• The Plant Pathology Journal
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• 제16권3호
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• pp.147-150
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• 2000

Sporulation patterns of rice blast fungus were studied at relatively later stages of leaf blast and neck blast seasons in Icheon, Korea. This experiment was done by detaching lesion-bearing leaves and panicle bases. The number of conidia remaining on the leaf blast lesions of different cultivars from Jul 20 to Jul 23 ranged from 3,640 to 82,740 spores. More conidia were observed on the adaxial surface because they were released from abaxial surface. After heading, sporulation was observed from the lesions on the flag leaves but the number of spores was less than in the late July. Detached panicle bases or uppermost internodes infected by Pyricularia grisea produced abundant amount of conidia. Among these panicle bases, 30.1 mm size lesion recorded the highest count of 244,560 spores. When we compared the sporulation amount using the KY-type spore trap, more conidia were recorded from intact lesions than from the lesions which removed conidia and conidiophore The ratio of conidia release against total sporulation ranged from 20.5%-25.0% for leaf blast and 8.2%-25.3% in the neck blast. Effective inoculum potential was also discussed.

• 한국식물병리학회지
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• 제13권2호
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• pp.85-89
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• 1997

Etiological components of the rice cultivars possessing durable resistance to rice blast were evaluated. In the greenhouse test by artificial inoculation, number of leaf blast lesion in Dongjinbyeo was not increased by any race of the pathogen, while the lesion number on the resistant cultivar Palgongbyeo and susceptible cultivar Jinmibyeo was increased rapidly. Size of the lesion in Dongjinbyeo was smaller and progressed more slowly than the resistant cultivar Palgongbyeo until 11 days after inoculation. Latent period in Dongjinbyeo was intermediate. However, the period was significantly variable depending upon the races. Least amount of conidia was produced in Dongjinbyeo by race KJ-107 and the number of conidia was decreased rapidly from 11 days after inoculation.

• 한국식물병리학회지
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• 제10권2호
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• pp.78-82
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• 1994

Unusually severe rice blast epidemic sweeped over the rice growing area in Gyeongnam Province and elsewhere in 1993. Leaf blast infection was reached to 33,133 ha, which is about 24.5% of total paddy area and neck blast infection was apparent throughout 4,421 ha. Major factors affecting such an unusual epidemic appeared to be as follow: Firstly, low temperature, frequent rainfall and coincidentally insufficient duration of sunshine through July and August; Secondly, most cultivars possessing low levels of field resistance were cultivated in wide areas: Thirdly, blast fungus population was enough for successive infection under optimum weather condition and most races distributed in field were able to infect most cultivars.

• 농업과학연구
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• 제12권2호
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• pp.356-369
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• 1985

한국(韓國)에서 농업관계연구(農業關係硏究) 기관(機關)에 의해 벼도열병(病) 방제(防除)에 관(關)한 실질적(實質的)인 연구(硏究)가 시작(始作)된 것은 전북일부지방(全北一部地方)에 목도열병(病)이 격발(激發)한 다음해인 1927년(年)부터였다. 과거 55년간(年間)에 걸쳐 많은 수도관계학자(水稻關係學者), 특(特)히 식물병리학자(植物病理學者)들의 노력(努力)에도 불구하고 도열병(病)은 아직도 가장 피해(被害)가 심(甚)하고 광범위(廣範圍)하게 발생(發生)하고 있는 병(病)중의 하나이다. 벼도열병(病)은 병원균(病原菌)의 특이(特異)한 병원성(病原性)의 변이(變異)때문에 방제(防除)가 매우 어렵다. 지난 70 년 동안의 병발생(病發生) 추이조사(推移調査)에서 도열병(病)의 발생(發生) 양상(樣相)에는 잎도열병형(病型), 목도열병형(病型), 지속적(持續的)인 발생형(發生型)의 3가지 각기 다른 발생(發生) 양상(樣相)이 존재(存在)함을 알았다. 일반적(一般的)으로 도열병(病) 발생(發生)은 잎도열병(病) 발생(發生)은 적어도 목도열병(病)은 심(甚)한 소위 잎도열병(病)과 목도열병(病)의 불연속현상(不連續現象)이 존재(存在)하는 특징(特徵)이 있다고 한다. 따라서 수량(收量)에 직접 영향(影響)을 미치는 목도열병(病)의 방제(防除)에 주의를 기울여야 한다. 과거 70 년 동안의 도열병(病)에 관(關)한 광범(廣範)한 조사(調査)와 연구(硏究)에서 도열병(病) 발생(發生)을 야기(惹起)시키는 주요인(主要因)은 병진항성(病振抗性)의 역전(逆轉), 질소질비료(窒素質肥料)의 과용(過用)과 만식(晩植), 그리고 지속적(持續的)인 강우(降雨)등으로 밝혀졌다. 그동안 한국(韓國)에서는 주(主)로 그룹 A에 속하는 곡양도(穀良都), 다마금(多摩錦), 은방주(銀坊主), 풍옥(豊玉) 둥 일본형(日本型) 수도품종(水稻品種)이 30 년이상(年以上) 재배(栽培)되어 왔다는 사실이 학자(學者)들에 의해 주목(注目)되어 왔다. 도열병(病)의 경우 동일(同一)그룹내(內) 품종간(品種間)의 포장지항성 차이(差異)는 매우 적으나 때로는 역학적(疫學的)으로 상당한 차이가 발견(發見)되기도 해서 도열병(病)의 성공적(成功的)인 방제(防除)를 위해서는 포장지항성 연구(硏究)에 보다 많은 관심을 기울여야 하겠다. IR 계통(系統) 품종(品種)들에 대(對)해 질소비료과용(窒素肥料過用)은 잎도열병(病)보다 목도열병(病) 발생(發生)에 더 조장(助長)하며 질소비료(窒素肥料) 소량시비시(少量施肥時)에도 IR 계통(系統) 품종(品種)들의 목도열병(病) 발생(發生) 비교적 심(甚)했고 도열병(病) 발생(發生)에 대(對)한 저온(低溫)의 영향(影響)은 매우커서 잎도열병반(病斑)의 전염능력(傳染能力)과 수잉기(穗孕期)의 엽초내 목도열병(病)의 감염(感染)을 현저히 증가(增加)시켰다. 출수전(出穗前) 3회(回), 출수후(出穗後) 2회(回)의 약제살포(藥劑撒布)가 도열병방제(病防除)에 가장 효과적(效果的)인 것으로 추정(推定)되었으며 도열병(病)에 대(對)해 완벽(完壁)한 단독(單獨) 방제방법(防除方法)은 없고 1950년경에 작성(作成)된 혼합방제법(混合防除法)이 수도(水稻)가 재배(栽培)되는 한 가장 효과적(效果的)일 것이다.

