“고강”은 고품질･내병･다수성 지황 개발을 목표로 지황1호 실생 집단에서 우량 개체를 선발, 증식을 거친 후 2001～’02년 생산력 검정시험을 실시하였다. 그 결과 고품질이면서 병해에 강하고수량성이높아수원7호로계통명을부여한후, 2003～’05년까지 3년간 지역적응시험을 실시한 결과 우수성이 인정되어 2005년 12월 직무육성 품종 심의회를 거쳐 “고강”으로 명명하였는바 그 주요특성을 요약하면 다음과 같다. 1. 고강의 초형은 지면에서 약간 솟아오르는 형태를 나타내며, 생육중기 완전 전개된 잎중 가장 어린잎들의 색깔은 안토시아닌 색소를 거의 띠지 않아 대비품종과 구별된다. 2. 고강은 지황1호에 비하여 잎이 크고 많으며, 뿌리가 굵고 길다. 3. 고강은 병에 대한 저항성도 비교적 강하여 생산의 안정성이 높은 품종이다. 4. 고강은 2003～’05년까지 3년간 실시한 지역적응시험결과 수원 등 3지역에서 모두 증수되는 것으로 나타났고, 3지역의 10a당 평균 수량은 1,186kg로 지황1호 대비 13% 증수하였다. 5. 고강은 지황의 주요성분인 catalpol과 엑스함량이 지황1호에 비하여 많은 고품질 품종이다.

This study was carried out to establish an optimum method for identifying the volatile components of Magnolia ovobata Thunb. using the dynamic headspace (Purge & Trap) and simultaneous distillation and extraction (SDE) method. Between the two different identification analysis, the volatile components were more easily detected in the SDE than the Purge & Trap method. Among the identified volatile components, the 12 compounds were detected to have similar retention times and match quality within the 45 minutes in both identification methods. The maximum values of the major volatile components were detected differently by SDE and (Purge & Trap) method such as α-pinene (3.4, 18.2%), β-pinene (3.5, 10.3%), l-limonene (5.2, 15.4%). These results indicated that the Dynamic Headspace (Purge & Trap) was much more reliable method for identifying the volatile components of Magnolia ovobata Thunb. as compared to the SDE method.

The various plant organs of fennel (Foeniculum vulgare Mill.) were investigated to identify their volatile components using Dynamic Headspace (purge & trap). They showed slight differences concerning the volatile components both qualitatively and quantitatively. Results revealed that trans-anethole (12.65%) was the major compound in the leaf. The highest compound was α-pinene (28.78%), and trans-anethole (7.90%) was highly detected in the stem. The maximum values were 5.64, 4.59, 1.58, 1.51, and 1.04% for α-pinene, γ-terpinene, β-pinene, 1,8-cineol and fenchone, respectively in the flower. However, very little trans-anethole was detected (0.27%) in the flower. From these results, it was suggested that the major components were different depending on the plant organs. However it was demonstrated that the related plant organs like flower-fruit and leaf-stem contained the similar components.