• 한국식물병리학회:학술대회논문집
• /
• 한국식물병리학회 2003년도 정기총회 및 추계학술발표회
• /
• pp.109.2-109
• /
• 2003

A basic spray program for apple in which fungicides are scheduled to spray at 15-day interval from petal fall to late August was formulated on the properties of several selected fungicides. In order to improve it, experimental plots, completely randomized block with 3 replications, were prepared in an orchard of 15 years old Fuji cultivar, and the spray programs in which only one chemical in the basic spray program was substituted with others were applied to each plot. It was revealed that only single substitution of the fungicide in the basic spray program makes a great differences in the control of white rot and bitter rot, and that the control property of the fungicides against the two diseases was quite variable even by the time of application. A simila! ! r trial was conducted in 2002 with a new basic spray program that was formulated with fungicides that have shown best control in each spraying time in the previous trial, similar results were obtained. Applying this method, the usefulness of certain fungicide in the spray program for apple could be properly assessed. Anthracnose of Robinia pseudo-acacia L. caused by Collectotrichum spp.

• The Plant Pathology Journal
• /
• 제24권4호
• /
• pp.439-446
• /
• 2008

A fungicidal spray program for effective control of three major apple diseases in Korea (white rot, bitter rot, and Marssonina blotch) was developed. This was based on our previous studies showing that application of ergosterol biosynthesis inhibitors (EBIs) in early or mid-August can eradicate white rot infection in fruit and that some protective fungicides show after-infection activity against white rot. The basic spray program focused on control of white rot, the main target disease, and the fungicides were sprayed at 15-day intervals from petal fall to late August using fungicides that show after-infection and EBI activity. The basic spray program was modified over 4 successive years to improve control efficacy against bitter rot and Marssonina blotch, which sometimes cause as much damage as white rot. Modifications to the regime were made every year by replacing one fungicide in the basic program at a specific spraying time. Substitution of only one fungicide in the spray program, even early in the growing season, greatly influenced the final disease incidence at harvest. Applying this principle, a moderately efficient spray program for cv. Fuji that increased the spray interval from 10 to 15 days and thus reduced the number of sprays required per crop season was developed.

• The Plant Pathology Journal
• /
• 제23권3호
• /
• pp.166-173
• /
• 2007

In a trial to select suitable fungicides for developing a spray program that can control apple white rot effectively, after-infection activities in some protective fungicides were detected. Six fungicides, mancozeb, propineb, benomyl, folpet, azoxystrobin and iminoctadine-triacetate, which had been extensively used in apple orchards, were sprayed on 12-year-old apple trees (cv. Fuji) at 15-day intervals from late May to late July. Disease incidences and infection frequencies of the fruit bagged just before and soon after each spray were examined. When the infection frequency or disease incidence of the fruit bagged after each spraying of fungicide was significantly lower than those of the fruit bagged before spraying, the fungicides appeared to confer after-infection activity. The six fungicides showed diverse activities on white rot: folpet showed after-infection activity on disease development, iminoctadine-triacetate showed after-infection activity on infection, azoxystrobin showed after-infection activity on disease development and infection, and mancozeb, propineb and benomyl showed no distinct activity. The activity of a fungicide became much higher when it was sprayed alternately with other fungicide rather than successive spraying of the same fungicide. Analysis of the properties of these protective fungicides could lead to the development of a highly effective spray program against white rot.

