Overwintering form of the causal agent of shot hole disease in Khorasan Razavi, Iran

Shot hole disease of stone fruit trees caused by some plant pathogenic fungi is a major constraint to stone fruit production worldwide where the trees are grown. Identification of the causal agents of the disease and their overwintering forms in stone fruit trees of Khorasan Razavi was necessary for disease management programs. Buds, twigs, fallen leaves and fruits were collected from the infected peach, apricot, nectarine and almond trees in winter 2007. The samples were superficially disinfested in 1% sodium hypochlorite for 2-3 min and then in 70% ethanol for 45 sec. Two to three fragments of 4x4 mm from each tissue were separately cultured on 2% water agar and potato dextrose agar (PDA), and purified on PDA. Just a pathogenic fungal species, Wilsonomyces corpophilus was isolated from the infected buds and twigs. No microorganism was isolated from the fallen leaves and fruits collected from underneath of the infested stone fruit trees. Pathogenicity of the fungus was examined on detached shoots of current year of four varieties of stone fruit trees. Fungal discs were placed under the bark of the bud base. Control shoots were similarly treated with sterile PDA discs. Inoculated shoots were placed in a humid growth chamber at 25 degrees C. Fungal hyphae appeared at 30 days post inoculation. Control shoots were asymptomatic. Pathogenicity intensities or lesion lengths were significantly different among the four varieties tested. A completely randomised design with five replicates was employed to measure the number of spores in infested buds and twigs of each variety of stone fruit tree. The samples were sliced and placed into a glass tube of centrifuge containing 3 ml of sterile distilled water. They were mixed on a vortex mixer for 30-40 min and centrifuged at 3000 rpm for 5 min. Pelleted material from each sample was suspended in 500 microl of sterile distilled water and the spores were counted using a hemocytometre. Results revealed that the fungus overwinters as hyphae and conidia in the infected buds, and as hyphae and globular chlamydospores in twig lesions.     

Zoosporogenesis in Pseudoperonospora cubensis, the causal agent of cucurbit downy mildew

During sporulation of Pseudoperonospora cubensis on cucumber leaves ( Cucumis saliva ) zoosporangia are formed on the dichotomously branched sporangiophore. The mature zoosporangium has a preformed discharge papilla and the cytoplasm is uncleaved. The zoosporangium wall is decorated and the outer layer of the wall is electron opaque in ultrathin sections. As the zoosporangium is able to survive freezing (- 18°C) for prolonged periods of time (3–4 months) the zoosporangium may serve as the "resting" structure which survives overwintering in Northern latitudes in the absence of oospore formation.
Zoospore cleavage can be synchronized by placing freshly harvested zoosporangia in distilled water. Cleavage of the zoosporangial cytoplasm is by means of the fusion of small vesicles apparently derived from dictyosomes which become highly active after zoosporogenesis is induced.
Vesicles with an osmiophilic electron opaque content are the dominant type of vesicle found in the zoosporangia. The content of these vesicles undergoes dynamic changes during zoosporogenesis and during the late stages of sporogenesis the content becomes finely striated as is typical of these vesicles when observed in the zoospore. On the basis of the results presented here it is suggested that zoosporangium formation and zoosporogenesis in P. cubensis could serve as a model system for assays with obligate oomycetous plant pathogens, also in relation to fungicide mode of action studies.     

Internal mycelium of Pseudoperonospora cubensis, the causal agent of cucurbit downy mildew

The internal mycelium of Pseudoperonospora cubensis has been observed in transmission and scanning electron microscopic preparations. The internal mycelium may be inter- or intracellular. Haustoria of short swollen bundles of hyphae have been observed. Actively growing hyphae contain numerous mitochondria, nuclei, active dictyosomes, low amounts of storage materials (lipid) and microbody-like structures with a laminate inclusion. Thick walled hyphae with a diameter which is smaller than the actively growing hyphae have been observed. These thick wallcd hyphae contain large amounts of reserve material (lipid) and it is suggested that they may function as resting propagules.     

