동소동속종인 팥나방(Matsumuraeses phaseoli)과 어리팥나방(M. falcana)(나비목: 잎말이나방과) 사이에 교잡 가능성을 알아보기 위해서 실험실에서 인위적으로 두 종을 교잡시켰다. 두 종의 암수를 교차하여 교미시켰을 때, F1 잡종세대가 발생하였다. 두 잡종세대 집단을 집단 내 및 집단 간 암수를 교차하여 교미시킨 경우들에서, 팥나방 암컷과 어리팥나방 수컷이 교잡되어 생성된 F1 잡종세대 집단(H집단)의 암컷이 같은 집단의 수컷 혹은 다른 집단의 수컷과 교미되었을 때, F2 후대를 거의 생성하지 못했다. 다른 집단으로 만들어진 F2 세대는 집단 내 교미에서 F3 세대를 생성시켰다. F1 잡종세대 집단 암수와 팥나방 혹은 어리팥나방 암수를 각각 교차하여 교미시킨 역교잡 8개 집단 중에서도 H집단의 암컷과 짝지어진 어미세대 수컷 집단 2개는 전혀 산란하지 못했다. 후대가 생성된 다른 6개 집단은 모두 집단 내 암수 교미에서 역교잡 F2 세대를 생성하였다. 이 결과는 팥나방 암컷과 어리팥나방 수컷이 교미하였을 경우 F1 후대잡종을 생성할 수 있으나, 이 F1 후대잡종 암컷은 불임이 되는 것을 나타냈다. 결과적으로 두 종 사이에 접합후 생식단계에서 부분적인 생식격리가 발생할 수 있는 것을 나타냈다.
A new Hibiscus cultivar ‘Woolred’ having vigorous growth, uniform plant habit, upright, compact branches, and unique flower shape was developed through interspecific crosses between H. sinosyriacus ‘Seobong’ (♀) and H. syriacus ‘Samchully’ ( ♂ ). Hibiscus breeding program was initiated in 2002 and Hibiscus × ‘Woolred’ was preliminarily selected as ‘R-161’ in 2004 due to its vigorous growth and stable flower quality with rich pink flower. The selected line was further evaluated for different growth characteristics such as leaf shape, leaf size, flowering characteristics, and tested for distinctness, homogeneity, and stability during 2007-2009. The new cultivar ‘Woolred’ had violet pink color flower (RHS N74C) with red eye spot, medium in size having fan petals. The size of flower was 11.5 cm and size of red eye was 3.2 cm. Leaves were 7.7 cm long and 4.2 cm wide. After the plant characteristics evaluation for 3 years (2007 ~ 2009), it was registered as a cultivar ‘Woolred’ (3702, No. of plant variety protection rights) in 2011. This newly developed cultivar ‘Woolred’ having vigorous growth and unique flower shape can be used as specimen plant in landscape.
A new Hibiscus cultivar ‘Tohagol Red’ with unique flower shape and color, uniform growth habit and hardiness was developed through interspecific hybridization between Hibiscus sinosyriacus and H. syriacus. A new cultivar 'Tohagol Red' (Hibiscus × ‘Tohagol Red’) developed after crossing between Hibiscus sinosyriacus ‘Seobong’ ( ♀) with pink flower and Hibiscus syriacus ‘Samchully’ with pink flower to improve flower quality and growth habit in 2002. Hibiscus ‘Tohagol Red’ was preliminarily selected as ‘R 202’ in 2004 for its stable flower quality with rich pink flower and ruffled petals. This cultivar had violet purple, ruffled flowers accented by an intense red eye. Large and showy, the overlapping flower petals formed a complete circle and then named ‘Tohagol Red’ in 2010. The tree showed medium growth habit with slightly upright branch. The selected line was further evaluated for different growth characteristics, leaf shape, leaf size, flowering characteristics, and tested for distinctness, homogeneity, and stability during 2004-2009. In The flowers are medium in size (11 ~ 13 cm) with fan (II-type) petal having width 9.2 cm. Leaves are 7.2 cm long and 5.4 cm wide. After the plant characteristics evaluation for 6 years (2004 ~ 2009), it was registered as a cultivar ‘Tohagol Red’ (3803, No. of plant variety protection rights) in 2011. ‘Tohagol Red’ having violet-purple flower and red eye with ruffled petals is an excellent garden plant.
