Selbst oder Nicht-Selbst �C die Rezeptoren des pflanzlichen Immunsystems

Plants recognize conserved molecular structures from microorganisms, which triggers active immune responses. Successful pathogens have to overcome this level of immunity; however, plants in turn can adapt their immune system, thus plants and pathogens are in an evolutionary arms race. As being sessile organisms, plants need to integrate and adapt to changing environmental conditions such as light, temperature, drought, or microorganisms. Plants protect themselves against diseases through sensitive recognition of potential pathogens and effective defense systems. The first level of the plant immune system provides recognition of a broad spectrum of microorganisms leading to defense activation (Bittel and Robatzek 2007). The second level of the plant immunity allows certain plant cultivars to detect of specific pathogen strains??a phenomenon also referred to as ??gene-for-gene resistance?? (Jones and Dangl 2006). The first level of immunity occurs rapidly and triggers active defenses normally without harm to the plant cell. The second level of plant immunity develops over days and deploys a local cell death, which prevents pathogens from further spread into tissues. In addition to these cell-autonomous defense systems, plants have also evolved strategies of systemic immunity.     

Comparison of two short DNA barcoding loci (COI and COII) and two longer ribosomal DNA genes (SSU & LSU rRNA) for specimen identification among quarantine root-knot nematodes (Meloidogyne spp.) and their close relatives

Root-knot nematodes (Meloidogyne spp.) are important pests of numerous crops worldwide. Some members of this genus have a quarantine status, and accurate species identification is required to prevent further spreading. DNA barcoding is a method for organism identification in non-complex DNA backgrounds based on informative motifs in short DNA stretches (≈600 bp). As part of the EU 7th Framework project QBOL, 15 Meloidogyne species were chosen to compare the resolutions offered by two typical DNA barcoding loci, COI and COII, with the distinguishing signals produced by two ribosomal DNA genes (small and large subunit rDNA; SSU?≈?1,700 and LSU?≈?3,400 bp). None of the four markers distinguished between the tropical species Meloidogyne incognita, M. javanica and M. arenaria. Taking P ID (Liberal) values ≥0.93 as a measure for species delimitation, the four mtDNA and rDNA markers performed well for the tropical Meloidogyne species complex, M. enterolobii, M. hapla, and M. maritima. Within cluster III A (Holterman et al. Phytopathology, 99, 227–235, 2009), SSU rDNA did not offer resolution at species level. Both mtDNA loci COI and COII did, whereas for LSU rDNA a longer fragment (≥700 bp) is required. The high level of mitochondrial heteroplasmy recently reported for M. chitwoodi (Humphreys-Pereira and Elling Nematology, 15, 315–327, 2013) was not found in the populations under investigation, suggesting this could be a regional phenomenon. For identification of RKNs, we suggest the combined use of SSU rDNA with one of three other markers presented here.     

Virusnachweis in Blattläusen

Potato virus Y (PVY) causes great economic losses in potato production world-wide. Concerning important it has replaced Potato leafroll virus (PLRV). Virus is transmitted by different aphid species in a non-persistent manner. During last years the developing of new effective methods for PVY monitoring, forecasting and detection in aphids is of increasing interest. Sensitive, rapid detection of virus in its natural vectors is of a great need to investigate the relationship between aphid migration and the spread of PVY. Simple diagnostic protocol for the detection of non-persistent Plum pox virus and semipersistent Citrus tristeza virus in aphids, proposed by Olmos et al. (2005) was probed to validate and estimate the efficiency of its applying for the detection of PVY in different aphid species too.     

