Natural wine yeasts as biocontrol agents

A total of 586 natural wine yeasts, belonging to different genera, were tested for their antagonistic effect on fungal pathogens. A low percentage of yeast strains completely inhibited the pathogens and the biocontrol activity was found to be a strain characteristic and did not solely depend on species or genus. Among the antagonists, two strains of Saccharomyces cerevisiae and one of Zygosaccharomyces showed a broad spectrum of antagonistic activity against 10 fungal pathogens.     

Post-dispersal seed mortality of exotic and native species: Effects of fungal pathogens and seed predators

The invasive behaviour of exotic species is assumed to be due to the reduced impact of enemies on their performance, along with other possible mechanisms. I studied whether the seeds of exotics (6 species) are less impacted by seed predators and seed fungal pathogens than the seeds of their related natives (5 species). I also explored whether the co-occurrence of related natives and the time since introduction increased the percentage of lost seeds in exotics. Seeds were either left unprotected during a period of seven months or treated with fungicide, protected by seed predator exclosures or subjected to both treatments. Both treatments improved seed survival rate. Fungicide treatment had more positive effect on seeds of native than of exotic species but the fungicide-by-origin interaction was insignificant. When exotic species only were considered, fungicide had neutral effect on survival of their seeds, irrespective of the co-occurrence of related natives in the vegetation. Time since introduction was shown not to influence the proportion of seeds lost due to fungi or seed predators. Though the results of this study did not support enemy release as a possible mechanism causing the invasiveness of exotic species, it identified fungal pathogens as an enemy group with possibly differential impacts on native and exotic seeds, which thus deserves attention in future studies.     

Temporal shifts of fungal communities in the rhizosphere and on tubers in potato fields

Soil fungal communities perform important ecological roles determining, at least in part, agricultural productivity. This study aimed at examining the fungal community dynamics in the potato rhizosphere across different development stages in two consecutive growing seasons (winter and summer). Microbial fingerprinting of rhizosphere soil samples collected at pre-planting, tuber initiation, flowering and at senescence was performed using ARISA in conjunction with Next Generation Sequencing (Illumina MiSeq). The epiphytic fungal communities on tubers at harvest were also investigated. Alpha-diversity was stable over time within and across the two seasons. In contrast, rhizospheric fungal community structure and composition were different between the two seasons and in the different plant growth stages within a given season, indicating the significance of the rhizosphere in shaping microbial communities. The phylum Ascomycota was dominant in the potato fungal rhizosphere, with Operational Taxonomic Units (OTUs) belonging to the genus Peyronellaea being the most abundant in all samples. Important fungal pathogens of potato, together with potential biological control agents and saprophytic species, were identified as indicator OTUs at different plant growth stages. These findings indicate that potato rhizosphere fungal communities are functionally diverse, which may contribute to soil health.     

Evaluation of Probiotic Diversity from Soybean (<Emphasis Type="Italic">Glycine max</Emphasis>) Seeds and Sprouts Using Illumina-Based Sequencing Method

There is increasing interest in the use of plant probiotics as environmental-friendly and healthy biofertilizers. The study aimed at selecting for novel probiotic candidates of soybean (Glycine max). The bacteriome and mycobiome of soybean sprouts and seeds were analyzed by Illumina-based sequencing. Seeds contained more diverse bacteria than those in sprouts. The seeds contained similar fungal diversity with sprouts. Total 15 bacterial OTUs and 4 fungal OTUs were detected in seeds and sprouts simultaneously, suggesting that the sprouts contained bacterial and fungal taxa transmitted from seeds. The Halothiobacillus was the most dominant bacterial genus observed and coexisted in seeds and sprouts. The OTUs belonged to Ascomycota were the most dominant fungal taxa observed in seeds and sprouts. Halothiobacillus was firstly identified as endophytic probiotics of soybean. The results suggested that sprouts might contain diverse plant probiotics of mature plants and Illumina-based sequencing can be used to screen for probiotic candidates.     

Environmental and transgene expression effects on the barley seed proteome

The barley (Hordeum vulgare) cultivar Golden Promise is no longer widely used for malting, but is amenable to transformation and is therefore a valuable experimental cultivar. Its characteristics include high salt tolerance, however it is also susceptible to several fungal pathogens. Proteome analysis was used to describe the water-soluble protein fraction of Golden Promise seeds in comparison with the modern malting cultivar Barke. Using 2D-gel electrophoresis to visualise several hundred proteins in the pH ranges 4-7 and 6-11, 16 protein spots were found to differ between the two cultivars. Eleven of these were identified by mass spectrometric peptide mass mapping, including an abundant chitinase implicated in defence against fungal pathogens and a small heat-shock protein. To enable a comparison with transgenic seed protein patterns, differences in spot patterns between field and greenhouse-grown seeds were analysed. Four spots were observed to be increased in intensity in the proteome of greenhouse-grown seeds, three of which may be related to nitrogen availability during grain filling and total protein content of the seeds, since they also increased in field grown seeds supplied with extra nitrogen. Finally, the fate of transgene products in barley seeds was followed. Spots containing two green fluorescent protein constructs and the herbicide resistance marker phosphinothricin acetyltransferase were observed in 2D-gel patterns of transgenic seeds and identified by mass spectrometry. Phosphinothricin acetyltransferase was observed in three spots differing in pI suggesting that post-translational modification of the transgene product had occurred.     

