A Cucumber Disease Caused by Alternaria alternata and its Control

A severe leaf spot disease of cucumber caused by a pathotype of Alternaria alternata (Fr.) Keissler was recorded recently in plastic houses in Crete. Lesions ranged in size of a pin point to over 5 cm in diameter, with necrotic tissue on most of their area and a surrounding yellow zone. The pathogen grew satisfactorily on PDA at temperatures between 5 °C–40 °C and spore germination occurred in the range less than 10 °C to over 37 °C. Optimum temperature in both cases was near 26 °C. Of,13 fungicides tested in vitro, sodium omadine, etem, dichlofluanid, captan and folpet were the most inhibitory on spore germination, and iprodione, sodium omadine and dichlofluanid on mycelial growth. Of 25 fungicides applied on two leaf cucumber plants 24 h before inoculation, maneb, etem, dichlofluanid and chlorothalonil were the most effective. When the last fungicides, plus mancozeb, were applied 24 h after inoculation only maneb was effective. In greenhouse experiments, iprodione, prochloraz-manganese-complex, chlorothalonil, dichlofluanid, guazatine, maneb and etem were the most effective for disease control, while mancozeb was less effective. The local cucumber cv. Knossos and the Dutch F₁ hybrids Evadan, Frella, Herta, Malfa, Mazourka, Pepinex 69 and Renova were all susceptible to infection.     

Fungal volatiles associated with moldy grain in ventilated and non-ventilated bin-stored wheat

The fungal odor compounds 3-methyl-l-butanol, l-octen-3-ol and 3-octanone were monitored in nine experimental bins in Winnipeg, Manitoba containing a hard red spring wheat during the autumn, winter and summer seasons of 1984–85. Quality changes were associated with seed-borne microflora and moisture content in both ventilated and non-ventilated bins containing wheat of 15.6 and 18.2% initial moisture content. All three odor compounds occurred in considerably greater amounts in bulk wheat in non-ventilated than in ventilated bins, particularly in those with wheat having 18.2% moisture content. The presence of these compounds usually coincided with infection of the seeds by the fungi Alternaria alternata (Fr.) Keissler, Aspergillus repens DeBarry, A. versicolor (Vuill.) Tiraboschi, Penicillium crustosum Thom, P. oxalicum Currie and Thom, P. aurantiogriseum Dierckx, and P. citrinum Thom. High production of all three odor compounds in damp wheat stored in non-ventilated bins was associated with heavy fungal infection of the seeds and reduction in seed germinability. High initial moisture content of the harvested grain accelerated the production of all three fungal volatiles in non-ventilated bins.     

Principal component analysis of interrelations in stored-wheat ecosystems infested with multiple species of insects

Principal component analysis (PCA) was used to determine the effects of infestation of bulk stored wheat by multiple species of insects at 30±2°C for 60 wk. Eight 204-liter drums containing wheat at 15.5% moisture content were used as three distinct man-made ecosystems: (a) Control system (2 drums), insect-free; (b) RST system (3 drums), artificially infested with Rhyzopertha dominica (F.),Sitophilus oryzae (L.), and Tribolium castaneum (Herbst ); and (c) COT system (3 drums), infested with Cryptolestes ferrugineus (Stephens ),Oryzaephilus surinamensis (L.), and Tribolium castaneum. The variables measured tri-weekly within each system included carbon dioxide, oxygen, temperature, grain moisture, seed damage, grain weight and volume, dust weight and volume, fat acidity values (FAV) of the wheat, seed germination, microflora including Alternaria alternata(Fr.) Keissler ,Aspergillus glaucus group, Aspergillus candidusLink , and bacteria, insects and the mite Tarsonemus granariusLindquist . PCA provided multivariate synopsis of the data quantifying several important relationships among the variables monitored. Tri-weekly and cumulative 60-wk analyses of each system showed that high bacterial counts were associated with high FAV levels;Tarsonemus numbers were positively related to Aspergillus; Alternaria and seed germination were negatively related to FAV, bacteria and grain damage; and that the number of insects was related to the presence of Aspergillus and negatively related to the presence of bacteria. Seed germination and Alternaria infection often decrease rapidly presumably because of infection by fungi of the Aspergillus glaucus group. The combined action of R. dominica and Aspergillus spp. enhanced seed damage and increased grain moisture content thus promoting bacterial growth which in turn inhibited insect and mold growth. Fat acidity values increased with time unless seed damage and bacterial infection were extensive as in the RST system.     

