본 시험은 열대지역적응 자포니카인 진미벼, IRKR 1 (IRRIRice and Korea Rice 1 약칭, 계통명은 IR 68333-R-R-B-22)및 인디카인 IR 64 품종에 대하여 필리핀인을 주요 대상으로쌀 외관 및 밥맛 선호도를 평가하여 개발된 품종의 농가 재배확대 및 새로운 품종개발의 기초자료로 이용하고자 수행하였다. 1. 쌀의 외관품질 선호도 평가에서 패널로 참여한 필리핀인은 투명도·외관 > 향·색깔 > 쌀의 길이·모양 순이었다. 한국인은 쌀의 길이·모양· 투명도 > 외관 > 색깔·향 순이었다. 따라서 필리핀인은 완전미율이 높고 향이 나는 쌀을, 한국인은 단원립이면서 완전미율이 높은 쌀을 선호하였다. 2. 식미관능평가 결과 필리핀인은 인디카 고아밀로스 품종인 IR 64보다 자포니카 중간아밀로스인 진미벼와 IRKR 1을선호하여 기존에 알려진 인디카를 선호한다는 선행 연구결과와는 상이하였다. 3. 따라서 패널로 참여한 필리핀인의 자포니카 쌀에 대한 선호도를 보다 정확하게 평가하기 위해 식미관능평가 5개 항목별 선호도를 분석한 결과, 밥의 모양, 냄새, 맛, 질감은 통계적차이가 없었다. 반면 찰기는 진미벼 보다는 IRKR 1을 선호하였다. 반면 한국인은 진미벼 보다 IRKR 1이 밥의 찰기가 적고 질감이 거칠면서 딱딱한 촉감으로 인해 진미벼를 선호한것으로 고찰된다. 4. 이상의 결과를 요약하면, 패널로 참여한 필리핀인이 선호하는 자포니카 쌀의 식미는 한국인이 선호하는 것 보다는 찰기가 적고, 질감은 좀 더 딱딱한 것으로 사료된다.

‘대흑’은 밥밑용 특성이 우수한 단경 내재해 다수성 신품종 육성을 목표로 대립 장류용 품종인 대황콩과 단경 내도복 내재해 다수성 계통인 밀양 79호를 1997년 인공교배하여 계통 육종법으로 선발한 YS1298-2B-20-5-1-1-1 계통이다. 계통명은 ‘밀양158호’이고 품종등록번호는 No. 3009이며 주요특성은 다음과 같다. 1. ‘대흑’의 신육형은 유한신육형이며 화색은 자색이고 엽형은 환형이다. 모용 및 성숙기의 협은 갈색이며 종피색과 제색은 흑

　A new kidney bean cultivar, “wanghyeob 2”was developed for edible pod kidney bean adaptable to Korean cultivation at the National Institute of Crop Science in 2005. “wanghyeob 2”was selected from a cross between KLG50073 and KLG50072. It has determinate growth habit, white flower, yellow pod color, oval shape of crossed section of pod at the harvesting time for edible pod. It has white seed coat and middle seed size (20.4 grams per 100 seeds). The average yield of edible pod of “wanghyeob 2”was 22.43 M/T per hectare in the yield trials which was carried out at the green house in spring and autumn in 2005. This yield level was 11 percent higher than that of the check cultivar “angnangkong 1”

A new kidney bean cultivar, “wanghyeob 1”was developed at the National Institute of Crop Science in 2005. “wanghyeob 1”was selected from a cross between KLG50064 and KLG50073. It has determinate growth habit, white flower, yellow pod color, oval shape of crossed section of pod at the harvesting time for edible pod, white seed coat and middle seed size (21.7 grams per 100 seeds). The average yield of edible pod of “wanghyeob 1”was 23.55 M/T per hectare in the yield trials which was carried out at the green house in spring and autumn in 2005. This yield level was 4 percent higher than that of the check cultivar “angnangkong 1”

‘oamibyeo’ a mid-late maturing ecotype with high amylose content in kernels, was developed by the rice breeding team of National Yeongnam Agricultural Experiment Station(NYAES) in 2000 and released in 2001. This variety was derived from the three way cross of Milyang 95//Kimcheonaengmi/2*Ilpumbyeo (in 1992 summer) through the pedigree breeding method and designated as ‘ilyang 168’in 1997. The heading date of ‘oamibyeo’was Aug. 18 in ordinary season with culm length of 85 cm. However, ‘oamibyeo’showed susceptible to bacterial leaf blight, stripe virus and leaf blast disease. The amylose content of ‘oamibyeo’in milled rice kernels is about 26.7% with translucent and clear in chalkness. Thus, ‘oamibyeo’is expected to be used as a source grain for rice noodle industries. The milled rice yield potential of ‘oamibyeo’is about 5.38 MT/ha in local adaptability test of three years and it would be adaptable to Yeongnam plain of Korea.

Lodging is classified as root lodging caused by the loss of supporting force in the root, bending caused by the deformation of the stem and breaking where the stem breaks down as loads exceeding critical elasticity were applied. This research excluded breaking which is not in a state of equilibrium and tried to partition the level of lodging using an algebraic model in root lodging and stem lodging, or bending. When a vertical load was applied, the deformation of the stem of rice plant showed the form of a quadratic equation. The trace of the panicle neck in the process of lodging was an ellipse-shape. When loading was pure root lodging, the trace of the panicle neck became a circle of which culm length is the radius. When it was a pure stem lodging, the trace of the panicle neck is an ellipse of which major axis is culm length and minor axis is 0.64* culm length. When both stem lodging and root lodging occurred in a natural setting, the partitioning of lodging can be calculated by a formula using eccentricity of an ellipse, S=e*100/0.768(S is the ratio of stem lodging in the whole lodging, e is eccentricity of the ellipse). This method is expected to be useful in simple lodging partitioning. We could also calculate the partitioning of stem lodging and root lodging as units of angles as an accuracy method, by using a straight line calculated by differentiating a quadratic equation of stem deformation at the origin of the coordinates. These two methods for dividing root and stem lodging showed different values. However, each of them showed almost same values with different lodging degree in one plant.