This study was conducted to identify the insecticidal effect of a mixture of sophora extract and Bacillus thuringiensis against Spodoptera exigua on potted chinese cabbage in both laboratory and plastic house condition. In laboratory condition, mortality of larvae by BT (1×105, 1×106, 1×107 cfu ml-1) alone was 27.5%, 51.3% and 92.5%, respectively, which was depend upon concentration of BT. Control efficacy of the mixture of BT and sophora extract was 98.8%, 88.8% and 91.3% which was higher than BT treatment only. The mixture of sophora and lower BT concentration was showed more increase of control efficacy. Anti-feedant effect by BT was depend on concentration of BT. At field experiment, the mixture of BT and sophora extract appeared higher mortality (72.2%, 67.8%, 61.1%) than BT treatment only (14.4%, 26.7%, 66.7%) similar with laboratory experiment. The mixture was less affected by environmental condition at field than BT only. Therefore, for effective control of beet armyworm without possibility to develop resistance against BT at farm, treatment of the mixture of sophora extract (0.033%) and BT (1×105 cfu ml-1) would be considered more effective than BT treatment only.

This experiment was carried out to determine the treatment interval on neem product for control of Bemisia tabaci on eggplant using eco-friendly agriculture. We have investigated the control effect of B. tabaci, growth characteristics of eggplant, economics according to neem product treatment interval on eggplant. The longer neem processing interval tended to decrease control effect on nymphs of B. tabaci. Control effect of nymph of B. tabaci according to treatment interval of 3 days, 5 days, 7 days, 10 days, and 15 days were 96.7%, 89.7%, 76.1%, 73.4%, and 51.0%, respectively. This result was the same tendency in adult of B. tabaci control effects on eggplant. Growth characteristics of eggplant according to neem the treatment interval of 3 days, 5 days, and 7 days, was less damaged on of B. tabaci. However, the 10 days, 15 days, and untreated of neem treatment intervals were badly damaged by B. tabaci. Therefore, neem treatment interval of 3~7 days for control of B. tabaci was high control effect. However, it is considered to be the most suitable to process every seven days considering the economics and so on. The results of economic analysis from income of 7 days neem treatment interval was the most high as 19.505 thousand won per 10a and the most economical treatment for control of B. tabaci.

The experiment of grape leafroller (Herpetogramma luctuosalis) was carried out at Okcheon area from 2007 to 2009 and 2015. The grape leafroller had been occurred at a campbell early’ organic vineyard in Okcheon. It’s larva was rolling the leaf of grape and ate the leaf. So the leaf of grape decreased. In organic vineyards, adult grape leafroller’ generation rate per year showed the first peak in mid-June, the second peak in early –August and the third in mid-September. The larva showed the first peak in early July and the second peak in late August-early September. The grape leaf roller had three generations per year. And it took 60.9±1.09 days from egg to adult in growth chamber (VS-91G09M-1300) which the relative humidity conditions was 60±10%, temperature 25±2℃ and photoperiod 16L:8D (The egg : 12±0 days, larvae : 22.2±0.22 days, pupa : 10.6±0.75 days and adult : 16.1±0.45 days). It was conducted to find out the effect of microbial pesticide treatments to control H. luctuosalis. The 4 microbial pesticides (Bacillus thurigiensis) were treated twice on the grape leaves in June 11 and 21 at an organic vineyard in Okcheon. On 10 days after last treatment, the control value of all microbial pesticides were more than 95%. When the dates of spraying to the grape leaves were on May 22, June 12 and July 2 each, the effects of microbial pesticide were 73.9%, 93.5% and 43.6% respectively. As a result, it was effective that Bt was sprayed to grape leaves on mid and late June for controling the H. luctuosalis in organic vineyard. And microbial pesticide Bt was thought to be useful to control the grape leafroller in organic vineyard.

