국화에서는 파밤나방은 7~10월에 주로 발생하여 잎과 줄기, 꽃잎에 피해를 주는 해충이다. 시설에서 재배되는 국화에 대하여 파밤나방에 대한 경제적피해수준 및 요방제 수준을 추정하였다. 파밤나방의 접종시기와 접종량에 따른 수량과 관계를 조사하였다. 국화 백선을 정식후 14일과 정식후 83일(꽃눈형성기)에 파밤나방을 100주와 20주에 각각 0, 5, 10, 20, 40마리를 접종하였다. 100주에서 20마리 접종 과 40마리 접종에서 9월13일 피해엽율은 각각 58.3%, 57.6%를 나타내었다. 파밤 나방 무방제구에 대한 수량은 47,142.9본/10a이었으며 수량감소율은 72.5%로 12964.2본/10a 였다. 꽃눈형성기에 국화 파밤나방의 유충밀도와 수량감소율과의 상관관계식은 Y = 18.5X-13.5 (R2=0.9661)의 회귀식을 얻을 수 있었고 파밤나방 접종밀도에 따른 피해엽율과 수량감소율의 관계는 정의 상관관계가 있는 것으로 나타났다. 경제적허용수준은 20주당 유충 1마리이며 방제가 필요한 수준은 20주 당 유충 0.8마리였다.
상업적으로 이용되는 국내 국화재배는 대부분 절화용으로 ‘07년 재배면적은 736ha, 생산량은 433백만본에 달하여 우리나라 전체 절화생산액의 24.4%를 차지하고 있다. 이에 따라서 국화에 발생하는 해충은 매우 다양하다. 점박이응애, 아메리카잎굴파리, 목화진딧물, 국화꼬마수염진딧물, 꽃노랑총채벌레, 담배거세미나방, 파밤나방, 애긴노린재, 국화하늘소, 민달팽이 등이 있다. 이중 시설재배농가에서 문제되는 해충은 점박이응애, 아메리카잎굴파리, 목화진딧물, 꽃노랑총채벌레였으며 노지에서는 주로 목화진딧물, 점박이응애, 애긴노린재, 파밤나방이었다. 국화 품종별로 아메리카잎굴파리에 대한 피해를 100평정도 되는 하우스내에서 45품종에서 대하여 7월 상순부터 10월 하순까지 조사하였다. 품종은 노아, 문라이트, 예스모닝, 투마코, 포드, 휘파람, 위니아, 델리아크림 등을 이용하였다. 아메리카잎굴파리에 대한 품종별 피해는 10월 중순에 예스모닝은 아메리카잎굴파리 피해엽율이 62.9%, 위니아에서는 31.5% 나타났으며 노아는 18.8% 였으며 예스모닝, 위니아, 노아를 선호하였다. 아메리카잎굴파리에 대해서 피해엽율이 가장 낮은 품종은 휘파람, 일월, 보라미였다. 또한 친환경자재를 포함한 11가지 약제를 이용하여 아메리카잎굴파리에 대한 번데기 살충율을 조사하였다. 그 결과 파단수용제가 아메리카잎굴파리 번데기에 대해서 방제가 97.3% 였으며 코니도수화제 74.3%, 모스피란수화제 55.3%, 친환경자재인 잎실드가 54%였다.
국화에 발생하는 주요 해충은 아메리카잎굴파리, 목화진딧물, 점박이응애, 총채벌레였다. 총채벌레류는 꽃노랑총채벌레와 대만총채벌레가 발생하였다. 이 조사는 황색끈끈이트랩과 육안조사를 충남지역에서 예산과 태안을 중심으 로 조사하였다. 4월 하순 정식시 목화진딧물은 총채벌레보다 적게 발생하며 대만총채벌레가 생육초기에 가해하다가 꽃노랑총채벌레가 우점하였다. 아메리 카잎굴파리는 5월 중순부터 6월중순까지 밀도가 높아졌고 무방제구에서는 잎 굴파리좀벌에 의한 증가로 아메리카잎굴파리밀도가 낮아졌다. 7월 정식작형에 서는 8월부터 10월까지 노린재와 국화꼬마수엽진딧물이 우점하였고, 10월상순 에는 노린재가 최고 발생기였다. 국화 품종별로 아메리카잎굴파리에 대한 피해는 7월 상순부터 10월 하순까 지 조사하였다. 품종은 노아, 문라이트, 예스모닝, 투마코, 포드, 휘파람, 위니 아, 델리아크림을 이용하였다. 아메리카잎굴파리에 대한 품종별 피해는 10월 중순에 예스모닝은 아메리카잎굴파리 피해엽율이 62.9%, 위니아에서는 54.3% 나타났으며 노아는 24.8%였으며 예스모닝, 위니아, 노아를 선호하였다. 목화진 딧물은 8월 중순에 엽당 마리수가 노아에서 90마리, 투마코에서 58마리였으며 10월 중순에 예스모닝은 엽당 마리수가 28마리, 노아가 4마리, 델리아크림이 3마리 였다.
