Peanut stripe virus in Indonesia

During a survey of groundnut in 1986 and 1987 in South Sulawesi, West and East Java and West Sumatra a disease was frequently observed which is characterized by the presence of green blotches. These blotches were either randomly distributed over the entire leaflets or concentrated along the veins; sometimes they were surrounded by light green rings. On the basis of test plant studies, serology and electron microscopy it was concluded that the causal agent of the disease is peanut stripe virus (PStV). This virus has been described for the first time in the USA in 1984. Some potyviruses described earlier in Indonesia, viz. groundnut mottle-y and peanut mottle virus (PMV) probably are also PStV. The similarity of symptoms caused by PStV and peanut mottle virus was the reason why blotching on groundnut in Indonesia was ascribed for many years to PMV.As PStV causes severe yield losses, further research is being done on the epidemiology of the virus, on yield loss assesment and on testing breeding lines of groundnut for resistance.Samenvatting Tijdens een inspectie in 1986 en 1987 in Zuid Sulawesi, West en Oost Java en West Sumatra werd in aardnoot (Arachis hypogaea) veelvuldig een ziekte aangetroffen, die opviel door donkergroene vlekkerigheid. De vlekken waren onregelmatig over de bladeren verspreid of kwamen voornamelijk voor rond de nerven. Soms waren de vlekken omgeven door een lichtgroene ring. Op grond van symptomen op toetsplanten, serologische verwantschap en elektronenmicroscopische eigenschappen werd geconcludeerd, dat deze ziekte veroorzaakt wordt door het peanut stripe virus. Dit virus is voor het eerst beschreven in 1984 in Amerika. Dit is de eerste officiële melding van het virus in Indonesië.Enkele eerder beschreven potyvirussen van aardnoot in Indonesië, groundnut mottle-y en peanut mottle virus (PMV) zijn waarschijnlijk ook PStV. De gelijkenis van de door PStV and peanut mottle virus veroorzaakte symptomen heeft ervoor gezorgd dat de vlekkerigheid op aardnoot in Indonesië jarenlang aan PMV werd toegeschreven.Aangezien PStV veel schade veroorzaakt, wordt verder onderzoek gedaan aan de epidemiologie van dit virus, aan het oogstverlies en aan het toetsen van aardnootlijnen op resistentie.     

Zucchini yellow mosaic virus; two outbreaks in the Netherlands and seed transmissibility

In 1983 and 1987/88 two limited outbreaks of zucchini yellow mosaic virus in cucumber and zucchini squash occurred in the Westland glasshouse district in the Netherlands, mainly in glasshouses. The disease could be eradicated and has not recurred so far. In both cases a relatively mild but still highly pathogenic strain of the virus was involved. Diseased plants of zucchini yielded severely distorted or no fruits and it was difficult to obtain seeds from infected plants. Two out of 4196 seedlings grown in isolation from seed from inoculated zucchini plants showed symptoms and contained the virus, indicating that the virus can be transmitted via seed but at very low rate. This explains the erratic incidence and international distribution of the virus.     

Immunolocalization of Pepper mild mottle virus in Capsicum annuum seeds

To clarify the mechanism of seed transmission of Pepper mild mottle virus (PMMoV), the virus was immunolocalized in Capsicum annuum seeds using fluorescence microscopy. Two distinct patterns were observed: In the first, PMMoV was present in the epidermis and parenchyma but not in the endosperm or embryo; in the second, the virus was restricted to the surface of the epidermis and parenchyma. These findings shed light on the fundamental mechanisms of seed transmission of tobamoviruses and may aid in the design of new methods to prevent the spread of seedborne virus diseases.     

