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1.
水稻抗纹枯病苗期快速鉴定技术研究 总被引:17,自引:3,他引:14
以抗感反应不同的5个水稻品种为试验材料,在人工气候箱、控温室中进行水稻苗期抗纹枯病接种试验,并与田间相应的成株期抗性试验进行比较,研究水稻苗期快速鉴定技术。结果表明:85%的相对湿度为纹枯病菌侵染危害水稻苗期植株的适宜湿度;苗期5个水稻品种对纹枯病抗性差异极显著,可将其分为相对感病(Lemont、武育粳3号)和相对抗病(YSBR1、Jasmine85、特青)2大类;接种叶龄对发病程度有显著的影响,5个品种在四叶期接种时的平均病级显著高于五叶期接种的平均病级;苗期水稻品种间抗感差异小于田间鉴定试验结果,但两者间品种抗感趋势基本一致。苗期快速鉴定技术可用于大规模水稻品种(组合)的抗性筛选或初步鉴定。 相似文献
2.
The partial resistance to blast of six rice cultivars was assessed in greenhouse experiments and in an upland nursery experiment. IR36. Milyang30 and Milyang42, which have shown relatively little disease in farmers' fields for several years, had lower relative disease efficiency and smaller lesions with lower sporulation capacity than did IR50. Milyang 57 and Suweon 264. Latent period was the least important component of partial resistance. Using the area under disease progress curves as a measure of relative disease progress in the nursery, disease development on IR36 and Milyang 42 was slight and on Milyang 30 intermediate. By comparison, the three susceptible cultivars showed rapid increases in disease. Partial resistance may be associated with more durable blast resistance in certain cultivars. 相似文献
3.
Hiromitsu Furuya Keisuke Tubaki Tsutomu Matsumoto Shin-ichi Fuji Hideki Naito 《Journal of General Plant Pathology》2005,71(5):333-339
Soil samples were collected from rice paddies at 22 locations in northeastern Honshu, Japan. In 20 of the samples, seedling growth of rice was improved by soil pasteurization (aerated steaming at 60°C for 30 min), although no typical disease symptoms were observed in the seedlings grown in the untreated soil samples. In most locations, rice seedlings grew better in a potting medium containing root material from plants grown in the pasteurized portion of a soil sample than in a medium with root material from plants grown in the unpasteurized portion of the same sample. The results suggest that microorganisms that restrained rice seedling growth may be common in the soils of rice paddies. Approximately 800 isolates were obtained from seedling roots grown in unpasteurized soils and grouped by cultural and microscopic morphologies. The deleterious effects of 79 isolates from 21 major groups, most of which were soil-dwelling taxa, were examined after direct inoculation of the seminal roots. Isolates of Curvularia sp., Cirrenalia sp., Eppicoccum nigrum, Fusarium graminearum, F. oxysporum, Gliocladium virens, Humicola sp., Penicillium sp., Rhizoctonia oryzae-sativae, Sclerotium hydrophilum, Trichoderma aureoviride, and T. harzianum inhibited root growth, suggesting that deleterious root-infecting fungi were more common in paddy soil than previously thought. These fungi may be involved in the restraint of rice seedling growth. 相似文献
4.
Rice blast, caused by the fungal pathogen Magnaporthe oryzae, is a serious threat to rice production worldwide. In temperate regions, where rice is not cultivated for several months each year, little is known about the initial onset of the disease in the field. The main overwintering and primary inoculum sources reported are infested residues and seeds, but the subsequent steps of the disease cycle are largely unknown, even though a systemic infection has been proposed but not demonstrated. The present work follows rice blast progression in infected seeds from germination to seedling stage, with direct and detailed microscopic observations under both aerobic conditions and water seeding. With the use of GFP‐marked M. oryzae strains, it was shown that spores are produced from contaminated seeds, infect emerging seedling tissues (coleoptile and primary root) and produce mycelium that colonizes the newly formed primary leaf and secondary roots. Using different rice cultivars exhibiting distinct levels of resistance/susceptibility to M. oryzae at the 2/4‐leaf stage, it was observed that resistance or susceptibility of a considered genotype is already established at the seedling stage. The results also showed that when plants are inoculated either at ripening stage (mature panicles), heading stage (flowering/immature panicles) or even before heading (flag leaf fully developed), they produce infested seeds. These seeds produce contaminated seedlings that mostly die and serve as an inoculum source for healthy neighbouring plants, which gradually develop disease symptoms on leaves. The possible rice blast disease cycle was reconstructed on irrigated rice in temperate regions. 相似文献
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6.