본 시험은 단고추 자루식 양액재배시 육묘일수에 따른 생육, 수량에 미치는 영향을 구명하고자 풋트당 2주로 하여 육묘일수 20일, 30일, 40일, 50일, 60일 처리구를 두고 재배를 요약하면 다음과 같다. 묘 소질은 육묘일수가 길수록 묘 생육이 좋았고 정식후 개화일 빨랐으나 평균 개화소요일수는 30일묘에서 48일로 가장 짧았고 다음으로 20일묘 순이었다. 뿌리활력은 20일과 30일묘에서 양호하였고 1차측근수는 30일묘가 1.5mm 이하 굵기의 뿌리수가 106.5개로 가장 많았으며 1차 측근장도 1,085cm로 가장 길었다. 정식후 생육은 엽중, 그중,경중 모두 30일묘에서 좋았으며, 수량은 수확초기에는 육묘일수가 긴 60일과 50일묘에서 수량이 많았으나 재배기간이 길어질수록 30일과 40일묘에서 수확량이 많았고 총수량도 많았다.
Background : Insect pests damages are increasing on the field of Lycium chinense under organic farming management and especially, pest damage of Gelechiidae (Ilseopsis parki Povolny) is serious. Currently, various organic farming materials are registered, but insecticidal activity against Gelechiidae was not verified. Therefore, this experiment was carried out to screening for effective organic farming materials showing insecticidal activity in Gelechiidae.
Methods and Results : Screening for effective organic farming materials (OFM) showing insecticidal activity in Gelechiidae, we screening OFMs through in vitro testing Among them, OFMs showing insecticidal activity were first selected through field test. In the field test method, OFMs was sprayed at the time of moth occurrence, after 5 days of treatment, insecticidal activity was investigated as a result, a total of five OFMs were selected through the in vitro test and the Sophora japonica and three plant extracts showed the best control effect at 81.7%. in 2017. In 2018, the 2017 selected OFM and 4 kinds of new OFMs were field tested. The field test was performed in the same method as before. As a result, 2 kinds of OFMs made of Sophora japonica and three plant extracts extract and Sophora flavescens extract showed high control value of 87.3% and 88.3%, respectively. In contrast one organic agricultural material showed a chemical injury. To determine the timing of control, the extract was treated before and after topping and pretreatment of topping showed better control value by 80%.
Conclusion : Insecticidal activity against Gelechiidae was not effective in all tested OFMs, but the 2 OFMs showed a high control value of over 80%. In this study, we selected 2 materials out of 9 OFMs against Gelechiidae, and It was effective to treat OFM before topping.
Background : Boxthorn (Lycium chinense M. 2 n = 24) is a self-incompatibility crop of solanales. It can not be fertilized in the cultivation of single cultivars. Therefore it is necessary to select proper pollinizer. We selsected good line, Cheongyang 26, with Anthracnose-resistant and high yield. This experiment was carried out to select proper pollinizer through researching self-incompatible and Cross-compatibility.