The zoospore of Pseudoperonospora cubensis, the causal agent of cucurbit downy mildew

The zoospore of Pseudosporonospora cubensis is typical of the secondary zoospore of the Peronosporales. The reniform zoospore contains a central nucleus with a prominent beak-like extension to the kinetosomes on the lateral side of the spore in the groove region. "Fuzzy" vesicles derived from dictyosomes surround and fuse with the contractile vacuole. Mitochondria and microbodies are located in the peripheral cytoplasm of the zoospore but the latter are confined to the groove region of the spore. The microbodies usually contain a laminate inclusion and the microbodies are not in a fixed position in relation to the peripheral cisternae. Neither a microbody-lipid body complex nor a "U-body" were observed.
The kinetosomes of the spore are almost perpendicular to each other at the distal end of the beak-like extension of the nucleus. A complex system of cytoplasmic microtu-bules flare out from the kinetosomes to surround the nucleus and bundles of cytoplasmic microtubules extend under the plasmalemma of the spore. The zoospore contain numerous vesicles with osmiophilic inclusions which are finely striated; these are the so-called finger-print vesicles.     

Overwintering of Venturia inaequalis the causal agent of apple scab in relation to weather

Apple leaves collected at East Mailing and bearing colonies of Venturia inaequalis were exposed outdoors from November 1978 to May 1979 at 12 United Kingdom sites. Pseudothecial development and abundance were recorded from samples returned to East Mailing every 2 wk. Pseudothecia matured most rapidly with high rainfall in November and high temperatures in spring. Mature pseudothecia were most abundant with low temperatures in November and low rainfall in spring. In 1979-80 a cross-over experiment, in which scabbed leaves spent either November-January or February-April at a common site, and the other half of the winter at one of five sites, demonstrated the separate effects of weather following leaf-fall and in the spring. Equations for forecasting the time to pseudothecial maturity, but not the numbers of mature pseudothecia, were obtained. Experiments in controlled environments demonstrated the importance of low temperature and high moisture for initiation and early development of pseudothecia, but a controlled increase of temperature in the spring did not result in faster rates of maturation compared with lower temperatures outdoors. Ascospore production from leaves kept in controlled environments in spring was consistently lower than from leaves kept outside.     

Overwintering of Venturia inaequalis, the causal agent of apple scab, on different cultivars

A maturation index summarising pseudothecial development of Venturia inaequalis was devised. The index demonstrated differences in overwintering on 10 apple cultivars and the crab apple Malus toringo in experiments over two winters. At about the green cluster stage, when there is a high proportion of susceptible foliage, there were 50–100 fold differences in the yield of ascospores from these hosts, due mainly to different rates of pseudothecial maturation. These rates were shown to be independent of cultivar differences in colony numbers on leaves in the previous autumn.
Cultivar differences in the timing of fruit bud development were independent of differences in the overwintering of V. inaequalis . These findings confirm the importance of considering cultivar identity in apple scab management.     

Detection of sugarcane yellow leaf virus,the causal agent of yellow leaf syndrome in sugarcane by DAS-ELISA

DAS-ELISA studies were conducted on detection of sugarcane yellow leaf virus (SCYLV) causing yellow leaf syndrome (YLS) of sugarcane in leaf and juice antigens. Among the two types of antigen sources used for the virus detection, juice antigen showed high titre for the virus as compared to leaf antigen. Assay with juice samples recorded more number of varieties positive to the virus. Further DAS-ELISA studies revealed that plants raised from disease-infected planting materials recorded high titre for SCYLV as compared to those raised from symptom-free seed canes. Similarly, assaying SCYLV titre in plant and ratoon crop in the field showed that SCYLV infection was partial in plant crop and in the subsequent ratoon crop, all the samples were positive to the virus. ELISA studies also indicated that 33 of 41 cane varieties showing YLS were positive to the virus.     

铁皮石斛疫病及其病原菌

铁皮石斛疫病2001年发现在浙江义乌栽培田间,是由疫霉菌引起的。在田间,疫霉菌侵染茎基部,引起当年移植苗根腐、植株枯萎和死亡,但侵染2-3年植株幼嫩顶部仅引起顶枯症状。通过对病原菌形态学、交配型的观察,以及核糖体DNAITS序列分析,侵染铁皮石斛的5个分离菌株被鉴定为烟草疫霉菌Phytophthora nicotianae。致病性试验表明,铁皮石斛是烟草疫霉菌的寄主。     

Leptosphaeria maculans, the causal agent of blackleg disease of Brassicas.