Mycelium of Alternaria alternata as a potential biological control agent for Eupatorium adenophorum

The fungus, Alternaria alternata (Fr.) Keissler Strain 501, has been evaluated as a bioherbicide for control of Eupatorium adenophorum Spreng., but the biology of the pathogen–host interaction and the optimal environmental conditions for disease development and effective weed control are unknown. Disease development of A. alternata Strain 501 mycelia on E. adenophorum was assessed under several factors including pathogen inoculum concentration, plant age, dew period duration, post-dew temperature, storage temperature and duration. The minimum inoculum concentration required to kill E. adenophorum seedlings was 3.2×10⁶ mycelial fragment mL^?1. E. adenophorum seedlings at the four-leaf-pair stage were more susceptible than the older plants, especially those at the older than seven-leaf-pair stage. With a dew period of at least 14 h, 100% mortality occurred. The optimal post-dew temperature for disease development was 18–25°C. Storage at <4°C maintained the infectivity of A. alternata strain 501 mycelia on E. adenophorum longer. Using light and scanning electron microscopy to examine the infection process of A. alternata Strain 501 mycelia, it was shown that the time from initiation to completion of infection with mycelia was much shorter (14 h) than with conidia (72 h). It was further shown that mycelial infection occurred predominately through direct penetration at intercellular junctions, while conidial infection occurred predominately through stomatal penetration. This suggests that mycelia are more suitable as infection propagules for A. alternata strain 501 in a bioherbicide for the control of E. adenophorum.     

First Report of Black Leaf Spot Caused by Alternaria alternata on Ramie in China

In 2012 and 2013, black leaf spot disease was observed on ramie plants in Hunan and Hubei Provinces, China. In the field, the symptoms of this disease included dark green to black big spots on leaves, often resulting in upwardly curled leaf margins. The pathogen isolates were identified as Alternaria alternata (Fr.) Keissler on the basis of morphology and sequence similarity of 99–100% to the published data for internal transcribed spacer (ITS), and glyceraldehyde‐3‐phosphate dehydrogenase (gdp). To our knowledge, this is the first report of Alternaria leaf spot of ramie in China.     

The effect of non-pathogenic phylloplane fungi on life-history traits of urticae (Acari: Tetranychidae)

The direct effect of three common non-pathogenic phylloplane fungi on the life-history traits of Tetranychus urticae Koch was investigated on intact leaves of the garden bean Phaseolus vulgaris L. (var. Tendergreen Improved), under conditions of low and high water-deficit stress. The survival rate of T. urticae was always reduced by an increase in water-deficit stress, whereas the effect of the fungi depended in part on the watering regime. On two of the three fungi tested, Alternaria alternata (Fr.) Keissler and Epicoccum nigrum Link, the mites showed a significant increase in net reproduction compared to those reared under control (i.e. no fungi added) conditions, independent of water-deficit stress, resulting in a higher intrinsic rate of increase. The third fungus tested, Cladosporium cladosporioides (Fres.) de Vries, had a similar response with respect to net reproduction when reared under low water-deficit stress but not when reared under a high water-deficit stress. There was, however, no evidence of an interactive effect with water-deficit stress and presence or absence of fungus affecting the net reproduction of the mites, for any of the three fungal species tested. An interactive effect between fungal species and water-deficit stress was observed for the intrinsic rate of increase of the mites. It is suspected that the fungi are acting as a source of an otherwise limiting resource and the differences observed between the fungal treatments is due to differences in consumption, based on the different sizes of their conidia.     