Pathogenic diversity of soybean rust in Argentina, Brazil, and Paraguay

Phakopsora pachyrhizi, the cause of soybean rust, is an economically important pathogen of soybean in South America. Understanding the pathogenicity of indigenous fungal populations is useful for identifying resistant plant genotypes and targeting effective cultivars against certain populations. Fifty-nine rust populations from Argentina, Brazil, and Paraguay were evaluated for pathogenicity in three cropping seasons, 2007/2008–2009/2010, using 16 soybean differentials. Only two pairs of P. pachyrhizi populations displayed identical pathogenicity profiles, indicating substantial pathogenic variation in the rust populations. Comparative analysis of 59 South American and five Japanese samples revealed that pathogenic differences were not only detected within South America but also distinct between the P. pachyrhizi populations from South America and Japan. In addition, seasonal changes in rust pathogenicity were detected during the sampling period. The differentials containing resistance genes (Rpp: resistance to P. p achyrhizi) Rpp1, Rpp2, Rpp3, and Rpp4, except for Plant Introduction (PI) 587880A, displayed a resistant reaction to only 1.8–14, 24–28, 22, and 36 % of South American P. pachyrhizi populations, respectively. In contrast, PI 587880A (Rpp1), Shiranui (Rpp5), and 3 Rpp-unknown differentials (PI 587855, PI 587905, and PI 594767A) showed a resistant reaction to 78–96 % of all populations. This study demonstrated that P. pachyrhizi populations from South America vary geographically and temporally in pathogenicity and that the known Rpp genes other than Rpp1 in PI 587880A and Rpp5 have been less effective against recent pathogen populations in the countries studied.     

Gentian Kobu-sho-associated virus: a tentative, novel double-stranded RNA virus that is relevant to gentian Kobu-sho syndrome

A virus-like dsRNA of about 23 kbp was detected in gentian plants showing Kobu-sho syndrome including stunting, shortened internodes, and tumors on stems, nodes and roots. Nucleotide sequence analysis has suggested that this dsRNA is related to Pestivirus species but not to any other plant viruses. It was protected from externally added RNase, suggesting that the dsRNA is encapsidated. The dsRNA was co-extracted in a crude homogenate of glutaraldehyde-fixed tissue with the virus-like particles that have been associated previously with Kobu-sho syndrome in gentian (Usugi et al. Jpn J Phytopathol 76:21–24, 2010). The RNA sequence was detected in more than 99 % of Kobu-sho gentian individuals but in less than 20 % of apparently healthy gentian individuals from fields affected with Kobu-sho. Thus, we propose naming the virus Gentian Kobu-sho-associated virus.     

水稻病虫害综合防治五大关系的理性分析

本文论述“预防为主，综合防治”植保方针的理论和实践意义，结合我国水稻病虫害综合防治２０ａ的研究进展，提出综合防治的体系特征及其五大关系：（１）有害生物的种质分化与种型演变；（２）防治体系与预警系统；（３）为害损失与防治指标；（４）多抗性品种的开拓与推广；（５）多效药剂的研究开发与应用。进而探讨ＩＰＭ与可持续性植物保护的相互关系     

Rice Diseases in Nigeria

Abstract

The two major fungal diseases of rice in Nigeria are rice blast (Pyricularia oryzae Cav.) and brown spot (Cochliobolus miyabeanus (Ito and Kuribayashi) Dreschler ex Dastur). The loss in grain yield attributable to these diseases ranges from 11.5–39.6% and 12–43% respectively, Mancozeb, blasticidin-S, fentin hydroxide, benomyl and edifenphos as foliar sprays effectively control rice blast in the laboratory and field. Brown spot is controlled by spraying with thiram, mancozeb or blasticidin-S. A more useful approach to the control of these diseases being adopted in Nigeria is the search for horizontally resistant varieties. Other fungal diseases of rice in Nigeria are the green smut (Ustilaginoidea virens (Cooke) Tak.), basal sheath rot (Rhizoctonia solani Kühn), sheath blight (Corticium sasakii (Shirai), Matsumoto.), leaf scald (Rhynchosporium oryzae Hashioka and Yokogi), narrow brown leaf spot (Cercospora oryzae Miyake) and bakanae disease, a foot rot caused by Fusarium moniliforme Sheldon. Two suspected cases of virus diseases have been reported; grassy stunt disease (transmitted by Nilaparvata lugens Stal.), and orange leaf disease (transmitted by Inazuma dorsalis (Motschulsky). No bacterial disease of rice has been found in Nigeria.     