为研究稻瘟病菌Magnaporthe oryzae不同菌株间的相互作用,选择与单抗性基因系水稻IRBL5-M (携带抗性基因Pi5)表现为亲和性的菌株HN52与非亲和性的菌株HN119为研究对象,将其单独或混合接种到单抗性基因系水稻IRBL5-M中,并通过荧光显微镜观察接种后水稻叶鞘的发病情况及病斑面积,测定接种后水稻内相关抗性基因OsWRKY45、OsNPR1、OsPR10、OsMAPK2的表达量以及活性氧的变化。结果显示,相较于单独接种亲和性菌株,混合接种后单抗性基因系水稻IRBL5-M病斑发病面积减少;混合接种中亲和性菌株HN52菌丝侵染能力降低,侵染菌丝细胞间扩展率显著降低73.13%;同时单抗性基因系水稻IRBL5-M中OsWRKY45、OsNPR1、OsPR10和OsMAPK2抗性基因表达量显著增加,水稻叶片中活性氧含量增加,表明在菌株混合侵染过程中,非亲和性菌株可通过激发水稻的抗性反应来降低亲和性菌株对水稻的侵染程度。 相似文献
7.
Katanyutita Damchuay Tanakorn Srirat Thanyaluk Sirisathaworn Apinya Longya Wattanaporn Teerasan Piyama Tasanasuwan Siripar Korinsak Chatchawan Jantasuriyarat Theerayut Toojinda 《Plant pathology》2022,71(2):334-343
Rice blast disease, caused by the filamentous fungus Pyricularia oryzae, is one of the most destructive diseases in rice worldwide. Breeding of resistant rice cultivars remains a cost-effective and environment-friendly means for controlling blast disease, but the resistance tends to break down over time because of the pathogen's rapid adaptation. In this study, AVRPiz-t gene sequences of 46 rice blast isolates were evaluated using a Southern blot analysis. The AVRPiz-t gene was present in 24 of 46 (52.2%) rice blast isolates. The pathogenicity assay showed that all blast isolates were avirulent against Japanese rice cv. Toride 1, which carries several rice blast resistance genes including Piz-t, Pii, Pi37, and Pi-ta. Screening for the Piz-t gene in Thai rice germplasm revealed that less than 20% of rice varieties harbour the Piz-t gene. Therefore, the Toride 1 rice variety could serve as an effective donor of rice blast resistance to be used in rice breeding programmes in Thailand. This study provides evidence for co-evolution between the rice blast resistance gene Piz-t and the rice blast fungal avirulence gene AVRPiz-t. Understanding this relationship will facilitate the sustainable development of breeding for rice blast resistance in the future. 相似文献
8.
转基因水稻对稻瘟病的抗性研究 总被引:6,自引:0,他引:6
采用苗期初筛、复筛、抗谱测定和田间自然诱发试验等不同鉴定方法,对经分子检测证明已整合有碱性几丁质酶基因和β-1,3-葡聚精酶基因的22个转化系的转基因水稻植株进行稻瘟病抗性鉴定研究,筛选出对稻瘟病的抗性比原种对照七丝软占有明显提高的一系列转基因水稻品系,其中表现高抗的有来自F4-9转化株系的7个品系。高抗材料的R7代品系,经室内抗谱测定及田间病圃试验结果,仍然表现高抗稻瘟病。本研究通过转基因技术,成功地将优质感病品种改良成高抗品系,研究结果证明了利用基因工程手段培育抗病水稻新品种是一个非常有希望的育种途径。 相似文献
9.