Lilies are of great economic important floweringplant that belongs to the genus Lilium can be grown underdiverse climatic conditions. During the last decade the lilyhas gained popularity worldwide among cut flowers and pot-ted flowering plants. Seeing the great recognition of lilies ininternational flower trade, several breeding approacheshave been adopted on different Lilium sections/groups andmore than 10,000 lily cultivars have been bred. Innovativebreeding strategies and advancement in molecular and bio-technology techniques have made the assortment of liliesdramatically. Different DNA marker approaches have greatpotential to increase the precision and efficiency of conven-tional lily breeding via marker-assisted selection (MAS) anddifferent breeders used it for Lilium crop improvement. Inthis review, different approaches and techniques that lilybreeders have employed to develop novel cultivars are dis-cussed. It is imperative to recognize that there must be anenhanced integration and synchronization in different lilyobjective oriented breeding programs, so that current issues,barriers etc. can be well identified with their appropriatesolutions.
The large bumblebee, Bombusterrestris, indigenous to Europe and adjacent area, and used extensively for high-value crop pollination, has been artificially introduced to several parts of the world. Here we show the interspecific hybridization between the bumblebee species, B.hypocrita sapporoensis and B.terrestris, under laboratory conditions. The mating and oviposition percentages resulting from the interspecific hybridization of a B.terrestris queen with a B. h. sapporoensis male were higher than those resulting from the intraspecific mating of B. h. sapporoensis. Furthermore, a competitive copulation experiment indicated that the mating of B. h. sapporoensis males with B.terrestris queens was 1.2-fold more frequent than the mating of these males with B. h. sapporoensis queens. The interspecific hybridization of a B.terrestris queen with a B. h. sapporoensis male produced either B.terrestris workers or the B.terrestris male phenotype, and the hybridization of a B. h. sapporoensis queen with a B.terrestris male produced B. h. sapporoensis males. Our results indicated that interspecific hybridization occurred between B. h. sapporoensis and B.terrestris. The results suggests that such hybridization will have a negative competitive impact and will cause genetic contamination of native bumblebees.
이탈리안 라이그라수(Lolium muliflorum Lam.)의 원형질체 분리 및 생존성에 영향을 미치는 몇가지 요인들에 대하여 조사한 바 다음과 같은 결과를 얻었다. 성숙배. 미숙배 및 유종에 있어서 분화력이 높이 캘러스 유기는 에서 7일간 저온처리와 기본배지에 5mg/을 첨가한 것이 효과적이었다. 캘러스로부터의 재분화는 BAP 0.2mg/l와 2,4-D 2mg/l의 조합에서 가장 좋았다. 유종에서 유기되 현탁배양 세포를 액체배지에서 5일 간 진탕배
Tall fescue(Festuca amndinacea Schreb.) is a productive pasture grass that is widely adapted to the soil and climate of Korea. It is regarded, however, as relatively low in palatability and nutritive value. On the other hand, Italian ryegrass(lo1ium rnult
Using fluorescent microscopy and Nomarski`s interference microscopy, pollen tube growth, and embryo andendosperm development were observed to elucidate interspecific cross-incompatibility in the genus of Fagopyrum. Interspecifichybrdization between Fagopy
Glycine속의 야생 다년생종인 G. tomentella가 가지고 있는 내병성, 고단백 및 다년생 유전자등 유용형질들을 재배콩(G. max)에 도입하기 위한 종간교잡시 염색체수가 다른 4개의 G. tomentella (2n=38, 40, 78, 80) 계통들과 재배콩과의 교잡친화성 검정, 정역간 교잡효과, 교잡엽의 발육비교, 종간 교배적기 등에 대해 시험한 결과를 요약하면 다음과 같다. 1. G. tomentella의 염색체수가 2n=38, 40, 78, 80인 4개 계통과 재배콩인 울산콩, 뱀콩, 단엽콩과의 종간 교잡에서 G. tomentella의 염색체수가 2n=38인 계통과 교배된 것이 교배율 및 교배후 경과일수에 따른 협생존률이 가장 양호하여 2n=38계통이 재배콩과의 교잡친화성이 가장 높은 것으로 나타났다. 2. G. max(cv. Baemkong)와 G. tomentella(2n=38)와 종간교잡에서 정역교잡 효과는 G. max를 모본으로 했을 때가 G. tomentella를모본으로 했을 때보다 교배율이 더 높았고, 엽생존기간도 더 길어 정역교잡의 효과가 인정되었다. 3. G. max(cv. Baemkong)와 G. tomentella(2n=38)와의 종간교잡에서 교잡협의 발육상태를 자가수정된 모본의 협과 비교했을 때 G. max를 모본으로 한 것이 G. tomentella를 모본으로 한 것보다 협당 배주수의 감소율이 적었으나, 교배후 경과일수에 따른 협의 장, 폭 및 무게는 G. max를 모본으로 한 경우가 생육이 저조하였다. 4. 자연조건에서 G. max와 G. tomentella(2n=38)와의 종간 교잡을 할 경우 6월 이나 7월에 하는 것보다 대체로 온도와 습도가 높고 단일조건인 8월 중하구에 하는 것이 교배율이 높았다.