Oribatid mite (Acari, Oribatida) feeding on ectomycorrhizal fungi

The coexistence of a large number of soil animals without extensive niche differentiation is one of the great riddles in soil biology. The main aim of this study was to explore the importance of partitioning of food resources for the high diversity of micro-arthropods in soil. In addition, we investigated if ectomycorrhizal fungi are preferentially consumed compared to saprotrophic fungi. Until today, ectomycorrhizal fungi have never been tested as potential food resource for oribatid mites. We offered six ectomycorrhizal fungi [Amanita muscaria (L.) Hook., Boletus badius (Fr.) Fr., Cenococcum geophilum Fr., Laccaria laccata (Scop.) Fr., Paxillus involutus (Batsch) Fr. and Piloderma croceum J. Erikss. & Hjortstam], one ericoid mycorrhizal fungus [Hymenoscyphus ericae (D.J. Read) Korf & Kernan] and three saprotrophic fungi [Agrocybe gibberosa (Fr.) Fayod, Alternaria alternata (Fr.) Keissl. and Mortierella ramanniana (A. Møller) Linnem.] simultaneously to each of the mainly mycophagous oribatid mite species Carabodes femoralis (Nicolet), Nothrus silvestris Nicolet and Oribatula tibialis Nicolet. The ericoid mycorrhizal fungus H. ericae and the ectomycorrhizal fungus B. badius were preferentially consumed by each oribatid mite species. However, feeding preferences differed significantly between the three species, with O. tibialis being most selective. This study for the first time documented that oribatid mites feed on certain ectomycorrhizal fungi.     

Prevalence and control of wheat (Triticum aestivum L.) seed borne fungi in farmer-saved seeds

High incidence of diseases associated with the use of seeds saved from previous harvests as desire of maintaining local varieties with special attributes is of increased concern in wheat industry worldwide. Prevalent of seed-borne fungi in farmer-saved seeds and seed dressing fungicides to prevent infection from seeds to seedlings was studied in Northern Tanzania. One hundred and thirty five untreated farmer-saved seed lots were collected randomly from farmers. Alternaria alternata, Bipolaris sorokiniana, Drechslera tritici, Fusarium graminearum, Fusarium moniliforme, Aspergillus flavus, Cladosporium sphaerospermum, Epicoccum purpurascens, Pyricularia oryzae and Penicillium corylophilum were fungi isolated in farmer-saved seeds. Mean seed infection was 29% causing average grain yield loss of 1.2 mt/ha^?1. Seed dressing with Metalaxy plus (Methyl carboxaitide), Mancozeb (Manganase-zinc salt) and Baytan (Chlorophenoxy ethanol) increased seed germination by 14, 13 and 17%, respectively, and grain yield by 28, 20 and 18%, respectively. Farmer-saved seeds were heavily infected by fungi with low grain yield performance.     

Selection of mutants resistant to Alternaria blotch from in vitro -cultured apple shoots irradiated with X- and γ-rays

We produced mutants resistant to Alternaria blotch disease in several cultivars of apple (Malus × domestica Borkh.) by irradiation with X- or γ-rays. An efficient in vitro assay method was established using chemically-synthesized AM-toxin I of Alternaria alternata (Fr.) Keissler to screen for mutants resistant to Alternaria blotch disease. The frequency of necrotic lesions was investigated by applying various concentrations of AM-toxin I to leaf discs of the first, third, and fifth leaves from the shoot apex of several apple cultivars, including Jonathan, Fuji, Oorin, and Indo. In vitro-grown apple shoots of susceptible cultivars were then treated with various doses of X- or γ-ray irradiation. Several mutants resistant to AM-toxin I were obtained by combining the techniques for tissue culture of apple shoots with the AM-toxin I screening method. Following a repeat second screening test with AM-toxin I, mutant plants were sprayed with a spore suspension of A. alternata and found resistant to be the fungal pathogen. These mutants showed normal phenotypic appearance, and so far, no difference has been observed between the original plants and mutants except for the susceptibility to Alternaria blotch.     