Background : Ginseng is a perennial, and damage occurs due to various diseases and pests. As a result, yield decreases and quality deteriorates. In particular, it is impossible to be repeatedly cultivated due to root rot, soil-borne disease. For this, in order to control root rot and repeatedly cultivate ginseng by using soil fumigation from virgin soil, this experiment was conducted. Methods and Results : This experiment was performed in ginseng farm field, Geumsan-gun, Chungnam province. And total area was 3ha. And the experiment was conducted in soil where apple trees had been grown. Apple trees were rooted up in 2006. And soil was fumigated in May 2007. With regard to soil fumigant, soil was treated with Basamid of 40kg/10a. After soil fumigation, 5 ton/10a of cattle manure fermented for 1 year was put in the soil in June, and then the soil was cared for by being plowed and rotary-tilled as occasion. Ginseng seeds were sowed in the soil cared for in October 2007. And 4-year-old ginseng was harvested in 2011. The soil from which ginseng was harvested was fumigated by the same method in May 2012, and then ginseng seeds were sowed in 1.5ha in October 2012 and in 1.5ha in October 2013. In October 2013, 3-year-old and 4-year-old ginseng was harvested. And ginseng growth characteristics and root rot incidence was examined. It was shown that 4-year-old ginseng yield after the fumigation of virgin soil was nearly 2 times as high as that of conventional virgin soil cultivation. And root rot didn't occur. After that time, the soil was fumigated again. And when ginseng was cultivated, 3-year-old and 4-year-old ginseng yield was 650kg and 960kg per 10a. And it was shown that root rot incidence was 1.3% and 15.3% in 3-year-old and 4-year-old ginseng respectively. Conclusion : This study showed the results where ginseng can be cultivated repeatedly if soil was fumigated again after ginseng was harvested following the soil fumigation from virgin soil so as to control the ginseng root rot and cultivate ginseng repeatedly.

This study was carried out to identify the control effect of entomopathogenic microagent against Spodoptera exigua on organic chinese cabbage. In laboratory condition, insecticidal activity of 4 commercial BT pesticides against S. exigua were lower than 10% against second instar S. exigua. The insecticidal activity of entomopathogenic nematode were 33.3%, 83.3% and 100% at the concentration of 1×102, 3×102, 1×103 nematodes/ml, respectively. Mixture of BT and nematode showed growth inhibition against S. exigua larvae. S. exigua nucleopolyhedrovirus (SeNPV) of 105 PIBs/ml showed more than 70% insecticial activity. The yield of SeNPV was increased as in higher initial inoculation concentration of NPV, food supply, and growth temperature increased. In greenhouse experiment, the control value of BT and nematode mixture treatment was higher than BT and nematode treatment alone against S. exigua. In treatment of 107 PIBs/ml of SeNPV, S. exigua was controlled completely. In farm condition, mixture of microbial agent and organic agricultural material showed higher control value against lepidopteran pest including S. exigua than BT single treatment.

마늘 유기재배에서 마늘 잎마름병에 대한 친환경방제제의 방제효과를 조사하였다. 56종의 친환경방제제를 대상으로 Stemphylium botryosum 포자 발아억제시험을 96 well plate에서 실시하여 그중에서 구리화합물제제, 식물추출물제제, 황화합물제제, 황·탄산나트륨제제 그리고 키토산액 등 5종을 선발하여 2012년과 2013년에 걸쳐서 마늘재배포장에서 잎마름병 방제효과와 마늘생육에 미치는 영향을 조사하였다. 2012년 시험에서 방제효과가 우수한 구리화합물제제와 키토산제제를 대상으로 2013년에 다시 잎마름병 방제효과를 조사한 결과 화학약제인 안트라콜의 방제가에 대비하여 각각 54%와 90%의 방제효과가 나타났으며 무처리에 대비하여 16%와 34%의 수량성 향상효과가 나타났다. 구리화합물제제와 키토산제제로 잎마름병 방제시 화학약제 방제에 대비하여 상품화 가능한 마늘은 각각 79%와 93%였으며 무처리에 대비할 경우 수량이 각각 16%와 34% 증가하였다. 이러한 결과로 키토산액은 마늘 잎마름병 방제용 친환경제제로 활용될 가능성이 높은 친환경제제임을 확인할 수 있었다.

배 과원 문제해충의 하나인 꼬마배나무이(Cacopsylla pyricola)의 월동성충이 낳은 알에 대해 10, 13, 18, 22, 25℃에서 부화율을 조사하여 온도와 발육률에 대한 선형모형으로 Y=0.00319X + 0.00615((R2=0.809899)(Y=temp., X=dev. rate))로 도출하였고, 알에 대한 발육영점온도는 약 –1.94로 추정되었다. 포장에서 월동성충이 낳은 알이 50%를 초과하여 부화하는 시기와 2월 1일부터 일일 최고기온 6℃ 이상의 온도를 누적한 결과, 2008, 2009, 2011년에 각각 429.7, 417.6, 424.3일도였으며, 이는 만개기를 기준으로 만개 3~7일전이다. 한편 아바멕틴 유제, 석회유황합제, 기계유유제, 및 유기농업자재 13종은 월동성충이 낳은 알에 대한 살란 효과는 없는 것으로 생각되고, 배 생육기인 2012년 5월 21일, 6월 5일 2회 살포시 방제가 90% 이상을 보인 유기농업자재는 D사의 Azadiractin A+B, Nimbin, Salanin, Meliantriol, Vepol 등 혼합물 등 4종이었다.