以水稻的Xa21基因中富含亮氨酸重复区域(leucine-rich repeat regions)设计的XLRR for(CCGTTGGACAGGAAGGAG)与XLRR rev(CCCATAGACCGGACTGTT)为引物,通过PCR扩增、聚丙烯酰胺凝胶电泳和银染检测,进行了江西省水稻主栽品种和地方资源品种的抗病基因类似序列(resistance gene analogue,RGA)分析.结果表明,水稻抗病基因类似序列类型丰富,供试的23个品种的RGA-PCR指纹聚类后,当以欧氏距离4.5划分时,可分为6个遗传相似组.同一遗传相似组内的品种,在品种的特性上,有较强的相似性,如第二组,由两个品种大禾谷和长粒糯组成,它们均为高秆的地方优质老品种,生产上均较感稻瘟病.烂蔸糯和流稻糯两个糯稻品种,属同一遗传相似组.当以欧氏距离5.0划分时,可分为2个遗传相似组,其中一组包括圆粒糯、大禾谷、长粒糯等江西三个地方老品种和巴西陆稻.主栽品种汕优63、两优培九等与烂蔸糯、圆粒糯等优质地方老品种,遗传距离较远.田间试验表明,遗传背景差异较大的品种混合间栽,对稻瘟病平均防效达91.98%~95.68%. 相似文献
10.
R. E. Niks G. M. Butler 《European journal of plant pathology / European Foundation for Plant Pathology》1993,99(3):139-148
Three cultivars of white cabbage with different levels of resistance toMycosphaerella brassicicola were tested for seedbed infection. Seedlings grown in seedbeds, to which infected plant debris was added as an inoculum, showed typical ring spot lesions on the cotyledons and first two leaves before seedlings reached the transplanting stage, whereas non-inoculated controls had few lesions only. Differences in levels of resistance between cultivars were present in seedlings grown under field conditions. Disease severity of transplants at the end of the season reflected disease severity of seedlings before transplanting in each cultivar.To lower the risk of a severe epidemic of ringspot at the end of the growing season, the seedbed should be protected from infection byM. brassicicola. 相似文献
11.
To test the hypothesis that silicon (Si) confers resistance against appressorial penetration of the rice blast fungus, the proportion of appressorial penetration into the leaf epidermis to total appressoria formed was compared among rice plants amended with various rates of silica gel to those plants nonamended. The amounts of Si in the youngest leaves were consistent with the amounts of silica gel applied to the rice plants. Relative Si levels on the adaxial surface of leaves as detected by energy dispersive X-ray analysis also increased with the amounts of silica gel applied. Based on light microscopic observation of the adaxial surface of rice leaves, the proportion of appressorial penetration was reduced by increasing amounts of silica gel applied and increased with the length of period after spray inoculation. Consequently, these results strongly support the hypothesis and suggest that Si in the leaf epidermis may confer resistance against appressorial penetration. Meanwhile, the number of lesions per leaf also decreased with the amount of Si applied, while only a certain part of penetrated appressoria could become sporulating susceptible lesions. This suggests that Si also confers physiological resistance against blast infection after the penetration. 相似文献
12.
Nobuaki Ohtaka Hitoshi Kawamata Kazuhiko Narisawa 《Journal of General Plant Pathology》2008,74(2):101-108
Several applications of the suppressive fungus MKP5111B, isolated from the phylloplane of rice plants, were tested in an effort
to control rice blast disease. Three treatments with MKP5111B [living (Std), killed with liquid nitrogen (FR), and autoclaved
(AC)] were either sprayed onto rice seedlings or mixed into seed-sown soil. Three weeks after spraying and 4 weeks after the
soil application, we introduced Magnaporthe
oryzae, the causal agent of rice blast, into our systems. The Std and FR treatments suppressed rice blast, but the AC treatment
proved ineffective. Although a suppressive effect was seen on new leaves, no mycelium of MKP5111B was seen. The fungus thus
may have induced a systemic resistance in the rice plants. A substance from MKP5111B, such as elicitor molecule(s) are likely
responsible for the induced resistance. 相似文献
13.