Direct and indirect impacts of integrated pest management on pesticide use: a case of rice agriculture in Java, Indonesia

BACKGROUND: Integrated pest management (IPM) technology has been disseminated since 1989 in Indonesia to cut down pesticide use, but the adoption and diffusion of the technology are still debated. This study aims to estimate the models of demand for pesticides and to analyse the impact of IPM technology on pesticide use. Aggregate cross-section time series data from 1990-1998 are used.RESULTS: The results show that IPM technology reduces the use of pesticides by improving the process of rice production, such that pesticides are more efficiently used. In this case, the IPM technology is not a pest control technique.CONCLUSION There is an indication that IPM technology has been adopted by farmers. This is evidence that the IPM programme in Indonesia was successful in this area. Copyright (c) 2008 Society of Chemical Industry.     

Chalara fraxinea is an invasive pathogen in France

Decline induced by Chalara fraxinea is an emerging disease that severely affects ash stands in Europe. The disease appears to have an invasive spread from East to West of Europe in the last decade. The teleomorphic stage, Hymenoscyphus pseudoalbidus, that occurs as apothecia on ash rachis in the litter was recently described. The origin of ash decline remains unclear as a cryptic species, H. albidus, a long-established fungus in Europe, could be present in the same niche, and as in Switzerland, H. pseudoalbidus was shown to have been present long before the recent epidemic outbreak. In France, the emerging disease is very recent and clearly restrained to Northeastern France. We thus collected isolates from infected hosts and from apothecia/ash rachis both inside and outside the infected area in France in order to compare them on the basis of pathogenicity towards ash seedlings and sequences of the ITS regions and of three single-copy genes. We showed that two population types exhibiting about 2% base pair polymorphism in the sequences analysed were present in Northern France. The first type, corresponding to H. pseudoalbidus, was present on rachis and infected hosts only in Northeastern France and showed strong pathogenicity towards ash seedlings in inoculation tests. By contrast, the second type, which corresponds to H. albidus, was present throughout Northern France and showed no pathogenicity towards ash seedlings. Our study confirms the results of Queloz et al. (2010) who presented molecular evidences for the existence of two cryptic species, H. albidus and H. pseudoalbidus. The results strongly suggest that Chalara fraxinea/H. pseudoalbidus is a recent invader in France.     

Validierung von „NemaCheck“, einem neuen Routinetest zur Befallsdichte-Bestimmung von Rübenzystennematoden (Heterodera schachtii)

For evaluation of ?Nema-Check“, a new test, recently developed at the Bodengesundheitsdienst (BGD?=?Soil Health Service) as a semi-quantitative PCR technique for detection of beet cyst nematodes (Fürstenfeld 2004), a comparison with a conventional method, routinely performed at the Bavarian State Research Center for Agriculture (LfL), was made within a field trial with various sugar beet varieties. As the PCR method was optimized only with regard to distinguish three classes of infestation, the correlation between both methods was only small when values were exceeding 1500 eggs and larvae/100?g soil as observed after cultivation of the susceptible cultivar. To reach a better correlation also in this range, where a linear correlation between the amount of PCR products and nematode concentration is not given with the existing PCR method, a further adaptation is necessary. However, as a routine test for simply differentiating between classes of infestation the PCR method established at the BGD seems to be suitable because initial nematode population determined with both methods differed in only 85,2% and final population in only 94,5% of all samples at a maximum of one class.     

Weeds and weed management in rice production in Japan

The area of paddy rice fields in Japan was 1.79 million ha in 1998 almost all of which was planted with young seedlings from nursery boxes by a mechanical rice transplanter. Japanese farmers controlled paddy weeds mainly by chemical herbicides, which were applied around 1.8 times in one growing season of rice by sequential treatment. The cost of herbicides was 35 320 ¥/ha on average, the main of which was ‘one‐shot’ herbicides, while weeding labor for the paddy field, including herbicide application, was 19.0 h/ha, or 29 976 ¥/ha in labor cost, in 1998. Under the Integrated Weed Management (IWM) for sustainable paddy rice production, other technologies for weed management are also recommended to paddy farmers, such as ecological or cultural, mechanical, biological methods and so on.     

