본 연구는 젖소 종모우 973두의 국내 추정 육종가, 국제유전능력평가에 의한 육종가 그리고 MACE proof를 이용한 DRP를 비교하여 종모우 선발의 정확도 향상을 위한 방안을 제시하기 위하여 수행하였다. Interbull의 국제유전능력평가는 유량 형질 기준으로 32개국 31개 집단과 총 134,533두의 종모우가 참여하는 것으로 조사되었다. 국내 추정 육종가와 interbull 추정 육종가 상관계수는 0.925로 나타났으며, 육종가에 대한 산지별 상관은 캐나다, 미국 및 국산에서 각각 0.917, 0.910과 0.996으로 나타났다. 충분한 딸소 수를 보유하여 신뢰도가 높은 경우에는 국내산이나 수입산 모든 종모우에서 신뢰도의 변화량이 크지 않으나, 국내에서는 EDC가 낮지만 해외 자료에서 EDC가 높은 경우 43까지 신뢰도가 증가하였다. 973두 종모우들의 경우 신뢰도의 평균은 87.16±10.62이며, 51~99의 범위를 나타내었으며, deregressed MACE proof와 MACE proof의 상관계수는 0.945로 높게 나타났다.
The green peach aphid, Myzus persicae (Sulzer), is one of the most serious pest in cabbage cultivation. Field survey was carried out to know the insecticide resistance levels in five main cabbage cultivation regions (Pyeong-chang, Hong-cheon, Bong-wha, Mu-ju and Je-ju) in 2009~2011. The green peach aphid can resist a wide range of insecticides in five surveyed local populations. Among the nine tested insecticides, four chemicals (methomyl, bifenthrin, pymetrozine and flonicarmid) showed less than 60% mortality in the recommended concentration in most years of local populations. Multi resistant (MR) strain was selected from these populations and modified AChE (MACE: StoF mutation), MtoL mutation in para-type sodium channel, esterase over-expression were observed in almost of all populations including MR strain. Especially, StoF and MtoL mutations were highly correlated with resistance ratio and population based quantitative sequencing results. Therefore, these results suggested that molecular-biology based resistance monitoring can applied resistance management in M. persicae.
The green peach aphid, Myzus persicae (Sulzer), is one of the most serious pest in cabbage cultivation. Field survey was carried out to know the insecticide resistance levels in five main cabbage cultivation regions (Pyeong-chang, Hong-cheon, Bong-wha, Mu-ju and Je-ju) in 2009. The green peach aphid can resist a wide range of insecticides in five surveyed local populations. Among the nine tested insecticides, four chemicals (methomyl, bifenthrin, pymetrozine and flonicarmid) showed less than 50% mortality in the recommended concentration in all populations. Multi resistant (MR) strain was selected from these populations and esterase over-expression, modified AChE (MACE) and mutation(s) in para-type sodium channel were analysed using native IEF and quantitative sequencing with five local populations. Esterase over-expression and MACE (StoF mutation) were observed in all populations including MR strain. LtoF mutation is well known as a kdr mutation in para-type sodium channel. However, even though LC50 values of MR strain noted over 2,000 times higher than that of susceptible strain against bifenthrin, any mutation was not detected in para type sodium channel and also local populations. These results suggested that unusual case could be existed in pyrethroid resistance mechanism in green peach aphid.