The loculoascomycete Leptosphaeria maculans (anamorph: Phoma lingam) causes blackleg of Brassicas, including Brassica napus (canola or rapeseed). This fungus probably comprises several morphologically similar species; taxonomic relationships between them are being clarified and nomenclature is being revised. The pathotype ("A" group) responsible for major economic losses to canola has been studied in more detail than other members of this species complex and is the focus of this review. L. maculans is haploid, outcrossing, can be transformed, and has a genome size of about 34 Mb. Preliminary genetic and physical maps have been developed and three genes involved in host specificity have been mapped. As yet, few genes have been characterized. Chemical analysis of fungal secondary metabolites has aided understanding of taxonomic relationships and of the host-fungal interaction by the unraveling of pathways for detoxification of antimicrobial phytoalexins. Several phytotoxins (host and nonhost specific) have been identified and a complex pattern of regulation of their synthesis by fungal and host metabolites has been discovered.     

Immunocytochemical investigation of the causal agent of cassava mosaic disease in southern Africa

Cassava mosaic disease (CMD) exists throughout Africa, and cassava latent virus (CLV) has been implicated as the etiological agent in Kenya and West Africa. However, in Southern Africa, the causal agent of CMD was not until recently associated with CLV, and the possibility of a second flexuous virus particle has not been ignored. Attempts to isolate and visualize CLV antigen have been successful with Nicotiana benthamiana, an indicator host plant of CLV, but all efforts to isolate and visualize particles in infected cassava plants have failed. Immunocytochemical studies were undertaken in an attempt to localize virus antigen in infected cassava tissue.Cytochemical staining (light microscope) of infected cassava leaf material revealed the presence of inclusion bodies in epidermal and palaside mesophyll cells, and in epidermal collenchyma and outer parenchyma cells from the petiole and stem. However, transmission electron-microscopical (TEM) investigations revealed electron dense bodies in the cytoplasm, and no characteristic CLV nuclear inclusion bodies were evident. Transmission experiments to N. benthamiana and N. tabacum were attempted and leaves, exhibiting symptoms, examined microscopically. The nuclei appeared swollen (in comparison to uninfected leaves), a characteristic of CLV- infected N. benthamiana. However at the TEM level, no characteristic fibrillar-ring inclusion bodies or particles, could be visualized.Further immunocytochemical investigations were initiated, employing antisera raised against CLV isolated from N. benthamiana, and antisera for cassava common mosaic virus (CCMV), cassava brown streak virus (CBSV) and cassava X virus (CsXV). Goat anti-rabbit IgG-gold was used as a direct stain. No labelling occurred with CCMV and CBSV antisera. Intense gold labelling was located in the cytoplasm of phloem, mesophyll and epidermal cells of infected cassava and to a lesser extent in N. tabacum and N. benthamiana using affinity chromatography purified CLV antiserum. Little labelling was observed in nuclei of infected cells. Inconclusive results were obtained with CsXV antiserum.Immunogold labelling located CLV viral antigens in infected cassava leaf tissue. This observation, together with positive ELISA, transmission and DNA hybridization experiments, proves conclusively that CLV viral antigen is present in infected cassava in Southern Africa. However, most viral antigen in infected cassava, unlike N. benthamiana (fibrillar and granular nuclear inclusions) appears to be in the cytoplasm. This may tentatively suggest that the CLV protein is synthesized in the cytoplasm of its natural host, cassava, even though the virus may assemble in the nucleus at the appropriate time. However, as yet no virus inclusions have been observed in nuclei of infected cassava. Due to previous isolation of a flexuous rod and ambiguous staining results, the possibility of two viruses in cassava cannot be ruled out.     

The endobiotic thallus ofPhysoderma maydis,the causal agent ofPhysoderma disease of maize

Summary The endobiotic thallus ofPhysoderma maydis is characterized by the presence of an extremely fine rhizomycelium which passes through the host cell wall, allowing the spread of the disease, and irregularly shaped turbinate cells, which may be septate or nonseptate and which are in close association with developing resting sporangia. The formation of the resting sporangium wall is first seen as localized depositions on the rounded surface of the sporangium and only later on the flattened surface of the sporangium which will form the operculum. The substructure of the resting sporangium wall is typical for members of theBlastocladiales. The resting sporangium is contiguous with the rhizomycelium during development and is finally sealed-off from the rhizomycelium by a further deposition of wall material. After the sealing-off of the resting sporangium from the rhizomycelium the content of the sporangium is compartmentalized and the two inner wall layers are deposited. The centre of the sporangium is filled with an electron dense accretion. At the periphery of the sporangium is a layer of lipid bodies. Between the lipid bodies and the central electron dense accretion is a thin layer of cytoplasm which contains the nuclei. The outer surface of the resting sporangium is smooth.     