Integrated Biodiversity Management in Paddy Fields: Shift of Paradigm From IPM Toward IBM

The insect fauna in paddy fields is composed of resident, migratory and aquatic species each corresponding to the continuous cropping of rice in the same field, harvesting rice as an annual crop, and originating from still water habitats in wetlands. Although IPM is becoming popular in the control of rice pests, those minor insects and aquatic insects that have no direct economic impact on rice production have received little attention. Consequently, some of them are in danger of extinction requiring conservation. A new concept, Integrated biodiversity management (IBM), is proposed under which IPM and conservation are reconciled and made compatible with each other. As an operational concept in agroecology, premises for implementing IBM are suggested.     

Heterodera elachista the Japanese cyst nematode parasitizing corn in Northern Italy: integrative diagnosis and bionomics

The Japanese cyst nematode Heterodera elachista was detected parasitizing corn cv Rixxer in Bosco Mesola (Ferrara Province) in Northern Italy. The only previous report of this nematode was in Asia (Japan, China and Iran) attacking upland rice; being this work the first report of this cyst nematode in Europe, and confirmed corn as a new host plant for this species. Integrative morphological and molecular data for this species were obtained using D2-D3 expansion regions of 28S rDNA, ITS1-rDNA, the partial 18S rDNA, the protein-coding mitochondrial gene, cytochrome oxidase c subunit I (COI), and the heat-shock protein 90 (hsp90). Heterodera elachista identified in Northern Italy was morphologically and molecularly clearly separated from other cyst nematodes attacking corn (viz. H. avenae, H. filipjevi, H. delvii, H. oryzae, H. sacchari, H. sorghi, H. zeae, Punctodera chalcoensis, and Vittadera zeaphila) and rice (H. oryzae, H. sacchari). The phylogenetic relationships of H. elachista from Northern Italy with other cyst-nematodes using rDNA and mtDNA showed a separation of the genus Heterodera in various morphospecies groups based on vulval cone structures. The development and parasitic habit of H. elachista on naturally infected corn cv Rixxer confirmed a typical susceptible reaction, including multinucleate syncytial cells in parenchymatic cells. Under greenhouse conditions, H. elachista successfully reproduced on two crops widely used in Northern Italy, such as corn (cv PR 33) and rice (cv Baldo). Considering the limited host-range of this nematode, that include two of the three world’s most important crops, special attention is needed for avoiding the dispersal of this nematode into new areas, by movement of soil on equipment, water, and contaminated containers infested soil, or agricultural practices.     

根区施药试验研究的新进展

本文就继续研究应用呋喃丹、杀虫脒、巴丹类等内吸杀虫剂根区施用的十种不同方式防治水稻三化螟、稻瘿蚊、稻蓟马、稻纵卷叶螟、褐稻虱等主要害虫的药效及对害虫天敌影响的新进展作扼要的报道,进一步阐明根区施药的科学根据、盆栽及田间试验结果、以及指出应用楝科植物(印楝、川楝、苦楝)对稻瘿蚊等害虫防治的可能性和探索呋喃丹根区施用对褐稻虱的杀卵作用。此外,对湖北、江西等地约10万余亩稻田推广根区施药试验示范的情况亦作适当的介绍。     

Potato bacterial wilt in India caused by strains of phylotype I, II and IV of Ralstonia solanacearum