• 한국식물병리학회지
• /
• 제11권1호
• /
• pp.17-29
• /
• 1995

This study was conducted from 1991 to 1993 to develop a fungicidal spray program for the apples exportable to the United States of America, in which quarantine and pesticide residue in agricultural products are strictly regulated. In 1991, 2 spray schedules were applied to an orchard, in one of which the 7 fungicides registered for apple both in Korea and U.S. were used, and in the other of which the Bordeaux mixture for which the tolerance was exempted in U.S. was used 2 times along with those 7 fungicides. The apple white rot and fruit infection by Alternaria mali were not effectively controlled by the 7 fungicides alone; however, the control efficacy was raised by adding the Bordeaux mixture to the spray schedule. In 1992, 4 spray schedules were applied in which the kinds of fungicides and spray intervals were different one another. The results suggested that an effective spray program can be developed by adopting the Bordeaux mixture for 3 times or adopting the imminoctadine-triacetate which has not tolerance level in U.S. for same times in the vulnerable stage of apple white rot and alternaria blotch. In spite of the high efficacies against major apple diseases, the Bordeaux mixture could not be recommended to the apple growers due to the various defects such as restrictions in compatibility with insecticides and acaricides, troublesomeness in preparation and spray, especially the harmful effect on the finish of Fuji apples. In 1993, a spray program adopting 3 times of imminoctadine-triacetate during the growing season of apple was developed, which not only can effectively control the major apple diseases but also avoid the pesticide residue problems if it was sprayed 2 or 3 times after bagging. On the basis of the 3 years results, a basic fungicide spray program was formulated in which 1~3 times of imminoctadine-triacetate and 1~2 times of bitertanol were adopted in addition of the 7 common fungicides registered in both countries. In the results of application of the spray schedule to the actual farming in the 4 areas of Kyungpook Province in 1994, no noticeable defects were detected at the first year trial. However, this spray program will be continuously evaluated and modified to obtain better control efficacies against major apple diseases.

• The Plant Pathology Journal
• /
• 제25권3호
• /
• pp.270-279
• /
• 2009

During the course of a study to develop a spraying program at 15-day spray intervals, two important findings were identified allowing for further reduction of spray frequency by increasing the spray interval. In evaluating the contribution of fungicides from a 15-day spray interval program, control of white rot, which is of prime importance in Korea, was not affected, in spite of the extended spray interval caused by omitting the fungicides during the season. In another experiment assessing the duration of the protective activities of several key fungicides used in the 15-day spray interval program, infection control was maintained for almost 30 days for some fungicide. Based on these two findings, a basic spraying program with a 25-day spray interval was developed. This program was modified for four successive years to improve the control efficacy against bitter rot and Marssonina blotch, which sometimes causes as much damage as white rot.

• The Plant Pathology Journal
• /
• 제18권3호
• /
• pp.165-167
• /
• 2002

Date palm (Phoenix dactylifera) is an important fruit and cash crop in Sultanate of Oman, occupying nearly 60% of the total cultivated area. However, leaf spots caused by Mycosphaerella tassiana, Alternaria spp., and Dreshcleri sp. have become a threat to date palm's cultivation in recent years. In this study, a field experiment was conducted to find out a suitable chemical spray program to control the disease. A prophylactic spray schedule with mancozeb (Dithane M45), copper oxychloride (Champion), and mancozeb+copper (Trimiltox) effectively controlled the disease when applied at a time when the disease severity index (DSI) was low, ranging from 0 to 1.68. Meanwhile, the disease did not decrease, but instead increased gradually, when the fungicide combination was applied when DSI was high, ranging from 1.78 to 5.37. It was concluded that fungicides should be applied at the early stage or before disease initiation in order to control the disease effectively.

• 식물병연구
• /
• 제17권3호
• /
• pp.295-301
• /
• 2011

Colletotrichum gloeosporioides에 의해 발생하는 딸기 탄저병에 대한 여러 살균제의 방제효과를 in vitro, 비닐하우스와 노지 육묘포장에서 검정하였다. Benomyl의 $EC_{50}$ 값은 균주 간에 저항성과 감수성 그룹으로 확연히 구별되었다. Iminoctadine tris는 mancozeb나 propineb과 같은 보호살균제보다 낮은 EC50값을 보였으며 mancozeb, propineb, azoxystrobin의 효과는 균주에 따라 다양한 결과를 보였다. 비닐하우스에서, 9종의 살균제를 병원균 접종 전과 후 딸기 '설향' 품종에 처리하였을 때 모든 약제는 무처리에 비해 방제효과가 좋았다. Propineb, mancozeb, azoxystrobin은 병원균 감염 전 처리 시 방제효과가 우수했던 반면 metconazole과 prochloraz-Mn와 같은 ergosterol biosynthesis inhibiting 살균제들은 낮은 탄저병 이병율을 보였다. 2009년과 2010년 노지 육묘포장에서 감소된 살균제 처리 프로그램에 따른 탄저병 방제는 captan 처리 프로그램과 비슷한 방제효과를 보였다. 따라서 prochloraz-Mn 등과 같은 탄저병에 효과적인 살균제를 기반으로 작성된 처리 프로그램은 딸기 농가에 유용하게 사용될 수 있고 탄저병 방제를 위한 더 많은 선택을 제공할 것이다.