Fungal foliar diseases in Withania somnifera and its effect on secondary metabolites

Withania somnifera is a promising revitalizing medicinal herb. The plant is affected by foliar diseases in Lakkavalli forest region of Bhadra Wildlife Sanctuary. The symptomatology of foliar fungal disease incidence, severity and distribution in the study area was examined during 2006–2009. The seedborne nature and transmission of the causal pathogen and its management with seed dressing fungicides were studied. The results of the study indicated that Alternaria alternata caused severe leaf spot disease, while Myrothecium roridum and Fusarium oxysporum caused minor diseases. Based on the internal transcribed spacer (ITS1 and ITS2) regions of rDNA, the major pathogen was identified as A. alternata. The disease is homogeneously distributed in Lakkavalli forest region and high severity is recorded during November. Alternaria alternata and Fusarium oxysporum were the dominant seedborne pathogens that are transmitted to seedlings. Among the seed dressing fungicides used, Hyzeb was the most effective, followed by Captra, Antracol and Bavistin, in reducing the incidence of A. alternata and other seedborne fungi. The infected W. somnifera foliages had decreased steroids and alkaloids and increased phenolics and flavonoids. Analysis of alkaloids in diseased foliages by high performance thin layer chromatography indicated the occurrence of transformed compounds at R_f = 0.1, 0.77 (254 nm) and 0.2 (366 nm).     

Fungi pathogenic to ryegrass seedlings

Summary Fungi borne on or in ryegrass (Lolium spp.) seeds or invading ryegrass seedlings grown on field soils were isolated and identified. Selected isolates were tested to determine their pathogenicity to ryegrass seedlings. Seed-borne fungi were generally weakly virulent or non-pathogenic to ryegrass seedlings. Pathogenic seed-borne fungi includedChaetomium globosum Kunze: Fr.,Curvularia trifolii (Kauffm.) Boedijn, and species ofPenicillium Link andAspergillus Mich. ex Link. Species of fungi isolated from seedlings grown on field soils de pended on soil and temperature. Soil-borne fungi pathogenic to seedlings includedFusarium avenaceum (Fr.) Sacc.,F. culmorum (W. G. Smith) Sacc.,F. equiseti (Corda) Sacc.,F. oxysporum Schlecht.: Fr.,F. solani (Mart.) Sacc.,Pythium afertile Kanouse and Humphrey,P. debaryanum auct. non Hesse,P. irregulare Buisman,P. ultimum Trow, a sphaerosporangiatePythium sp.,Chaetomium globosum, Thanatephorus cucumeris (Frank) Donk,Trichoderma koningii Oudem., and aPhomopsis sp. Individual isolates of fungi differed in virulence to ryegrass seedlings, and ryegrass cultivars differed in susceptibility to seedling pathogens.     

Effects of Ozone and Sulfur Dioxide on Phyllosphere Fungi from Three Tree Species

Short-term effects of ozone (O₃) on phyllosphere fungi were studied by examining fungal populations from leaves of giant sequoia (Sequoiadendron giganteum (Lindl.) Buchholz) and California black oak (Quercus kelloggii Newb.). Chronic effects of both O₃ and sulfur dioxide (SO₂) were studied by isolating fungi from leaves of mature Valencia orange (Citrus sinensis L.) trees. In this chronic-exposure experiment, mature orange trees were fumigated in open-top chambers at the University of California, Riverside, for 4 years with filtered air, ambient air plus filtered air (1:1), ambient air, or filtered air plus SO₂ at 9.3 parts per hundred million. Populations of Alternaria alternata (Fr.) Keissler and Cladosporium cladosporioides (Fres.) de Vries, two of the four most common fungi isolated from orange leaves, were significantly reduced by chronic exposure to ambient air. In the short-term experiments, seedlings of giant sequoia or California black oak were fumigated in open-top chambers in Sequoia National Park for 9 to 11 weeks with filtered air, ambient air, or ambient air plus O₃. These short-term fumigations did not significantly affect the numbers of phyllosphere fungi. Exposure of Valencia orange trees to SO₂ at 9.3 parts per hundred million for 4 years reduced the number of phyllosphere fungi isolated by 75% compared with the number from the filtered-air treatment and reduced the Simpson diversity index value from 3.3 to 2.5. A significant chamber effect was evident since leaves of giant sequoia and California black oak located outside of chambers had more phyllosphere fungi than did seedlings within chambers. Results suggest that chronic exposure to ambient ozone or SO₂ in polluted areas can affect phyllosphere fungal communities, while short-term exposures may not significantly disturb phyllosphere fungi.     