• 한국육종학회지
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• 제40권3호
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• pp.215-222
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• 2008

Fifty-two Korean japonica rice cultivars were analyzed for leaf blast resistance and genotyped with 4 STS and 26 SSR markers flanking the specific chromosome sites linked with blast resistance genes. In our analysis of resistance genes in 52 japonica cultivars using STS markers tightly linked to Pib, Pita, Pi5(t) and Pi9(t), the blast nursery reaction of the cultivars possessing the each four major genes were not identical to that of the differential lines. Eight of the 26 SSR markers were associated with resistant phenotypes against the isolates of blast nursery as well as the specific Korean blast isolates, 90-008 (KI-1113), 03-177 (KJ-105). These markers were linked to Pit, Pish, Pib, Pi5(t), Piz, Pia, Pik, Pi18, Pita and Pi25(t) resistance gene loci. Three of the eight SSR markers, MRG5836, RM224 and RM7102 only showed significantly associated with the phenotypes of blast nursery test for two consecutive years. These three SSR markers also could distinguish between resistant and susceptible japonica cultivars. These results demonstrate the usefulness of marker-assisted selection and genotypic monitoring for blast resistance of rice in blast breeding programs.

• 한국식물병리학회:학술대회논문집
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• 한국식물병리학회 2005년도 추계 학술발표회
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• pp.15-20
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• 2005

Locations of silicon accumulation in rice leaves and its possible association with resistance to rice blast were investigated by analytical electron microscopy and atomic force microscopy. A blast-susceptible cultivar, Jinmi, and partially resistant cultivars, Hwaseong and Suwon345, were grown under a hydroponic culture system with modified Yoshida's nutrient solution. Electron-dense silicon layers were frequently found beneath the cuticle in epidermal cell walls of silicon-treated plants. Increasing levels of silicon were detected in the outer regions of epidermal cell walls. Silicon was present mainly in epidermal cell walls, middle lamella, and Intercellular spaces within subepidermal tissues. Furthermore, silicon was prevalent throughout the leaf surface with relatively small deposition on stomatal guard cells in silicon-treated plants. Force-distance curve measurements revealed relative hardness and smaller adhesion force in silicon-treated plants (18.65 uN) than control plants (28.39 uN). Moreover, force modulation microscopy showed higher mean height values of elastic Images In silicon-treated plants(1.26 V) than in control plants (0.44 V), implying the increased leaf hardness by silicon treatment. These results strongly suggest that silicon-induced cell wall fortification of rice leaves may be closely associated with enhanced host resistance to blast.