Methods and Results : The self-incompatibility test of Cheongyang 26 was investigated fertilization rate and fruit Characteristics by artificial selfing fertilization. Investigation of fertilization rate and fruit characteristics by artificial fertilization was carried out to test cross-compatibility of Cheongyang 26 with Cheongwoon, Hokwang, Cheongdang, Cheonghong, Cheongkwang and Cheonggeum. Self-fertilization rate of Cheongyang 26 was 19.3%, self-incompatibility. In flowering period, Cheongkwang, Cheonghong, Hokwang, Cheongyang 26 and Cheongdang were early. The fertilization rate of Cheongkwang, Cheonggeum, Cheongwoon, Hokwang and Cheongdang in order was high when Cheongyang 26 was bred as seed parent. The fertilization rate of Cheonggeum, Hokwang, Cheongwoon and Cheongdang in order was high when Cheongyang 26 was bred as pollen parent. Cross-compatibility of Cheongyang 26 and Cheonghong was very low because of inbreeding. Anthracnose on fruits in open field was strong in Cheongyang 26, Cheonghong and Cheonggeum. The infection rates on leaves to Eriophys macrodonis Keifer was high in Cheongyang 26 and Cheongwoon.
Conclusion : The proper pollinizer of Cheongyang 26 in open field was Cheonggeum when considering flowering period, cross-compatibility, Anthracnose and Eriophys macrodonis Keifer. In rain-shelter plastic greenhouse, the proper pollinizer of Cheongyang 26 was Cheongwoon because it’s able to prevent Anthracnose in rain-shelter plastic greenhouse.
Background : Boxthorn (Lycium chinense M. 2 n = 24) is a self-incompatibility crop of solanales. It can not be fertilized in the cultivation of single cultivars. Therefore it is necessary to select proper pollinizer. We developed a new variety, Cheonggeum, with Anthracnose-resistant and high yield. This experiment was carried out to select proper pollinizer through researching self-incompatible and Cross-compatibility.
Methods and Results : The self-incompatibility test of Cheonggeum was investigated fertilization rate and fruit Characteristics by artificial selfing fertilization. Investigation of fertilization rate and fruit characteristics by artificial fertilization was carried out to test cross-compatibility of Cheonggeum with Cheongwoon, Cheongmeong, Hokwang, Cheonghong and Cheongkwang. Self-fertilization rate of Cheonggeum was 11.1%, self-incompatibility. In flowering period, Cheongkwang, Cheonghong, Cheongmeong, Hokwang and Cheongwoon were early in order. Flowering period of Cheonggeum was June 18. When Cheonggeum was bred as seed parent, the fertilization rate of Cheongmeong and Cheonghong were high. When Cheonggeum was bred as pollen parent, the fertilization rate of Cheonghong and Hokwang were high. Cross-compatibility of Cheonggeum with Cheongkwang or Cheongwoon was low. Anthracnose on fruits in open field was strong in Cheonggeum, Cheongmeong and Cheonghong. The infection rates on leaves to Eriophys macrodonis Keifer was middle in Cheonggeum, Cheongmeong, Hokwang, Cheonghong and Cheongkwang. But it’s was high in Cheongwoon.
Conclusion : The proper pollinizer of Cheonggeum in open field was Cheonghong when considering flowering period, cross-compatibility, Anthracnose and Eriophys macrodonis Keifer.
Background : The reduction in the area of cultivation and production is a difficult factor to solve in order to expand Boxthorn's culture for the main reasons for the aging agricultural labor and rising unit prices. Increasing the area of cultivation and production requires less labor and ease of work. This experiment was designed to provide improved plant type to increase the area of cultivation and to secure efficient machinery harvest.
Methods and Results : The variety of experiment is 'whasu' and was cultivated in 2015 and planted in fields on April 4, 2016. The plant types were 150 × 50 ㎝ T-shaped fence plant type. The number of times to be cut was two, and the branches were extended to produce fruits. The typical T-shaped fence plant type for comparison is made of two stems, 10 ㎝ in length, and a single cut, then a long stretch of branches for harvesting. As a result of the experiment, it was difficult to verify the applicability and quantity of the handy type harvesting machine in order to make the re-ordination, and from the following year it was possible to verify. Major items such as stem number, stem length, quantity, time of harvest, and efficiency of harvest were investigated when applying the handy type harvesting machine. Two stems had 20% more branches than a single stem, while the yield increased by 7%. Two stems, five ㎝ long, and two cuts were numerous and long, and the quantity was 33% higher than the customary T-shaped fence plant type. When working with the machinery harvest work, the ratio of work performed was 62% for harvesting, 19% for collection, and 19% for separation of foreign materials. The proportion of the collector work and the segmentation of design materials was 38%, which was an urgent problem to be remedied. Two stems, five ㎝, and two cuts increased the quantity by 33% compared to the customary method of T-shaped fence plant type, and the machinery harvest work efficiency was 56% higher, making it suitable for handy type harvesting machine.
