이 연구는 사과원에서 20년동안 두 종 응애의 밀도변화를 조사하기 위하여 수행하였다. 사과나무를 가해하는 두 종의 응애 해충, 점박이응애 (Tetranychus urticae)와 사과응애(Panonychus ulmi)의 발생을 1992년부터 2011년까지 8개 도시 포함, 한국의 남부지역에 위치한 사과주산지역에 서 조사하였다. 20년간의 추세는 많은 과원이 1992년부터 1999년까지는 점박이응애가 주로 가해를 하였지만 2000년도부터는 사과응애가 우점하 기 시작했다. 사과응애의 평균관찰밀도는 일정했고 점박이응애의 밀도는 이 기간동안 일정하지 않았다. 5년주기별 발생추세 분석은 점박이응애의 밀도가 2002년 이후에 감소하는 것을 보여주었다. 4월부터 9월까지 월별피해과원율과 두종 응애의 평균발생밀도는 사과응애의 밀도가 4월에 높지 만 점박이응애의 밀도가 5월부터 9월까지 높았다. 이런 변화는 살충제 살포횟수, 초경재배관리, 질소비료 사용의 감소와 전체적인 과원관리의 변화 등으로 기인한다. 그러나 이러한 예측은 이를 증명하기 위해 보다 자세한 연구가 필요하다. 본 연구를 통해 비료살표와 같은 재배법과 살충제 살포횟 수와 종합적해충관리 등의 환경적 변화가 사과원에서 두종 응애의 우점종과 발생밀도에 영향을 준 것으로 보인다.
In the midst of environments with crop-mixing, there were more preferred the fruit trees by brown-winged green (Plautia stali (Scott)), and yellow-brown stink bug (Halyomorpha halys (Stål)) and vegetables by Far eastern green stink bug (Nezara antennata Scott) and Bean bug (Riptortus pedestris (Thurnberg)). The major dominant species was identified as P. stali, infesting fruit trees over 99.4% among tested insects. It is severely damaged on peach of middle and late ripening, crab apple, pear and wild fruit of Actinidia arguta. In an investigation for the seasonal occurrence using aggregation pheromone trap, P. stali was peaked with three times at late-May∼early-June, mid- and late-July, and mid-Sept. ∼Oct. And H. halys slightly peaked at mid-June, and mid- and late-July and increased the occurrence at mid-Sept. ∼mid-Oct. Using seven insecticides - dinotefuran WP, flonicamid WP, etofenprox WP, chlorpyrifos WP, cabaryl WP, chlothianidin SC, and bifenthrin WP - registered on apple, contact and residual toxicity was tested on both male and female of P. stali and H. halys. Contact toxicity of dinotefuran WP was excellent on P. stali but the others had low effect. While all insecticides except flonicamid, residual toxicity were all effective on P. stali. Dinotefuran have a excellent contact toxicity and chlorpyrifos and bifenthrin have good residual toxicity against both male and female of H. halys.
The study investigated occurrence of major insect pests and damage to 16-30 representative apple orchards in major apple production area of 4-8 cities and counties in Gyeongsang Provinces and Jeonbuk province for 17 years from 1992 to 2008. In addition, it examined the hatching time of the overwintered eggs of European red mite (Panonychus ulmi) and apple leaf-curling aphid (Myzus malisuctus) at the Apple Research Station in Gunwi-gun, the Gyeongbuk Province from 1993 to 2009, and conducted a survey on the occurrence rate of oriental fruit moth (Grapholita molesta) and peach fruit moth by means of sex pheromone traps at 2-5 day intervals to look into the changes in the occurrence.
As the result of survey on the insect pests of representative apple orchards, the population density of two spotted spider mite (Tetranychus urticae) was higher then that of Panonychus ulmi from 1992 to 1999 while it became lower than Panonychus ulmi from 2000. Although there was difference in spiraea aphid (Aphis citricola) by year, but the occurrence density tended to decline from 1992.
Lyonetia prunifoliella had not become a problem in apple orchards before the 1990’s, but it started occurring in 1993-1994 and increased rapidly in the late 1990’s. Later, it has consistently increased as leafminer with Phyllonorycter ringoniella in apple orchards. Tortricid insect pests increased the most highly in the late 1990’s, but it has not been a problem after 2000 and the occurrence and damage by Grapholita molesta was higher than that of Carposina sasakii in apple orchards after 1997. Besides, the damage by stink bugs as well as ambrosia beetles has increased after 2000.
In the 2000’s, the initial hatching date of overwintered eggs of Panonychus ulmi and Myzus malisuctus ulmi was 18 and 14 days earlier, the 50% hatching date was 7 and 6 days earlier, and the final hatching date was 1 and three days earlier respectively than that of the 1990’s. In the 2000’s, the first occurrence of Grapholita molesta and Carposina sasakii was earlier by 5 days compared to the 1900’s, and the first occurrence of apple insect pests tended to become earlier compared to the 1990’s.