Development of the zoosporangia ofSynchytrium endobioticum,the causal agent of potato wart disease

Summary An ultrastructural study of zoosporangium development ofSynchytrium, endobioticum (Schilb.) Perc. is presented. Emphasis is placed on the location of the parasitic fungal thallus in the potato host cell, on the specific location of organelles in relation to the developing zoosporangial wall, and on the host cell reaction to the fungal infection. The cytoplasmic organization of the individual sporangia after division of the zoosporangium into a sorus of sporangia is characterized by numerous similarly sized nuclei, well developed dictyosomes, and the presence of many lipid bodies of variable size. Cytoplasmic microtubules are observed to flare out from the functional kinetosome both before and after zoospore cleavage.The ultrastructural details of zoosporangium development are used to revaluate the life cycle ofS. endobioticum as described from light microscopic observations made early in the century (Curtis 1921;Köhler 1923, 1932;Percival 1910).     

Identification and host range of causal agent of dieback disease on Jatropha curcas

Diseased Jatropha branches collected from Institute for Agricultural Research (IAR), Samaru, Zaria field were plated in Potato Dextrose Agar with Streptomycin (PDAS) and incubated for seven days. Grown cultures were observed under microscope and with aid of identification manuals Fusarium sp. was isolated. Inoculated seedlings showed symptoms of dieback. The fungus was also inoculated on some crop plants and it induced the typical dieback symptoms on sesame and leaf spot/ blight on groundnut and soya beans, respectively.     

The meiospore ofPhysoderma maydis. The causal agent ofPhysoderma disease of maize

Summary The meiospore ofPhysoderma maydis (Phycomycetes, Chytridiales, Physodermataceae) has a nuclear cap enclosing the cellular ribosomes within a double membrane, and double membranes traversing the nuclear cap. Aggregates of ribosomes not incorporated into the nuclear cap are also enclosed by double membranes. A vesicular network is observed in the anterior portion of the spore in direct connection with the nuclear cap membrane and with a stacked parallel array of membranes, which itself is connected with the nuclear cap membrane.The meiospore ofP. maydis contains a side body complex of the type observed in spores of theBlastocladiales. Vesicles enclose the side body complex and these vesicles are connected to the nuclear cap membrane and the nuclear envelope, and form a network which partially encloses the kinetosomal apparatus.The nuclear cap membrane, stacked array of membranes, and the vesicles which surround the side body complex and the kinetosomal apparatus contain an electron-dense amorphous material. On the basis of their ultrastructural appearance, these membranes are interpreted as part of a highly divided microbody.The ultrastructural organization of the meiospore ofP. maydis is compared to the structural organization observed in spores of theChytridiales, Blastocladiales, Monoblepharidales, andHarpochytriales. It is concluded that the structural organization of the meiospores ofP. maydis is the same as observed for members of theBlastocladiales, and it is suggested that thePhysodermataceae should be transferred from theChytridiales to theBlastocladiales.     

Germination of the resting sporangia ofPhysoderma maydis,the causal agent ofPhysoderma disease of maize

Summary The structural and developmental characteristics of the resting sporangium in uniflagellate phycomycetes, together with the type of zoospore, are of high taxonomic value. Among these fungi, however, only a few electron microscopic investigations have been published on this topic, mainly due to technical problems. In the present study ofPhysoderma maydis (Blastocladiales) these problems were overcome as the resting sporangia in this species are formed synchronously, in large numbers, the germination is readily induced and the impermeability of the resting sporangium wall can be circumvented by shaking the prefixed sporangia with glass beads.The germination of the resting sporangia ofP. maydis is described by correlative light and electron microscopic studies and discussed in relation to related investigations on sporogenesis: The germination process starts by a breakdown of large electron-dense accretions found in the resting stage. Simultaneously, the peripheral location of the lipid bodies is lost. The large operculum is pushed open by a protrusion of the inner sporangial wall; an additional wall layer is formed during this process. Synaptonemal complexes are found in the nuclei at this stage, as are nuclear division figures which suggests anEuallomyces type of life cycle for this fungus. Cleavage vesicles, formed from dictyosomes or endoplasmic reticulum, ultimately separate the sporangial content into meiospores. The sequential assembly of organelles into the side body complex is described. Sequestering of the ribosomes into a nuclear cap is interpreted as taking place immediately prior to zoospore discharge.     