Conclusion : T-shaped fenceplant type of two stems, five centimeters, and two cuts was a good shape for Handy type harvesting machine.
Background : Liriope platyphylla Wang et Tang is potent medicinal plant that is being used cough and asthmatic. Consumers interested in size and color choices when buying products. So, the class attributes and consumer choice differentiation by strengthening the competetiveness of farmhouse want to do.
Methods and Results : About 50 purchases for the studys gustionnaire responds by sending a consumer survey analysis was required about 30 people. For the classification by products test planting in the harvested produce, and below classification by size and color. Class size are high grade (tuberous root length 26.1 ㎜ more, tuberous root diameter 6.1 ㎜ more), middle grade (tuberous root length from 23.1 to 26.0 ㎜, tuberous root diameter from 5.6 to 6.0 ㎜), low grade (tuberous root length 23.0 ㎜ less, tuberous root diameter 5.5 ㎜ less) by size. The rate of goods continued raised from beginning April to beginning May by harvest time. High grade color is brightness (L, 54.9), red (a, 3.3) and yellow (b, 17.0) so that hold out bright color.
Conclusion : High grade have more tuberous root length and diameter size and hold out bright color
Background : The dried ripe fruits, leaf and root of boxthorn are widely used for medicinal purposes and as a functional food. Among them, frut is the most susceptible to anthracnose in the open field. Currently, there are only 5 fungicides registered in boxthorn anthracnose. In addition, resistance to fungicides caused by frequent use occurred in many open field, Therefore, a study on the fungicide resistance of boxthorn anthracnose was needed.
Methods and Results : In 2017, collected anthracnose from boxthorn fruit. The collected samples were isolated by a single spore isolation method and 20 isolates of Collectotrichum spp. were obtained To test for anthracnose fungicide resistance, propineb, tebuconazole, azoxystrobin and pyraclostrobin fungicide were used. Monitoring for fungicide resistance of Collectotrichum spp. causing boxthorn anthracnos to test fungicide were conducted by agar dilution method. The assay concentration were control, 0.01, 0.1, 1, 10, 100 ㎍/㎖ and strobilurin group of azoxystrobin and pyraclostrobin were treated salicylhydroxamic acid (SHAM) to the alternative breath suppression at a concentration of 100 ㎍/㎖. In the result, Prevention of fungicide propineb was more than 100 ㎍/㎖ of EC50, and tebuconazole was less than 1 ㎍/㎖ except for 1 isolate of EC50 azoxystrobin and pyraclostrobin showed a difference even though they had the same mode of action. Azoxystrobin showed almost no inhibition of mycelial growth except 6 isolates and remaining 6 isolates had EC50 of less than 1 ㎍/㎖, pyraclostrobin was divided into two groups of EC50, 6 isolates were less than 0.1 ㎍ /㎖ and 14 isolates were more than 1 ㎍/㎖.
Conclusion : In summary, response to fungicides of anthracnose, azoxystrobin of strobilurin group showed the highest resistance to fungicide. As these fungicide resistance continues to develop, we plan to register a new anthracnose fungicide and improve the control method.
Background : The most problematic disease in Boxthorn is Anthracnose in open field. New variety with Anthracnose-resistant is good for high yield and Safe fruit production in open field. Therefore it is necessary to develop a new variety with Anthracnose -resistant and high yield.
Methods and Results : The new boxthorn line, CB10511-104 was selected from the cross between CB09480-18 and Chunghong (IT258916) to breed new variety with high yield, Anthracnose-resistant and good color in 2011. Its preliminary yield test was performed from 2013 to 2014 and the selected line was named Cheongyang 26. Its regional yield trials were carried out in Cheongyang, Yesan and Jindo for 3 years, from 2015 to 2017. Cheongyang 26 was registered as the new variety, Cheonggang, in 2017. The specific characteristics were summarized as follows. Tree shape is semi-open type and the leaf is lanceolate and green color. The flowers are normal size and purple. The fruit is normal size, round oval and redish. The flowering was June 17 with medium flowering. Number of sprout branch by pruning was generated less than the check variety, Cheongmeong. The infection rates on leaves to Eriophys macrodonis Keifer of Chunggang, 54.4 percent, was higher than the check variety, Cheongmeong. Anthracnose on fruits in open field was slightly strong compared to the check variety, but check variety was Anthracnose-resistant. The content of betaine and free sugar in dried-fruits were higher than that of the check variety. The dried-fruit yield was increased about 26 percent in open field compared Cheongmeong.