Rice Yellow Mottle Virus is Seed-borne but not Seed Transmitted in Rice Seeds

Seed transmission of two pathogroups of rice yellow mottle virus from Soudano-Sahelian areas of West Africa was studied in several rice genotypes. The virus was detected by enzyme-linked immunosorbent assay and the highly susceptible rice variety BG 90-2 was used for infectivity assays. In most of the rice genotypes studied (17 out of 21), rice yellow mottle virus was detected in all seed parts including glumella, endosperm and embryo at a rate ranging from 65 to 100%. Nevertheless, no seed-borne infection was found. Infectivity of the virus decreased throughout the process of seed formation suggesting inactivation of the virus as a result of seed maturation and desiccation. It was concluded that rice yellow mottle epidemics do not develop from seed-borne infections in rice seeds.     

Eremothecium ashbyi causes soybean yeast-spot and is associated with stink bug, Riptortus clavatus

Many fusiform ascospores observed on soybean seeds with yeast spot disease symptoms differed significantly from those of Eremothecium coryli, the known causal agent of yeast spot disease in soybean. On the basis of morphological and physiological characteristics and sequence data of the internal transcribed spacer regions including the 5.8S rDNA and D1/D2 regions of 26S rDNA, this fungus was identified as E. ashbyi. Pathogenicity of E. ashbyi was confirmed by reinoculation test. This report is the report on E. ashbyi causing soybean yeast spot disease. In addition, this study showed that E. ashbyi was transmitted by the stink bug, Riptortus clavatus, as was E. coryli, the two Eremothecium yeasts may have been acquired when the stink bug fed on infected soybeans and overwintered in this insect species. The nucleotide sequence data reported are available in the GeneBank/EMBL/DDBJ database as accessions AB294407 to AB294412 for E. ashbyi EA1, EA7 and EA11.     

大豆褐斑粒与大豆花叶病毒若干株系的关系

 近年来发生的大豆褐斑粒是由大豆感染大豆花叶病毒的黄斑株系和顶枯株系等所致。人工接种上述病毒证明了这一点。种子斑驳的严重度与植株发病的严重度有某种相关性。
病株所结种子并不一定全部为褐斑粒。褐斑粒或病株所结无病状种子都可以传病,带毒种子产生疫苗的多少视环境条件、大豆品种及病毒的株系而异。     

Reduction of pesticide hazards to wild life: An appraisal of experience gained in Britain 1960 - 67

Abstract

The plant oils groundnut, coconut, mustard, sesame, soybean and rapeseed used as surface protectants at 1, 3 and 5 ml/kg of seed to test their efficacy against C. chinensis on a variety of chickpea resulted in significantly less oviposition on treated than untreated seeds. Least oviposition (34.3 eggs) occurred on seeds treated with mustard oil at 5 ml/kg, less with coconut oil at 5 ml/kg (46.0 eggs) and 3 ml/kg (47.3 eggs). Minimum percentage adult emergence (0.5) occurred from mustard oil‐treated seeds at 5 and 3 ml/kg, followed by groudnut (7.6), soybean (16.7) and rapeseed (6.2) oils used at 1 ml/kg. All the test oils adversely effected hatching and development of embryos, resulting in further population suppression. Seeds showed only 0.5% damage when treated with mustard oil at the rate of 5 and 3 ml/kg, and rapeseed at 5 ml/kg. Oil treatments did not adversely effect seed germination.     

Broad bean mottle virus in Morocco; curculionid vectors,and natural occurrence in food legumes other than faba bean (Vicia faba)

Broad bean mottle virus (BBMV) was transmitted from infected to healthy faba-bean plants by the curculionid weevilsApion radiolus Kirby,Hypera variabilis Herbst,Pachytychius strumarius Gyll,Smicronyx cyaneus Gyll, andSitona lineatus L. The latter appeared to be an efficient vector: acquisition and inoculation occurred at the first bite, the rate of transmission was c. 41%, and virus retention lasted for at least seven days.S. lineatus transmitted the virus from faba bean to lentil and pea, but not to the three genotypes of chickpea tested. This is the first report on the generaHypera, Pachytychius, andSmicronyx as virus vectors, and onA. radiolus, H. variabilis, P. strumarius, andS. cyaneus as vectors of BBMV.Out of 351 samples of food legumes with symptoms suggestive of virus infection, 16, 11, 19, and 17% of the samples of chickpea, lentil, pea, and common bean, respectively, were found infected when tested for BBMV in DAS-ELISA. This is the first report on the natural occurrence of BBMV in chickpea, lentil, pea, and common bean. The virus should be regarded as a food-legume virus rather than a faba-bean virus solely, and is considered an actual threat to food legume improvement programmes.     