This study was conducted to select and develop effect of eco-friendly organic materials for the eco-friendly prevention of Anthracnose occurred in the ginseng. Anthracnose on ginseng is occurred by Colletotrichum gloeosporioides and the crop damage is severe especially from July to August after rainy season. The test results showed that control effect by test products materials on the three years ginseng and four years ginseng field was lower in eco-friendly organic materials than that of chemical pesticide. However, the control effect of bordeaux mixture was higher with 71.3% and 73.8% levels than those of mineral matter, microbial agent, and developed plants extract mixtures (Eugenol, Curcumin, Wood vinegar, etc). On the other hand, three types of developed plants extract mixtures (3 types) showed control effect in a range of from 58.1% to 63.6% against Anthracnose which was higher as compared with plant extract alone and sodium silicate regardless of ages of ginseng. The results of this study would attribute in verifying the control effect of eco-friendly materials against Anthracnose for ginseng through investigating antimicrobial compounds contained in the plants body. Also, it would be used as control method against Anthracnose occurred in ginseng by judging the right control time through monitoring occurrence of disease.

본 연구는 고삼, 정향 및 neem 추출물에 대한 항균 · 항충력을 규명하여 벼 친환경 재배포장에서 병해충 방제제로의 이용가능성을 검토하고자 수행하였다. 식물추출물에 대한 잿빛곰팡이균에 대한 항균력 실험결과 정향추출물이 가장 높은 활성을 나타내었으며, 벼멸구에 대한 살충력은 고삼추출물이 가장 높은 효과를 보였는데, 고삼추출물의 300배 희석용액에서도 100%의 살충 방제가를 나타내었다. 정향과 고삼추출물에 각각 목초액(10%)과 유화전착제(10%)를 혼합하여 친환경 벼 재배포장에 살포하고 병해충 발생률을 조사한 결과, 정향추출물 처리구의 병해 방제가는 무처리구(100%) 대비 50.8%, 해충 발생은 70.6%를 나타내었고, 고삼추출물 처리구는 무처리(100%) 대비 병해 방제가는 43.1%, 해충 방제가는 79.1%로 나타났다. 결론적으로, 고삼 및 정향 추출물은 벼 친환경 재배 시 병해는 약 50%, 충해는 약 70%를 감소시킬 수 있어서 친환경농자재로의 활용 가능성을 확인하였다.

본 연구는 유자나무에 발생하는 주요 병을 방제하기 위한 친환경 유기농업자재를 선발하기 위하여 수행되었다. Phomopsi scitri에 의한 유자 검은점무늬병은(Meloanose)과 Elsinoe fawcettii에 의한 유자 더뎅이병(Scab)은 유자나무에서 가장 일반적인 병으로 알려져 있다. 병 발생은 6월 하순경에 피해가 큰 것은 6월 동안의 강우량과 상대습도와 밀접한 연관관계를 가지고 있다. 또한 이 병들은 수령이 낮은 유자보다는 수령이 높은 유자에서 심하게 발생하는 경향이 있다. 유자 검은점무늬병에 대한 방제효과는 농가의 관행재배구가 78.3%였으며, 친환경유기농업자재는 49.1~72.6% 방제효과를 보였다. 반면, 유자 더뎅이병 시험에서 농가의 관행재배구에 대한 방제효과는 82.6%였으며, 공시자재인 친환경유기농업자재는 41.1~71.8%의 방제효과를 보였다. 각각의 시험에서 통계적 유의성을 검정한 결과 통계적으로 유의성이 있었다. 본 시험결과에서 친환경유기농업자재는 유자의 검은점무늬병 및 더뎅이병에 대한 방제방법으로 제시할 수 있었다.

This study was conducted to select environmental friendly organic materials for controlling the ginseng alternaria blight and to evaluate their effects from 2011 to 2012. Alternaria blight is caused by Alternaria panax and is the most common ginseng disease in Korea. Environmental friendly organic materials were used to reduce amount of chemical fungicides and the number of spray for control of Ginseng Alternaria leaf blight. In 4 years of ginseng, control value of Alternaria leaf blight by single application of Defenoconazole WP was 82.3% and those of single application was 62.0~75.9%. Consequently, mixed or alternated application of eco-material products could be recommended as a control method to reduce the amount of fungicides.