Bacterial wilt or brown rot is one of the most devastating diseases of potato caused by a bacterium Ralstonia solanacearum (Smith 1986) Yabuuchi et al. (Microbiol Immunol 39:897–904 1995). Traditionally, R. solanacearum is classified into five races (r) on the basis of differences in host range and six biovars (bvs) on the basis of biochemical properties. Recently using molecular methods, R.?solanacearum has been classified into phylotypes based on the intergenic transcribed sequence of the ribosomal RNA genes 16S and 23S and into sequevars based on the endoglucanase gene (egl) sequence. In the present study, 75 bacterial strains, isolated from wilt infected potatoes from various potato growing regions of India, were classified by traditional and molecular methods. The identity of all the strains was confirmed as R. solanacearum as expected single 280-bp fragment resulted in all the strains following PCR amplification using R. solanacearum specific universal primer pair 759/760. Biovar (bv) analysis, based on utilization of disaccharide sugars and hexose alcohols, categorised the 75 strains into bv2 (78.7 %), 2 T (5.3 %), 3 (5.3 %) and 4 (10.7 %). The phylotype specific multiplex PCR assigned 78.7 % strains to phylotype II, 16.0 % to phylotype I and 5.3 % to phylotype IV. Phylogenetic analysis of egl gene sequences clustered all fifty nine phylotype II (bv2) strains with reference strain IPO1609 (IIB-1), all four phylotype IV (bv2T) strains with reference strain MAFF301558 (IV-8), three phylotype I (bv3) strains with reference strain MAFF211479 (I-30) and all eight phylotype I (bv4) and one phylotype I (bv3) strain with reference strain CIP365 (I-45). The study concluded that the Indian potato strains of R. solanacearum belong to three out of four phylotypes namely: the Asian phylotype I, the American phylotype II, and the Indonesian phylotype IV. This is the first study to address the diversity of R. solanacearum from potato in India using phylotype and sequevar scheme. We also report here for the first time the occurrence of phylotype IV sequevar 8 (bv2T) strain of R. solanacearum causing potato bacterial wilt in mid hills of Meghalaya in India.     

Comparative study of 2 protection strategies against Tuta absoluta (Meyrick) in late open field tomato crops in Tunisia

A comparative study of 2 protection strategies against Tuta absoluta (Meyrick) in open field tomato crops was performed. The first strategy used Integrated Pest Management (IPM) through mass trapping, release of Nesidiocoris tenuis and rational use of compatible insecticides. The second strategy was based on conventional use of synthetic insecticides (9 treatments). This study revealed at the end of the culture a 20% infestation rate of leaves in the IPM cropping system versus 98% in the conventional cropping system. The infestation rate of fruit was 18.2% in the IPM cropping system versus 46.8% with the conventional one.     

Integrated management of insect pests,diseases and weeds of cotton in Africa

Integrated pest management systems were developed originally in response to the appearance of insect populations with resistance to common insecticides. Cotton with its heavy dependence on insecticidal sprays was one of the first crops in which the effectiveness of control declined due to resistance in the target pests. Although insecticide resistance is more of a problem in large scale production systems, the IPM approach can also benefit the smallholder by reducing the number of sprays required with consequent cost savings. Where crop growth is adversely affected by diseases, competition from weeds or poor management, the full benefit of insecticide spray programmes cannot be realised. To be fully effective, insect control should therefore be integrated with other crop protection activities. This paper reviews the insect pests, diseases and weed problems of cotton in Africa and discusses the possibilities for extending the principles of IPM to cover all the crop protection activities with practical examples drawn from both small scale and larger scale production systems.     

Suppressive effect of bacteriophage on bacterial palea browning of rice caused by Pantoea ananatis

Bacterial palea browning of rice, caused by Pantoea ananatis from infection during flowering, occurs widely in Japan and degrades the quality of rice. In a search for environmentally friendly control measures, effects of bacteriophages on the incidence of the disease were examined. Phages lytic to both pathogenic and nonpathogenic P. ananatis were isolated from an inflorescence of eulalia (Miscanthus sinensis), a gramineous weed, and one of the phages was sprayed with and without a nonpathogenic isolate of P. ananatis on rice plants at the flowering stage. Coapplication of the phage and nonpathogenic P. ananatis suppressed the disease in sunlight. Surprisingly, application of the light-labile phage by itself was suppressive. The phage retarded the growth of the pathogen on rice plants and on LB medium. Because nonpathogenic Pantoea strains are abundant on rice panicles at the flowering stage and could be hosts of the phage and the optimum infection period of rice with P. ananatis is during the flowering stage, disease suppression by the phage is thought to be due to the combined effects of the phage, naturally inhabiting nonpathogenic bacteria, and the limited susceptible period.