Intraspecific Evolution of <Emphasis Type="Italic">Rhizoctonia solani</Emphasis> AG-1 IA Associated with Soybean and Rice in Brazil based on Polymorphisms at the ITS-5.8S rDNA Operon

Rhizoctonia solani AG-1 IA causes leaf blight on soybean and rice. Despite the fact that R. solani AG-1 IA is a major pathogen affecting soybean and rice in Brazil and elsewhere in the world, little information is available on its genetic diversity and evolution. This study was an attempt to reveal the origin, and the patterns of movement and amplification of epidemiologically significant genotypes of R. solani AG-1 IA from soybean and rice in Brazil. For inferring intraspecific evolution of R. solani AG-1 IA sampled from soybean and rice, networks of ITS-5.8S rDNA sequencing haplotypes were built using the statistical parsimony algorithm from Clement et al. (2000) Molecular Ecology 9: 1657–1660. Higher haplotype diversity (Nei M 1987, Molecular Evolutionary Genetics Columbia University Press, New york: 512p.) was observed for the Brazilian soybean sample of R. solani AG-1 IA (0.827) in comparison with the rest of the world sample (0.431). Within the south-central American clade (3-2), four haplotypes of R. solani AG-1 IA from Mato Grosso, one from Tocantins, one from Maranhão, and one from Cuba occupied the tips of the network, indicating recent origin. The putative ancestral haplotypes had probably originated either from Mato Grosso or Maranhão States. While 16 distinct haplotypes were found in a sample of 32 soybean isolates of the pathogen, the entire rice sample (n=20) was represented by a single haplotype (haplotype 5), with a worldwide distribution. The results from nested-cladistic analysis indicated restricted gene flow with isolation by distance (or restricted dispersal by distance in nonsexual species) for the south-central American clade (3-2), mainly composed by soybean haplotypes.     

Effects of thiophanate-methyl and azoxystrobin on the composition of Cercospora kikuchii populations with thiophanate-methyl-resistant strains

Azoxystrobin was recently registered in Japan for the control of purple seed stain of soybean caused by Cercospora kikuchii, because the pathogen has developed resistance to thiophanate-methyl. To investigate the effects of these fungicides on the frequency of C. kikuchii strains resistant to thiophanate-methyl and on the genotype structure of the population, we sowed purple-stained seeds, approximately 40% of which were infected with resistant strains, as inocula with asymptomatic seeds and applied thiophanate-methyl and azoxystrobin during the reproductive growth of soybeans. The isolation frequency of resistant strains increased more than 99% by thiophanate-methyl but was not significantly increased by azoxystrobin. In amplified fragment length polymorphism (AFLP) DNA fingerprinting, genotypic diversity was significantly decreased by thiophanate-methyl but was not affected by azoxystrobin. In addition, the similarity of the AFLP genotype structure was increased by thiophanate-methyl but not by azoxystrobin. These results suggest that thiophanate-methyl selectively inhibited the proliferation of sensitive strains, which resulted in a small number of genotypes, most of which were resistant strains. Azoxystrobin was found to nonselectively inhibit proliferation of the pathogen, which retained a large number of genotypes including thiophanate-methyl-sensitive or thiophanate-methyl-resistant strains or both. The nucleotide sequence data for the cytochrome b gene are available in the DDBJ/EMBL/GenBank databases under accession number AB231863.     

