대파(Allium fistulosum L.)는 동양에서 옛날부터 중요한 식재료로 재배되어온 중국 원산지의 향신 채소이다. 적어도 통일신라시대부터 재배되어 온 기록이 있으며 현재에도 식재료로 수요가 많아 전국적으로 재배면적이 넓어지고 있고, 종자의 유통량 또한 많다. 대파에는 파굴파리(Liriomyza chinensis), 파좀나방(Acrolepiopsis sapporensis), 파밤나방(Spodoptera exigua) 등이 주요 해충으로 알려져 있다. 전남 진도군은 국내 대파 주산단지로 파밤나방의 발생이 많고 다이아마이드 계통 농약의 저항성이 발현되고 있어 계대사육에 따른 저항성 감소를 실험하고자 한다. 실험은 진도군의 대파밭에서 파밤나방 개체를 채집하여 실내에서 약제처리를 통해 살충률과 섭식률을 검정, 몇세대에 걸쳐 저항성이 감소되는지 알고자 한다.
The beet armyworm, Spodoptera exigua, is one of the worldwide distributed agricultural pest insects and has been known to show high resistance to conventional chemical insecticides. Since it has been reported that secondary metabolites from actinomycetes show insecticidal activities against various insect pests, actinomycetes could be a potential source of insecticidal compounds. In this study, culture extracts of Streptomyces strains were tested for their insecticidal activity against Spodoptera exigua. Among them, culture extracts of IMBL-0003 strain which was identified as Streptomyces celluloflavus showed a high insecticidal activity (more than 90% mortality). These results suggested that secondary metabolites of this isolate could have potentials to be a efficient eco-friendly pesticide for controling Spodoptera exigua.
Immune priming is an increased immunity after prior exposure to a specific pathogen as a kind of adaptive immunity and occurs in insects. However, its underlying mechanism is elusive in insects. Immune priming was detected in a lepidopteran insect, Spodoptera exigua. Prior infection with a heat-killed pathogenic bacterium, Xenorhabdus hominickii, increased survival upon the second infection of the live bacteria compared to larvae without pre-exposure. Plasma collected from larvae with the prior infection significantly up-regulated cellular and humoral immune responses compared to the similar treatment without prior exposure. However, when the active plasma exhibiting immune priming was heat-treated, it lost the priming activity, suggesting a presence of protein factor(s) in the immune priming. Lipocalin is a lipid carrier protein and is well known in vertebrates for diverse physiological functions including immunity. An apolipoprotein D3 (ApoD3) is known to be a lipocalin functioning in immune priming in a mosquito, Anopheles gambiae. A homologous ApoD3 (Se-ApoD3) was identified in S. exigua. Se-ApoD3 was expressed in all developmental stages and larvae, it was highly expressed in hemocytes. RNA interference (RNAi) of Se-ApoD3 expression was performed by injecting its specific dsRNA. The larvae treated with the RNAi were impaired in cellular and humoral immune responses. Furthermore, the plasma collected from RNAi-treated larvae lost the immune priming even at the prior exposure. These suggest that Se-ApoD3 mediates the immune priming in S. exigua.
Since 2007, diamide insecticides have been widely used in Korea to control various types of lepidopteran pests including Spodoptera exigua. For nearly a decade, diamide resistance in field populations of S. exigua across 18 localities has been monitored using bioassays. Based on the LC50 values, some field populations showed a high level of resistance against chlorantraniliprole, although regional and temporal variations were observed. To investigate resistance at a molecular level, mutations (Y4701C, I4790M, and G4946E) were examined in the ryanodine receptor (RyR), which is the primary mechanism underlying diamide insecticide resistance. As a result, only I4790M mutation was found in most of field populations. As resistance levels varied significantly despite the uniform presence of the I4790M mutation, we considered the presence of another resistance factor. Further, the I4790M mutation was also found in S. exigua specimens collected prior to the commercialization of diamide insecticides in Korea as well as in other countries, such as the USA. This finding led us to hypothesize that the I4790M mutation were predisposed in field populations owing to selection factors other than diamide use. For further clarification, we conducted whole-genome sequencing of S. exigua (449.83 Mb) and re-sequencing of 18 individuals. However, no additional non-synonymous mutations were detected in the RyR-coding region. Therefore, the high level of diamide insecticide resistance in Korean S. exigua is not caused by mutations at the target site, RyR, but is attributed to other factors that need to be investigated in future studies.
광식성 난방제 해충인 파밤나방(Spodoptera exigua)의 친환경적 방제원으로써 이용을 위해 국내에서 분리된 파밤나방 핵다각체병바이러 스(S. exigua nucleopolyhedrovirus K1: SeNPV-K1)의 형태 및 전체 유전체 서열을 분석하였다. SeNPV-K1의 다각체(polyhedra)는 0.6-1.8 um 크기의 부정형으로, 기 보고된 SeNPV와 외형적 차이는 보이지 않았다. 전체 유전체의 염기서열을 분석한 결과, 기 보고된 SeNPV와 비교할 때 145 bp 더 많은 135,756 bp로 확인되었으며, G+C 함량은 44% 였고 상동반복영역은 6개로 두 바이러스간에 차이는 없었다. ORF 분석결과, SeNPV-K1은 기 보고된 것과 비교할 때 2개 더 적은 137개를 가지며, SeNPV-K1에만 존재하는 ORF는 4개가 확인되었다. 이들 4개의 ORF는 비필수 유전자로 바이러스의 특성에는 큰 영향을 주지 않을 것으로 여겨졌다. 유전체의 vista 분석 결과, SeNPV-K1과 기 보고된 SeNPV의 전체 염기서열 유사도가 매우 높은 것으로 확인되었다. 국내에서 처음으로 분석한 SeNPV-K1의 전체 유전체는 기 보고된 SeNPV와 유사한 것으로 나타났으나 서로 다른 분리주로 국내 고유자원임을 확인하였다.
최근 새로운 엽채류로 관심받고 있는 루꼴라의 주요 해충에 대한 발생과 피해정보는 물론 주요 해충인 파밤나방을 효율적으로 방제할 수 있 는 살충제를 선발하였다. 2019년부터 2021년까지 경기도 화성과 고양의 루꼴라 포장에서 발생한 해충은 모두 4목 7과 9종이었다. 이중 피해가 높았던 파밤나방에 대해 시판 살충제의 방제 효과를 포장에서 검정한 결과, Spinetoram SC, fluxametamide EC, chlorantraniliprole WG, cyantraniliprole DC, emamectin benzoate EC는 루꼴라 재배 포장 2개소에서 95% 이상의 높은 살충효과를 보였고 2배량에서도 약해가 없어 루꼴라 재배지에서 파밤나방 방제 전용 살충제로 등록되어 이용이 가능할 것으로 판단된다.