Chen L Zhang SJ Zhang SS Qu S Ren X Long J Yin Q Qian J Sun F Zhang C Wang L Wu X Wu T Zhang Z Cheng Z Hayes M Beer SV Dong H 《Phytopathology》2008,98(7):792-802
Harpins of phytopathogenic bacteria stimulate defense and plant growth in many types of plants, conferring disease resistance and enhanced yield. In a previous study, we characterized nine fragments of the harpin protein HpaG(Xooc) from Xanthomonas oryzae pv. oryzicola for plant defense elicitation and plant growth stimulation activity relative to the intact protein. In plants grown under controlled conditions, the fragment HpaG10-42 was more active in both regards than HpaG(Xooc). Here, we demonstrate that the activity of HpaG10-42 in rice under field conditions significantly exceeds that of HpaG(Xooc), stimulating resistance to three important diseases and increasing grain yield. We carried out tests in 672 experimental plots with nine cultivars of rice planted at three locations. Application protocols were optimized by testing variations in application rate, frequency, and timing with respect to rice growth stage. Of the concentrations (24, 24, 12, and 6 microg/ml), and number and timing of applications (at one to four different stages of growth) tested, HpaG10-42 at 6 microg/ml applied to plants once at nursery seedling stage and three times in the field was most effective. Bacterial blight, rice blast, and sheath blight were reduced 61.6 and 56.4, 93.6 and 76.0, and 93.2 and 55.0% in indica and japonica cultivars, respectively, relative to controls. Grain yields were 22 to 27% greater. These results are similar to results obtained with typical local management practices, including use of chemicals, to decrease disease severities and increase yield in rice. Our results demonstrate that the HpaG10-42 protein fragment can be used effectively to control diseases and increase yield of this staple food crop. 相似文献
14.
L. Bastiaans M. J. Kropff 《European journal of plant pathology / European Foundation for Plant Pathology》1993,99(4):205-217
The effect ofPyricularia oryzae, the causal organism of leaf blast in rice, on photosynthetic rate of a rice crop was determined with mobile equipment in the field. Canopy CO2 exchanges rate (CER) was significantly reduced in plots inoculated withP. oryzae. The experimentally obtained data were used to evaluate the performance of a model for the effects of leaf blast on canopy photosynthesis. The model comprised photosynthesis and respiration routines of a mechanistic crop growth model, extended with submodels for effects of leaf blast on both processes. Canopy photosynthesis and the effect of leaf blast on CER were accurately simulated with the model.Analysis showed that the reduction in canopy photosynthesis was mainly due to an adverse effect of lesions on leaf photosynthetic rate and to shading by dead leaf are resulting from disease induced senescence. A sensitivity analysis demonstrated the importance of the vertical distribution of the disease in the canopy. This implies that disease monitoring for crop loss assessment should consider vertical disease distribution. 相似文献
15.