大豆疫霉Phytophthora sojae卵孢子在黑龙江省土壤中的越冬存活率

为探究大豆疫霉Phytophthora sojae卵孢子在黑龙江省土壤中的越冬存活率及其与所处土壤深度和媒介的相关性,以增强型绿色荧光蛋白为报告基因,将培养基及病残体中的大豆疫霉卵孢子分别接种到试验田框栽土壤表层下不同深处,检测其卵孢子的越冬存活率,同时在框栽中定量播种不含任何已知抗疫霉根腐病基因的大豆品种Sloan(rps),苗期调查其发病率。结果表明,大豆疫霉卵孢子在黑龙江省土壤中的适生性较强,可在5~15 cm深度土壤中安全越冬,越冬存活率高达81.67%~96.33%。卵孢子越冬存活率与其所处的越冬媒介关系不大,而与土壤深度有关。在5~15 cm范围内,随着土壤深度的增加,卵孢子越冬存活率增加。处于深层土壤中的卵孢子更容易打破休眠,进入萌发前的萌动状态。各处理间卵孢子越冬存活率的显著性差异并未在发病率上表现出来,说明除了土壤深度外,还有其它因素影响发病率。     

Incidence of thiophanate-methyl resistance in Cercospora kikuchii within a single lineage based on amplified fragment length polymorphisms in Japan

We collected 247 isolates of Cercospora kikuchii from soybean seeds with typical purple stain symptoms from 15 prefectures in Japan. Of the 247 isolates, 93 were sensitive to thiophanate-methyl, a benzimidazole used to control this soybean disease; the remaining 154 were highly resistant to the fungicide. To examine genetic variability among the population of 247 isolates, we developed amplified fragment length polymorphism (AFLP) markers. An AFLP primer pair generated DNA fingerprint polymorphisms among the sample isolates, and with the unweighted pair-grouping method to cluster arithmetic means of the similarity coefficients among all pairs of the fingerprint patterns, the isolates were divided into four lineages (I to IV). Of the 247 isolates, 225 belonged to lineage I, including all isolates that were resistant to thiophanate-methyl. To determine whether the resistance of these isolates was related to mutations in the β-tubulin gene, we amplified partial nucleotide sequences of the gene from 29 representative isolates, including 12 that were resistant to thiophanate-methyl, by means of the polymerase chain reaction. The resistant isolates had identical nucleotide sequence with a one-step change at codon 198, in which the amino acid glutamic acid had been replaced by alanine. The evidence thus suggests that thiophanate-methyl resistance might have arisen in lineage I, the largest of the four lineages. The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under accession numbers AB214511 to AB214515     

Suppression of development of Callosobruchus maculatus (F.) (Col.: Bruchidae) in bambara groundnut seeds exposed to solar heat in the Nigerian savanna

The effect of solarization on the development of Callosobruchus maculatus was investigated in the Nigerian savanna during the hot season from April to May, 1999. Development of C. maculatus adult progeny was completely suppressed in seeds of bambara groundnut, Vigna subterranea bearing bruchid eggs or harbouring first and second instar larvae that were exposed to the sun in metal tins, clay pots or polypropylene sacks for 7, 14 or 28 h. Adults of C. maculatus developed only in seeds that were not exposed to sun. Solarization did not have a significant adverse effect on germinability of bambara groundnut seeds.     