Studies on leaf spot disease of <Emphasis Type="Italic">Withania somnifera</Emphasis> and its impact on secondary metabolites

During an investigation of the disease profile of Withania somnifera, it was observed that leaf spot is the most prevalent disease. Repeated isolations from infected leaf tissues and pathogenicity tests showed the association of fungal pathogen identified as Alternaria alternata (Fr.) Keissler. Scanning electron microscopy showed various histological changes in the leaf tissues of infected plants. A decrease in total content of reducing sugars (20%) and chlorophyll (26.5%) was observed in diseased leaves whereas an increase was noticed in proline (25%), free amino acids (3%) and proteins (74.3%). High performance thin layer chromatography (HPTLC) analysis of secondary metabolites viz. withanolides, withaferin-A and total alkaloids of the diseased leaves vis-à-vis control revealed reduction in withaferin-A and withanolides contents by 15.4% and 76.3% respectively, in contrast to an increase in total alkaloids by 49.3%, information hitherto unreported in W. somnifera.     

Occurrence and Latent Infection of Alternaria Rot of Pingguoli Pear (Pyrus bretschneideri Rehd. cv. Pingguoli) Fruits in Gansu, China

Alternaria rot of Pingguoli pear occurred after latent infection. Fruit surfaces were asymptomatic within 60 days storage under cold condition (0°C, RH 85–90%), but black‐grey hyphae could be seen in the lenticels or calyx tube of Pingguoli pear after 90 days of storage. The tissue collapsed and resulted in visible black spots as the hyphae spread over the fruit. Average incidence of Alternaria rot of fruits from an orchard in Gansu was 28.86% at 100 days of storage. The main fungus isolated from the Alternaria rot on stored Pingguoli pear was identified as Alternaria alternata (Fr. : Fr.) Keissl. This pathogen was able to initially infect the fruit via two pathways during the growing season, and then remain in a latent state. The fungus first colonized the styles at the full‐blossoming stage, and then grew into the carpel cavities progressively after 50 days from petal fall. The percentage latent infection of A. alternata was up to 45% in the carpel cavity until the harvest time. The fungus also attacked fruit surfaces and remained latent in the fruit peel during fruit development. The percentage of A. alternata latent infection at the calyx end, middle part and stem end of the fruit peel was 40%, 24% and 42.8%, respectively, at harvest time.     

Some factors affecting the control of Rhizoctonia solani by systemic and non-systemic fungicides

In laboratory tests, Rhizoctonia solani grew best on agar at 30 ^oC and pH 5-5. Mycelial growth was strongly inhibited by benomyl, chloroneb and quintozene, less so by thiophanate-methyl. The optimum temperature for inhibition was 25 ^oC for quintozene; the other three fungicides gave greatest inhibition at the lowest temperature tested (20 ^oC). Benomyl and thiophanate-methyl were most inhibitory at pH 7–8, chloroneb and quintozene at pH 5–6. In pot trials using mung bean, long melon, egg-plant, common pea and sugar beet, R. solani caused maximum disease at 20 ^oC and in wet and alkaline soils. As seed treatments, benomyl and thiophanate-methyl gave optimum control at 20 ^oC and pH 7-6; chloroneb and quintozene were most effective at 30 ^oC and pH 5-4. All four fungicides gave maximum control on plants growing in wet sandy loam. Comparisons of host effects showed that, on all the four hosts tested, thiophanate-methyl wettable powder at 0.25% (0.175% a.i.) gave 90% control, chloroneb w.p. at 0.3% (0.195% a-i-) gave 80% control on mung bean and sugar beet, benomyl w.p. at 0.3% (0.15% a.i.) was satisfactory on mung bean, egg-plant and sugar beet but not on long melon, quintozene w.p. at 0.3 % (0.225 % a-i-) gave effective control on sugar beet only. The senior author is grateful to the Council of Scientific and Industrial Research, New Delhi, India, for the award of a Research Fellowship for undertaking these studies. Thanks are due to Dr S. D. Gupta and Mr S. L. Verma for determining the soil characteristics.     