Rice phylloplane fungi were evaluated for their potential as biocontrol agents for rice blast disease caused by Magnaporthe grisea. A total of 1923 fungal isolates were obtained from rice plants in fields at Ishigaki and Iwama and from potted plants placed in a cedar woods in Iwama as bait. Although 82.9% of isolated fungi could not be identified, species of Epicoccum were the most prevalent among identified isolates. Of the 1923 isolates, 967 were randomly selected for screening against rice leaf blast. Nine isolates (MKP5111B, MKP5112, J2JMR3-2, K2J131-2, I5R3-1, NOP541, K1KM134-1, NOP5112, MKP33222) suppressed the disease when a conidial or hyphal suspension of both the phylloplane fungus and pathogen were simultaneously used to inoculate rice plants cultured in pots in a growth chamber. Five of the isolates originated from potted plants in the woods and four from Ishigaki, a subtropical island. Five (MKP5111B, MKP5112, NOP541, NOP5112, MKP33222) of the nine isolates strongly suppressed conidial germination of M. grisea (0.7%) and formed inhibition zones (3–5mm width) in dual cultures with the pathogen. Methanol extracts from the isolates also inhibited mycelial growth of the pathogen. These results suggest that the five isolates produced antibiotic(s). These five isolates are likely identical or closely related fungal species because the sequence of their ITS regions were 100% similar. ITS sequence analysis also suggested that J2JMR3-2 was associated with a species of Fusarium. Under field conditions, J2JMR3-2 reduced both leaf and panicle blast severity, and three other isolates (MKP5111B, K1KM134-1, K2J131-2) suppressed leaf blast in one of the three experiments. 相似文献
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17.
L. Bastiaans 《European journal of plant pathology / European Foundation for Plant Pathology》1993,99(4):197-203
The effect ofPyricularia oryzae, the causal organism of leaf blast in rice, on photosynthesis characteristics of rice leaves was measured in two greenhouse experiments. Leaf blast reduced photosynthesis not only through a reduction in green leaf area, but also through an effect on photosynthesis of green leaf tissue surrounding the lesions. The assimilation rate at light saturation (P
max
) was more affected than the initial light use efficiency (). Dark respiration (R
d
) increased as a result of infection. The experimental data were used to derive relations between leaf blast severity andP
max
, andR
d
. 相似文献
18.
为鉴定云南稻种质资源对水稻白叶枯病的抗性情况,于孕穗期采用剪叶接种方法,用水稻白叶枯病强致病型代表菌株BD8438、CN9404和X1接种云南野生稻和地方稻种质资源,以病斑长度大于6 cm为感病分界线,对其抗感表现型进行调查分析。结果显示,共鉴定出来源于云南省不同种植生态区的186份地方稻抗性材料和22个野生稻抗病居群。野生稻对水稻白叶枯病的抗病能力较地方稻强,其中疣粒野生稻的抗性最强,抗病等级为0~2;药用野生稻次之,抗病等级为1~2;普通野生稻相对较差,抗病等级为1~5。地方稻抗性资源来自于云南省各个传统水稻种植区,抗性1级的材料占17%,抗性2级的占2%,抗性3级的占81%;按照稻种质资源亚种类型、粘糯性和水旱性分类,各类型地方稻抗性材料所占比例分别为粳稻占61%、籼稻占39%;粘稻占66%、糯稻占34%;水稻占83%、陆稻占17%。从利用抗白叶枯病基因培育新品种的角度评价,这些抗性资源具有潜在的发掘利用价值。 相似文献
19.
Identification of avirulence genes in the rice blast fungus corresponding to three resistance genes in Japanese differentials 总被引:4,自引:0,他引:4
The pathogenicity of progeny from crosses among three Chinese isolates of Magnaporthe grisea collected from rice was tested on three Japanese differentials (Ishikarishiroke, Aichiasahi, K 59) having the blast resistance genes Pii, Pia, and Pit, respectively. Monogenic control was demonstrated for avirulence to the differentials. To identify resistance genes corresponding to the avirulence genes, the resistance and susceptibility in F3 lines of the cultivars in response to the parents of the crosses were analyzed genetically. The three avirulence genes identified, designated Avr-Pii, Avr-Pia, and Avr-Pit, appear to correspond to resistance genes Pii, Pia, and Pit, respectively. The monogenic control of avirulence in the fungus and monogenic dominant resistance in rice cultivars supports a gene-for-gene relation in the Pii-, Pia-, or Pit-dependent resistance to the rice blast fungus in rice cultivars. 相似文献