Spatial distribution of purple seed stain of soybean caused by <Emphasis Type="Italic">Cercospora kikuchii</Emphasis> in fields

To investigate the frequency distribution of purple seed stain of soybean caused by Cercospora kikuchii in two experimental fields in 2004, we set up rows 75 cm apart and sowed two asymptomatic seeds at each of positions 20 cm apart in each row. We sowed purple-stained seeds infected with the pathogen as inocula at four points instead of asymptomatic seeds in each field. We assessed disease incidence in harvested seeds by counting the numbers of purple-stained and asymptomatic seeds. To determine the spatial distribution of the disease, we grouped the field points into analytical units of several sizes. Beta-binomial and binomial distributions described the distribution patterns of purple-stained seeds. The smallest value of α, a beta-binomial parameter, occurred with analytical units that contained three or nine points next to each other within a single row, suggesting that these units showed the most aggregated distribution of the disease, each of the patches of seeds infected with C. kikuchii could be defined approximately by the area covered by three or nine points (75 × 60 or 75 × 180 cm), and the disease tended to infect plants next to each other within rows.     

Transmission of the agent causing a melon yellowing disease by the greenhouse whitefly Trialeurodes vaporariorum in southeast Spain

The agent causing a yellowing disease of melon (Cucumis melo), which results in severe losses in crops under plastic on the coastal plains of southeast Spain, was shown to be transmitted in a semipersistent manner by the greenhouse whitefly (Trialeurodes vaporariorum Westwood). The agent was transmitted by grafting, but not by mechanical inoculation or through seeds. The agent was acquired in the minimum period tested (2 h) and could infect plants in an infection feeding interval of 6 h. Capsella bursa-pastoris, Cucumis melo, C. sativus, Cucurbita moschata, Cichorium endivia, Lactuca sativa andTaraxacum officinale were found susceptible.Results suggest that the yellowing disease affecting melon crops in the southeast of Spain is due to a pathogen similar to beet pseudo yellows virus, but this has to be confirmed by serology.     

Frequency of Alternaria brassicicola in commercial cabbage seeds in Japan

Plug seedlings, widely used in cabbage cultivation in Japan, are often infected by seed-borne pathogens, especially the serious pathogen Alternaria brassicicola. Because information on seed infestation is scant in Japan, we investigated fungal infestation in commercial batches of cabbage seeds produced between 1984 and 2001. A total of 123 lots were divided into six groups by production period (1984–1989, 1994–1998, and 2001) and by use or nonuse of fungicide. One hundred seeds from each lot were incubated separately on agar at 25°C to isolate the predominant fungus. Alternaria brassicicola was isolated most frequently, 0%–94% of the seeds depending on seed lot or 6%–21% of the seeds grouped by production period and fungicide treatment. Thus, the pathogen was isolated even from seeds refrigerated for 17 years. Alternaria brassicicola accounted for 57%–95% of all isolated fungi by the group and was higher on older or fungicide-treated seeds. Seeds that were not treated with fungicide in lots grouped by production districts in western Japan were infested with A. brassicicola at a rate of over 12%, higher than that in the eastern region (<4%). Infestation was higher in the warmer areas of Japan. Eighty-five isolates, other than A. brassicicola, produced spots on cabbage cotyledons, although they were not isolated as frequently: less than 5% of seeds by group separated by production period and fungicide treatment. Most of these isolates were Alternaria alternata. This is the first report on the frequency of fungal infestation of commercial cabbage seeds in Japan.     

Effect of Three Seed-dressing Fungicides on the Germination of Cowpea,Groundnut and Maize

Abstract

Agrosan 5W, Fernasan D and Quinolate 15/40 significantly improved the germination, under field conditions, of the seeds of cowpea (variety Mezed), groundnut (variety Chimbuila) and maize (variety NSI), but not that of cowpea (variety New era) and groundnut (variety Spanish 205).

In those cases where the application of seed-dressing was effective, treatment with Agrosan 5W appeared to give better germination than treatment with either Fernasan D or Quinolate 15/40. Maize seeds treated with Quinolate 15/40 germinated slightly better than those treated with Fernasan D, whereas treatment of cowpea and groundnut seeds with Fernasan D gave better germination than treatment with Quinolate 15/40.

A similar trend was observed in tests in vitro.     

