백색칼라(Zantedeschia aethiopica) 신품종 ‘Swan’은 국립원 예특작과학원에서 2017년에 육성하였다. ‘Swan’의 모본은 다화성인 ‘Childsiana’와 무름병에 강한 ‘Wedding March’를 부본으로 2004년에 교배하여 구근을 양성 후 2008년부터 2016년까지 생육 및 개화 특성, 균일성에 대하여 특성검정을 실시하였다. 2017년에 3차 특성검정을 실시하여 최종 선발한 후 직 무육성품종심의회에 상정하여 ‘Swan’으로 명명하였다. ‘Swan’ 의 생육 및 개화특성은 부본으로 사용된 ‘Wedding March’를 대조품종으로 조사하였다. 백색(RSH W155C)화색의 ‘Swan’ 은 화포의 길이와 폭이 각각 11.2cm와 10.3cm인 중형 품종이다. 주당 화수는 2.1개로 대조품종보다 2배 많으며 꽃대길이가 77.1cm로 대조품종(68.7cm)보다 길다. 개화소요일수는 65 일로 조기개화 품종이다. 절화수명은 17일(대조12일)로 길며, 무름병 중도저항성으로 구근증식량(13.3개/주)이 우수하고 소비자기호도가 높다. ‘Swan’ 품종은 2020년 4월 28일에 국립종 자원에 품종등록(등록번호 제8092호)되었다.
Thrips from the genus Frankliniella (Thysanoptera, Thripidae) are a serious insect pest of various crops, including vegetables, fruits and ornamental plants. Thrips cause significant economic damage plants directly by feeding, and indirectly by acting as vectors for the tospoviruses such as Tomato spotted wilt virus (TSWV) and Chrysanthemum stem necrosis virus (CSNV) in chrysanthemum. To investigate the associations of thrips with tospoviruses and their ability to transmit, we have developed a protocol for identifying tospovirus and thrips species simultaneously in an individual thrips sample was successfully conducted. Total RNA was extracted from thrips according to manufacturer’s insturctions of RNeasy mini kit (Quiagen co.), and then TSWV was identified by reverse transcription-polymerase chain reaction (RT-PCR) using TSWV specific primers for the N genes. The residual genomic DNA in thrips RNA extract was used as a template to identify thrips species by PCR using universal primers for ITS2 region and subsequently digesting the PCR product by an restriction enzyme (RsaI) In addition, a classification into the species of thrips was confirmed using the nucleotide sequence of PCR products. The developed protocol was applied to investigate the occurrence of viruliferous thrips species in thrips populations collected from chrysanthemum fields. In this study, most of thrips were identified to Frankliniella spp. and thirps that acquire TSWV was 14 % of 65 thrips.
국내에서 재배하는 주요 핵과류(복숭아, 자두, 매실, 체리)에 발생하는 깍지벌레는 뽕나무깍지벌레(Pseudaulacaspis pentagona), 말채나무공깍지벌레(Lecanium corni), 무화과깍지벌레(Coccus hesperidum), 가루깍지벌레류(Pseudococcus sp.) 4종이 발견되었으나, 뽕나무깍지 벌레는 2017년에 총 113과원 중 103과원(발생과원율 91.2%), 2018년에는 77과원 중 64과원(발생과원율 83.1%) 모든 핵과류에서 가장 많이 발생하여 우점종으로 확인되었다. 2017년도에는 5월 상순부터 부화를 시작하여 암컷성충 1마리가 평균 75.5개(47∼159개)의 알을 낳으며 모든 알이 부화하는데 약 19일이 소요되었으며 5월 20일경에 월동성충의 모든 알이 부화하였다. 그러나, 2018년에는 4월 하순부터 부화를 시작하여 (부화율 72%) 부화유충(1령)으로 이동 후 5월 중순부터 고착유충(2~3령), 6월 중순부터 2세대 성충이 활동하기 시작하였다. 부화유충기(1령)에 약제 살포를 하면 살충율이 100.0%이었으나, 고착유충기(2~3령)에는 살충율은 2.7%에 불과하였다. 부화약충기를 제외한 모든 단계에서 몸체가 밀납깍지로 덮여 있어 약제를 살포하여도 직접 접촉되지 않아 치사율이 낮았다. 따라서 반드시 부화약충기에 약제를 살포하여야 방제효과를 높일 수 있다.
Background : The research is designed to investigate the optimal cultivation technology and the growth of above-ground and below-ground sections as well as the photosynthetic characteristics for new ginseng variety “K-1” by differentiating the planting density under the conditions of transplanting and direct seedling. Methods and Results : The K-1 variety and hybrid variety (Jakyungjong) were selected for the research and the ginseng varieties were transplanted and directly sown in Yeoncheon area in 2013. The transplanting was made in the form of 5 lines × 9 rows (45 plants), 6 lines x 9 rows (54 plants), 7 lines × 9 rows (63 plants) and 8 lines × 9 rows (72 plants) in each lot (1.65㎡) while the direct seedling for testing was conducted three times in randomly blocked design in the form of 11 lines × 14 rows (154 plants), 12 lines × 14 rows (168 plants), 13 lines × 14 rows (182 plants). Various measures were collected from the 4-year transplanted ginseng and 3-year direct seedling ginseng in 2015 to find out the growth features and photosynthesis of above-ground section (rate of germination, leaf length, leaf width, stem length and leaf area index (LAI)) and the below-ground section (length, diameter, weight and class of roots). Conclusion : After the planting of the ginseng, the germination rate of K-1 for the transplanting was 85.1 ~ 92.0% across different plantation densities while that for the direct seedling was 67.7% ~ 77.9% across plantation densities, thus showing no significant difference between the two planting methods. LAI was higher for the higher planation density for both transplanting and direct seedling. As for the photosynthesis speed, the form of 6 lines × 9 rows showed the higher speed in transplanting while the form of 12 lines x 14 rows showed the higher speed in direct seedling. The photosynthesis of K-1 was higher than that of Jakyungjong. In the 4-year ginseng cultivated under the transplanting, diameter of roots, number of branch roots and weight of raw ginseng were the highest in the plantation density of 5 lines × 9 rows. The distribution of root weight was high with 23.3% and 20.0% for the 51~70g group and the 71g or above group, respectively, for the 4 year transplanted plants in the form of 5 lines × 9 rows. The growth for above-ground and below-ground sections for K-1 was better than that for Jakyungjong. As a result, it was found that the proper plantation density for the 4-year root in the transplanted K-1 was 5 lines × 9 rows considering the growth of the above-ground section, quantity and distribution of root weight.
미성숙 종자로부터 추출된 전체 RNA를 이용하여 합성한 cDNA와 LMW-GS 특이 프라이머세트를 이용하여 43개의 LMW-GS 유전자를 분리하였다. 각각의 유추 아미노산은 상동성이 높은 20개의 시그널 펩타이드, N-말단 영역, 반복서열영역 그리고 C-말단 영역을 가지며 C-말단 영역에 분자내 혹은 분자간 이황화 결합을 형성하는 전형적인 8개의 시스테인을 가지고 있었다. 이들 시스테인의 위치는 첫번째, 일곱번째를 제외하고는 보존되어 있었다. Ikeda