• 농업과학연구
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• 제6권2호
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• pp.97-104
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• 1979

새로운 도열병균의 생태형에 대하여 감수성이 높은 수도 통일계 품종 밀양 23호의 도열병의 발생경과와 발생양상에 미치는 시비수준의 영향을 구명하기 위하여 이 연구를 시도하였다. 그 동안에 얻은 연구 결과는 다음과 같다. 대체로 시비수준이 높아짐에 따라 밀양 23호는 도열병에 대하여 감수성이 더욱 높아지며 발병과 시비 수준사이에 밀접한 관계가 인정되었다. 이와 같은 관계는 마디도열병이나 이삭목도열병의 발생보다도 잎도열병 발생에 있어서 더욱 뚜렷하게 나타난다. 시비수준이 낮은 경우에도 마디도열병이냐 목도열병이 상당히 많이 발생하며 시비수준이 높은 경우의 마디 또는 이삭목도열병의 발생과 차이가 크지 않았다. 따라서 시비수준을 조절하므로서 마디 또는 목도열병을 회피시킨다는 것은 불가능할지 모르며 또한 잎도열병의 발생상으로부터 목도열병을 예찰한다는 것도 곤란한 일이라 생각된다.

• 한국유기농업학회지
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• 제13권3호
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• pp.291-300
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• 2005

우리나라 벼 유기농업 실천농가의 가장 큰 애로사항은 알려져 있는 병해 및 잡초 제어기술을 정립하기 위하여 강화 등 5개 지역의 벼 유기농재배지와 관행재배지에서 병해충의 발생 실태를 조사한 결과는 다음과 같다. 1. 병해 발생조사결과 도열병은 관행재배지보다 오리농법 재배지에서 발병이 많았고 품종별로는 추청벼 보다 일품벼에서 발병이 많았으며, 잎집무의마름병은 오리농법과 쌀겨농법재배지에서 발병이 많았고 품종별로는 추청벼 보다 일품벼에서 발병이 많았으며, 문고병도 관행재배지보다 오리농법과 쌀겨농법에서 발병이 많은 경향이었다. 2. 친환경 자재의 벼 종자소독 효과시험 결과 현미식초 1,000배액이 키다리병 방제에 효과가 있었으며 발아율도 양호하였고, 시중에 종자소독용으로 유통되고 있는 친환경자재의 도열병에 대한 예방 및 치료효과는 미미하였다. 3. 헤어리벳치 재배구의 헤어리벳치 건물 중이 이앙시기에 추천량의 1/40에 불과하여 헤어리벳치 재배에 의한 토양물리성의 변화는 없었다. 4. 헤어리베치 잎과 뿌리의 추출물질은 상추종자의 발아 억제효과를 보였다.

• 한국작물학회지
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• 제45권5호
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• pp.316-321
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• 2000

Blast severity data of 39 rice varieties at 11 sites in Korea from 1997 to 1999 were analyzed using AMMI model and pattern analysis. Genotype x Environment (G$\times$E) interaction sum of squares (SS) accounted for 12 % of the total SS. Eight genotype groups and seven location groups were identified based on blast reaction pattern. The data obtained from over 21 sites with 44 test varieties from 1981 to 1996 were also considered. These were compared with the 1997-1999 data using the G$\times$E analysis results. Majority of the variability in the Korean Rice Blast Nursery (KRBN) were attributable to variations due to genotypes. Variations of G$\times$E interaction were maintained though test sites were reduced from 21 to 11 sites. Broadly compatible biological discriminative varieties identified were Nagdongbyeo and Akibare while broadly incompatible biological discriminative varieties identified were Hangangchalbyeo and Seogwangbyeo. Key sites for future evaluation work could be selected from location groups. Each location group should be represented by the site with the strongest interaction pattern. Blast responses in Cheolwon, Gyehwa, Suwon, Iksan, and Icheon showed different patterns from other locations.

• The Plant Pathology Journal
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• 제21권2호
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• pp.87-92
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• 2005

The structural differences between healthy and diseasedpanicle necks caused by Pyricularia oryzae were observed using electron-microscope. In the diseased panicle neck, the infection hyphae of the rice blast pathogen grew through the sclerenchymatous fiber tissue and reached to the central internal lacuna. Since the pathogen grew through the sclerenchymatous fiber tissues, the vascular bundle composed with xylem and phloem had been destroyed and finally the nutrients from the leaf and stem were not able to be transported into the grains. Infection of panicle base by the blast pathogen until 20 days after heading caused more than 50% of yield loss in both Jinmibyeo and Chucheongbyeo. There was a positive correlation between incidence of the panicle blast and rice yield losses. The regression equations between incidence of the panicle blast and yield losses were y= -3.61+496.7 ($R^2$=0.70) in Jinmibyeoand y=-3.93+520.2 ($R^2$=0.82) in Juanbyeo. The panicleblast caused deterioration of grain quality. Healthy grain rate was reduced by increase of panicle blast infection.