西沙群岛的腐生半知菌

Fourteen species of saprotrophic fungi isolated from various substrates from Xisha Islands are reported, including a new record species-Curvlaria tuberculata Jain. The others are: Alternaria alternata (Fr.) Keissler. A. phragmospora van. Emden, Aspergillus niger van. Tiegh., Cladosporium arysporum Berk. & Curt., C sphaerospormum Penz., Curvularia affinis Boedijn, C. geniculata (Tracy & Earle) Boedijn, C. lunata (Walk.) Boedijn, Exserohilium turcicum (Pass.) Leonard & Suggs.,Humicola grisea Traaen, Botryodip…     

Fungi of the Windmill Islands, continental Antarctica. Effect of temperature, pH and culture media on the growth of selected microfungi

Studies were conducted on microfungi isolated from soils in the Windmill Islands, continental Antarctica. Growth responses of Alternaria alternata, Chrysosporium pannorum, Nectria peziza, Thelebolus microsporus, Mycelia sterile and Phoma cf. herbarum to temperature, pH and culture media were investigated. Maximum growth occurred after 16 days, except in Nectria peziza and Thelebolus microsporus, where maximum growth occurred 12 days after inoculation. All isolates showed poor growth at 0°C. Maximum growth was obtained with temperatures ranging from 15 to 25°C. The optimum temperature for all fungi was 20°C. An acid medium favoured growth. Chrysosporium pannorum, Phoma cf. herbarum and Nectria peziza grew best at pH 3–4, whereas Mycelia sterile, Alternaria alternata and Thelebolus microsporus grew best at pH 5–6. The culture medium had little effect on growth, except for nutrient agar, which showed poor growth against all isolates with the exception of Thelebolus microsporus. Received: 11 September 1996 / Accepted: 13 January 1997     

Tenuazonic Acid, a Toxin Produced by Alternaria alternata

Fifty-seven of 87 isolates of Alternaria alternata (Fr) Keissler grown on autoclaved, moist corn-rice substrate and fed to rats were lethal. The major toxin produced was isolated and characterized as tenuazonic acid. Twenty of 23 toxigenic Alternaria isolates examined produced tenuazonic acid. No tenuazonic acid could be detected in either of the field samples of sorghum or blackeyed peas, which were heavily invaded by Alternaria.     

Fungal foliar diseases of Rauwolfia serpentina in wild,its seasonal occurrence,seed transmission and disease management

Rauwolfia serpentina is an important medicinal herb. Studies were conducted to determine causal organisms of foliar diseases in R. serpentina in Bhadra Wildlife Sanctuary during 2006–2009. The foliar disease incidence and its distribution and disease severity in nine state forest regions of the sanctuary were determined. The seedborne nature and transmission of the causal organism was also determined. The management of seedborne inoculum was done by seed dressing with fungicides. The effect of foliage infection on secondary metabolite content was also determined. Results of the present study indicated that Cercospora rauwolfiae is major leaf spot disease causing pathogen. The disease is homogeneously distributed through the study area. The foliar disease severity was high in Kagemanegiri forest during October–November. The minor leaf spot disease caused by Alternaria alternata occurred occasionally. Alternaria alternata is seedborne and seed transmitted and could be managed by seed treatment with Captra or Hyzeb. The secondary metabolites like alkaloids and steroids decreased with increase in foliar infection by C. rauwolfiae, while phenol and flavonoid contents increased. The study suggested that R. serpentina is affected in wild by C. rauwolfiae and A. alternata. The latter pathogen is seedborne and seed transmitted and controlled by seed treatment.