과 지역규모 유역의 기후변화 영향에 대한 종합적 평가기준이 아직까지 모호하다는 어려움을 안고 있다. 최근에 실시된 4대강 정비 사업은 변화된 하천 조건과 기후변화에 따른 유역의 수자원 예측의 불확실성과 기후변화 영향 평가와 대응책 마련의 어려움을 더욱 가중시키는 인자로 작용할 수 있다. 그러나 아직까지 일반화된 지역규모 유역에 대한 수문학적 통합위험지수에 대한 연구는 기초단계에 있으며, 지역적 규모의 기후변화 영향분석 및 취약성 평가를 위한 개념적 인자분류 체계 구축을 통한 표준화 연구의 수행이 필요하다. 본 연구에서는 4대강 하천정비 사업 이후 행정구역단위 중소규모 유역에 대하여 통합지역위험지수 산정을 통한 개념적 인자분류체계를 구축하여 기후변화와 수자원 영향 평가를 실시하였다. 본 연구는 기후변화로 인한 수문학적 위험성을 표준화하고 정량화된 값으로 제시할 수 있다는 점에서 장점이 있으며, 최근 4대강 사업으로 인하여 변화된 하천유역에 대하여 지역적 규모의 수문학적 위험도 변화를 효율적으로 평가하고, 체계적인 수자원 관리계획과 기후변화 적응을 위한 지역의 통합위험성 평가를 위한 기초자료로 활용될 수 있을 것으로 기대된다.