Development of the resting sporangia ofSynchytrium endobioticum,the causal agent of potato wart disease

Summary An ultrastructural study of the development of the resting sporangium ofSynchytrium endobioticum (Schilb.) Perc. infecting potato cells is presented. The resting sporangium is found to have a single large, centrally placed nucleus with a prominent nucleolus through its entirein situ development. The cytoplasmic organization of the resting sporangium is further characterized by numerous membrane-bound lipid bodies and osmiophilic bodies. The latter have a characteristic sieve-like appearance, probably because certain storage components have been extracted during preparation for electron microscopy. Because of the similar location and appearance of these osmiophilic bodies it is suggested that they are identical to what has earlier (based on light microscopy) been described as chromatin granules; and the ultrastructural studies presented here show that nucleolar discharge which was described from light microscopic observations as leading to chromatin granules in the cytoplasm, and finally forming the nuclei of the zoospores (bally 1912,curtis 1921,percival 1910) simply does not occur.The appearance of dense fibrillar-like structures on the sporangial surface at an early stage of resting sporangium development ultrastructurally distinguishes the resting sporangium from the zoosporangium. The development of the layered portion of the thick sporangial wall is shown to be due to the fusion of vacuoles containing pre-made wall fibrils with the cell membrane. It is suggested that the inner compact wall layer which is essentially substructureless is formed by the membrane itself.The characteristic wings of the matureS. endobioticum resting sporangium originate from the potato host cell wall. Remnants of host cell organelles in the outermost layer of the resting sporangium wall show that degradation of the host cell cytoplasm contributes to wall formation of the parasite.     

Mycelial compatibility in Valsa malicola,the causal agent of canker disease in Iran

Mycelial compatibility of 62 isolates of Valsa malicola from different hosts and areas of Iran were investigated on potato dextrose agar (PDA) and oat meal agar (OMA). Four mycelial compatibility groups (MCGs) on PDA, 1–4, including three single membered (1–3) and a 58 membered (4) were identified. However, 8 MCGs, 1–8, consisting of 6 single membered (1–3, 5, 6 and 8), a 6 membered (4) and a 50 membered (7) were identified on OMA. On PDA, the number of groups and the time to achieve results were less than on OMA as well as the barrage zones were clearer on PDA than OMA. There was no correlation between groups and host or geographical origins of the isolates. The low number of identified MCGs on both culture media revealed low genetic diversity of investigated isolates of V. malicola.     

Overwintering success in adults of the Japanese common grass yellow Eurema mandarina

The evolution of reproductive diapause is controversial in males as compared to females that must overwinter to leave offspring, because late‐autumn males can obtain offspring by pre‐overwintering copulation. The Japanese common grass yellow Eurema mandarina is suitable to examine the evolution of male reproductive diapause, because direct comparisons are possible between males that do and do not exhibit reproductive diapause. Approximately one‐half of males are insensitive to diapause‐inducing conditions, and emerge as non‐diapause summer‐form. Most autumn‐form females mate with summer‐form males in late autumn. Females that have overwintered re‐mate with autumn‐form males before the onset of oviposition. Because last‐male‐precedence is general in sperm competition in Lepidoptera, it is unclear why half of males emerge as summer‐form in late autumn. A potential adaptive benefit for emerging as summer‐form is increased sperm overwintering success, if autumn‐form females have a higher overwintering success than autumn‐form males. In the present study, overwintering success was estimated for both sexes of autumn‐form adults by rearing under seminatural conditions and a mark–release–recapture technique. Both approaches estimated an overwintering success of approximately 5% for both sexes. The absence of difference in overwintering success between the sexes suggests that pre‐overwintering copulation does not increase sperm overwintering success. However, a considerably low overwintering success may explain, at least partly, the presence of summer‐form males in late autumn. The degree of overwintering success might be more important than the sexual differences of overwintering success in the evolution of male reproductive diapause.     

Polymerase chain reaction-based detection of Fusarium circinatum, the causal agent of pitch canker disease

Pitch canker is a highly damaging disease of Pinus radiata and the New Zealand forest industry is concerned by the potential impact of the disease, should it arrive, in New Zealand. To provide a rapid identification technique for this pathogen, a polymerase chain reaction-based diagnostic method has been developed. The method is able to detect the presence of the pathogen within infected host tissue, as well as infested soil and the reliability of the test has been estimated using Bayesian statistics.