Tobacco streak virus in sunflower (Helianthus annuus)

Tobacco streak virus (TSV) was isolated from a plant of sunflower (Helianthus annuus) showing severe necrosis and chlorosis in the leaves. The virus was identified as TSV by serology and, to some extent, by host range. The type of symptoms varied with the host plant in which the virus had been propagated in successive transfers. Test plants inoculated with the virus propagated inNicotiana rustica produced symptoms which very much differed from those brought about by the virus from eitherN. clevelandii orChenopodium amaranticolor.The significance of the host-mediated variation in symptoms is discussed.Samenvatting Tabaksstrepenvirus (TSV) werd geïsoleerd uit zonnebloem (Helianthus annuus) die sterke necrose en chlorose van de bladeren vertoonde. De identiteit van het virus werd vastgesteld op grond van serologische reacties en, tot op zekere hoogte, de symptomatologie. Het type symptoom op de toetsplanten bleek echter sterk afhankelijk te zijn van de plant waarvan het inoculum afkomstig was. Was het virus verschillende malen achtereen vermeerderd inNicotiana rustica dan waren de symptomen op de toetsplanten zeer verschillend van die, welke werden veroorzaakt door virus vermeerderd inN. clevelandii ofChenopodium amaranticolor. De betekenis van deze door de waardplant bewerkstelligde variatie in symptomen wordt besproken.     

Race distribution of Phytophthora sojae on soybean in Hyogo, Japan

Since 1987, Phytophthora root and stem rot of soybean [Glycine max (L.) Merr. cv. Tanbakuro], caused by Phytophthora sojae Kaufman and Gerdemann, has been increasing in the Sasayama, Nishiwaki, and Kasai regions in Hyogo, the most famous soybean (cv. Tanbakuro)-producing areas in Japan. In 2002 to 2004, 51 isolates (one from each field) of P. sojae were recovered from 51 fields in Hyogo. These isolates were tested for virulence on six Japanese differential soybean cultivars used for race determination in Japan, and three additional ones containing four Rps genes used in Indiana, USA. Race E was the most prevalent from 2002 to 2004, followed by races A, C, D, and four new races (proposed as races K, L, M, and N). Interestingly, none of the new races had high virulence on the Japanese differential cultivars, compared with other races in each area. One (race N) was avirulent on all six soybean differentials. There was a difference in race distribution on each of three individual areas; race E seemed to be a major component of the P. sojae population in Sasayama, whereas race A and the new race M were the most prevalent in Nishiwaki and Kasai, respectively. Rps6 (cv. Altona) and Rps1a + Rps7 (cv. Harosoy 63) were infected by 90.2% and 33.3% of all isolates, respectively. However, Rps1d (cv. PI103091) was not susceptible to any of the 51 isolates, nor was cv. Gedenshirazu-1. These two soybean cultivars were considered to be potential sources of resistance to breed new resistant cultivars with the desirable characteristics of cv. Tanbakuro for this region.     

Differentiation of Bean pod mottle virus isolates based upon host symptoms

Accessions from Glycine, Phaseolus, and Vigna genera were screened for their reactions to different subgroups of isolates of Bean pod mottle virus (BPMV) in order to establish a differential host system. Screening results indicated that the BPMV isolates differed in pathogenic aggressiveness but not in virulence. No major resistance genes were found in soybean (Glycine max) or G. soja since all screened accessions showed mosaic or necrotic symptoms to BPMV inoculation. However, these accessions expressed differences in severity of symptoms when challenged by various BPMV isolates. The inoculation of G. tomentella accessions did not result in mosaic symptoms, and some accessions did not support systemic infection of some of the isolates. Resistance, presented as a hypersensitive reaction, was observed in some of Phaseolus and Vigna genotypes, and resistant response or susceptibility was stable to all the isolates used in the screening. In conclusion, the selected G. soja genotypes PI 407019, PI 464889A, and PI 464928, and ‘Amsoy 71’ soybean may help to separate severe (reassortant) from mild isolates of BPMV based upon their phenotypic reactions.