• 한국식물병리학회지
• /
• 제14권4호
• /
• pp.331-338
• /
• 1998

To develop the model for prediction of potato late blight progress, the relationship between severity index of potato late blight transformed by the logit and Gompit transformation function and cumulative severity value (CSV) processing weather data during growing period in Taegwallyeong alpine area, 1975 to 1992 were examined. When logistic model and Gompertz model were compared by determining goodness of fit for progressive degree of late blight using CSV as independent variable, the coefficients of determination were higher as 0.742 in the logistic model than 0.680 in the Gompertz model. Parameters in logistic model were composed of progressive rate and initial value of logistic model. Initial value was calculated in -3.664. The progressive rate of potato late blight was 0.137 in cv. Superior, 0.136 in cv. Irish Cobbler, and 0.070 in cv. Jopung without fungicide sprays. According to in crease of the number of spray times the progressive rate was lowered, was 0.020 in cv. Superior under the conventional program of fungicide sprays, 10 times sprays during cropping season. Equation of progressive rate, b1=0.0088 ACSV-0.033 (R2=0.976), was written by examining the relationship between the parameters of progressive rate of late blight and the average CSV (ACSV) quantifing weather information. By estimating parameters of logistic function, model able to describe the late blight progress of potato, cv. Superior was formulated in Y=4/(1+39.0·exp((0.0088 ACSV-0.033)·CSV).

• 식물병연구
• /
• 제9권4호
• /
• pp.205-208
• /
• 2003

2000년과 2001년 참다래 저장병 방제 실험 결과 터부코나졸 수화제, 이프로 수화제 및 후루실라졸 수화제의 살포적기는 7월 초였고 10일 간격 3회 이상 처리에서 방제 효과가 높았다. 세 가지 약제는 모두 6월 중순부터 10일 간격으로 4회 살포하는 것이 참다래 저장병에 대한 최대 방제효과를 얻을 수 있는 최적 살포 프로그램으로 2002년 포장실험 결과 확인되었다. 터부코나졸 수화제와 이프로 수화제 뿐만 아니라 후루실라졸 수화제는 우리나라에서 참다래 저장병 약제로 등록된 베노밀 수화제와 지오판 수화제를 대체할 수 있는 예방약제로 검증되었으므로 이 약제들을 활용하게 되면 약제의 다양화를 통하여 약제 저항성균의 출현을 예방할 수 있고 식품 안전과 환경보전을 위하여 약제 사용횟수도 줄일 수 있을 것으로 기대된다.

• 식물병연구
• /
• 제26권4호
• /
• pp.229-238
• /
• 2020

고추 역병의 감염위험도 예측모델인 PBcast 포장검증 연구를 2012-2013년 동안 수행하였다. 그리고 2014-2017년 동안 우리나라 26개 지점에서 PBcast 모델을 이용하여 발병환경을 평가하였다. PBcast 모델은 기상과 토성자료를 이용하여 Phytophthora capsici의 일일 감염위험도를 추정한다. 시험포장에서 7일 간격으로 살균제를 살포하는 정기방제(RTN7) 처리, 예측된 감염위험도가 200 이상(IR200), 224 이상(IR224)일 때 살포하는 예찰방제 처리, 무방제(CTRL) 처리를 발병주율과 살균제 살포횟수로 비교하였다. 2012년에 감염위험도가 200 이상이 2회였지만, 224 이상인 경우는 없었다. 2013년은 200이상 3회, 224 이상 1회였다. RTN7 처리구는 2012년과 2013년에 17회, 18회 살포하였다. 우리나라의 기상조건은 고추 역병 발생에 유리하였고 방제의사결정에 PBcast 예측 정보를 활용할 경우 살포횟수를 3-4회 감소시킬 수 있다. 결과적으로 PBcast 모델은 고추 역병으로부터 보호를 위해 병방제 효과의 감소없이 살균제 살포횟수를 줄일 수 있을 것으로 생각된다.