Conclusion : This variety ‘Cheonggang’ was suitable for cultivation in open field and rain-shelter plastic greenhouse because of Anthracnose-resistant and good color. It is necessary the companion variety because of self-incompatible. It’s suitable ‘Cheonggeum’ in open field, ‘Cheongun’ in rain-shelter plastic greenhouse.
Background : Liriope platyphylla Wang et Tang is planting in April and harvest next April for the fourth season went through medicinal crops. This is why growth and impact on the quantity of additional fertilizer for application timing and amount of application is very important. To want to find out optimal method of additional fertilizer that can increase the quantity and quality application.
Methods and Results : So this study was designed in order to find out proper timing for application and amount of applied fertilizer. Timing for application were July, September, November (custom) and May, July, September and August, October, December. Amount of applied fertilizer were 7 ㎏, 13 ㎏, 19 ㎏ per 10 a. The result of an experiment, when In cultivation with timing for application was May, July, September and amount of applied fertilizer was 7 ㎏ per 10 a, In situation of growth and development, plant length was short and root length was long and number of plants was many than timing for application was August, October, December and amount of applied fertilizer was 19 ㎏ per 10 a. In addition, in quantity characteristics, tuberous root number was 44 to 68 more than 24 and tuberous root length and tuberous root thickness was long and thicker. When these growth and development situation and the quantity characteristics, yield was 275 ㎏ to 340 ㎏ more than 65 ㎏ per 10 a. That is 5.2 times.
Conclusion : In cultivation of Liriope platyphylla Wang et Tang, when the timing for application quickly start in May and reducing the amount of applied fertilizer was yield increased 5.2 times.
Background : Liriope platyphylla Wang et Tang are very sensitive to the excess moisture condition and dry crops. This is why the tuberous root is big and as many as the quantity for adequate water is needed. Study of proper bed width and hight to maintain optimal moisture for the high quality and yield.
Methods and Results : So this study was designed in order to find out proper bed Width and hight. Bed width were 80 ㎝, 100 ㎝, 120 ㎝ and hight were 10 ㎝, 15 ㎝, 20 ㎝. The result of an experiment, when cultivation with bed width 100 ㎝, hight 20 ㎝, In situation of growth and development, plant length and root length were long and number was plants was many than bed width 120 ㎝, hight 10 ㎝. In addition, in quantity characteristics, tuberous root number was 27 to 58 more than 31 and tuberous root length and tuberous root thickness was long and thicker. When these growth and development situation and the quantity characteristics, yield was 66 ㎏ to 252 ㎏ more than 186 ㎏ per 10 a.
Conclusion : In cultivation of Liriope platyphylla Wang et Tang, when to maintain optimal moisture with bed width 100 ㎝, hight 20 ㎝ have been higher quality and yield than cultivation with bed width 120 ㎝, hight 10 ㎝.
Background : Insect pests damages are increasing on the field of Lycium chinense under eco-friendly organic management and especially, pest damage of Gelechiidae (Ilseopsis parki Povolny) is serious. Currently, various eco-friendly organic materials are registered, but insecticidal activity against Gelechiidae was not verified. Therefore, this experiment was carried out to select eco-friendly organic materials showing insecticidal activity in Gelechiidae. Methods and Results : To test insecticidal activity, the Gelechiidae lavas were collected from the field and Nine eco-friendly organic materials were collected from the market. method. The insecticidal activity assay method was, putting Gelechiidae lavas on the 90mm petridish then water-diluted eco-friendly organic materials were sprayed onto the laver. Result of insecticidal activity was observed with a microscope 10 minutes, 2 hours and 18 hours after the treatment. Microscopic observation results, insecticidal activity was shown only in 5 out of 9 materials. Conclusion : As a result, Insecticidal activity against Gelechiidae was not effective in all tested materials, but the 5 eco-friendly organic materials showed the same effect in repeated experiments. In this study, we selected 5 materials out of 9 eco-friendly organic materials against Gelechiidae, then future studies are planned to select the most suitable materials by field testing the 5 eco-friendly organic materials.