Determination of fungal pathogens of common weed species in the vicinity of Tokat, Turkey

This study was carried out to determine the fungal pathogens on Chenopodium album L., Cirsium arvense (L.) Scop., Convolvulus arvensis L., Cynodon dactylon (L.) Pers., Delphinium consolida L., Portulaca oleracea L., Rumex crispus L., Solanum nigrum L., Sorghum halepense (L.) Pers. and Xanthium strumarium L. which were common weed species of agricultural areas. Surveys were conducted in May-June and August-September in 2004-2005 growing seasons. During the surveys density and frequency of the above mentioned weed species were also determined and number of infected plants was counted in each sampling area. Infected weed samples were collected from each sampling point and brought to the laboratory in polyethylene bags and the pathogens were identified at genus or species level. As a result of two year surveys, ten fungal pathogens were determined on eight weed species. The most important fungal pathogens determined on common weed species were as follow; Peronospora farinosa (Fr.) Fr. on C. album, and Septoria convolvuli DC., Erysiphe convolvuli DC., and Puccinia punctiformis (Strauss) Roehrl. on C. arvensis. These fungal diseases were observed mainly on the weeds located at the borders of fields. Infection rates of these pathogens reached up to 21.2% in some of the survey areas. Further studies should be conducted to evaluate the efficacy of these pathogen under in vitro and in vivo conditions.     

Microwave Treatment to Eradicate Seed-borne Pathogens in Cassava True Seed

A high percentage of cassava seeds, collected from five different edapho-climatic zones, were found infected by several fungal and bacterial pathogens. The incidence and severity of seed infections were not correlated with the climatic conditions at, harvest. These pathogens were eradicated from seeds by a microwave oven treatment (1400 W heating power, 2450 MHz) for 120 s. The effectiveness of this treatment depended on reaching an optimum temperature of 77°C. Several factors, such as container capacity, water volume and seed number can affect the time required to reach 77°C. An Arasan dust treatment after microwave exposure, reduced seed re-infestation.     

Diversity and Antimicrobial Activity of Culturable Endophytic Fungi Isolated from Moso Bamboo Seeds

Bamboos, regarded as therapeutic agents in ethnomedicine, have been used to inhibit inflammation and enhance natural immunity for a long time in Asia, and there are many bamboo associated fungi with medical and edible value. In the present study, a total of 350 fungal strains were isolated from the uncommon moso bamboo (Phyllostachys edulis) seeds for the first time. The molecular diversity of these endophytic fungi was investigated and bioactive compound producers were screened for the first time. All the fungal endophytes were categorized into 69 morphotypes according to culturable characteristics and their internal transcriber spacer (ITS) regions were analyzed by BLAST search with the NCBI database. The fungal isolates showed high diversity and were divided in Ascomycota (98.0%) and Basidiomycota (2.0%), including at least 19 genera in nine orders. Four particular genera were considered to be newly recorded bambusicolous fungi, including Leptosphaerulina, Simplicillium, Sebacina and an unknown genus in Basidiomycetes. Furthermore, inhibitory effects against clinical pathogens and phytopathogens were screened preliminarily and strains B09 (Cladosporium sp.), B34 (Curvularia sp.), B35 (undefined genus 1), B38 (Penicillium sp.) and zzz816 (Shiraia sp.) displayed broad-spectrum activity against clinical bacteria and yeasts by the agar diffusion method. The crude extracts of isolates B09, B34, B35, B38 and zzz816 under submerged fermentation, also demonstrated various levels of bioactivities against bambusicolous pathogenic fungi. This study is the first report on the antimicrobial activity of endophytic fungi associated with moso bamboo seeds, and the results show that they could be exploited as a potential source of bioactive compounds and plant defense activators. In addition, it is the first time that strains of Shiraia sp. have been isolated and cultured from moso bamboo seeds, and one of them (zzz816) could produce hypocrellin A at high yield, which is significantly different from the other strains published.     

Fungal-mediated mortality explains the different effects of dung leachates on the germination response of grazing increaser and decreaser species

Depending on their response to grazing, grassland species can be categorized as grazing increasers or decreasers. Grazing by livestock includes several different activities that can impact species differently. Recent evidence suggest that one of these actions, dung deposition, can reduce the germinative performance of decreaser species, thus favouring increasers. The present study tested the hypothesis that decreased germinative success of decreaser species is caused by a greater activity of fungal pathogens under the influence of dung leachates. We performed a phytotron experiment analysing the germination and fungal infections of fourteen species from Mediterranean grasslands. Species were grouped into phylogenetically-related pairs, composed of an increaser and a decreaser species. Seeds of each species were germinated under four different treatments (control, dung leachate addition, fungicide addition and dung leachate and fungicide addition), and the differences in germination percentage, germination speed and infection rate between each increaser species and its decreaser counterpart were analysed. Decreaser species were more affected by mortality than increaser ones, and these differences were higher under the presence of dung leachates. The differences in germinative performance after excluding the effect of seed mortality did not differ between treatments, showing that the main mechanism by which dung leachates favour increaser species is through increased mortality of the seeds of decreaser species. Drastic reductions in the number of dead seeds in the treatments including fungicide addition further revealed that fungal pathogens are responsible for these differences between species with different grazing response. The different vulnerabilities of increaser and decreaser species to the increased activity of fungal pathogens under the presence of dung leachates seems the main reason behind the differential effect of these leachates on species with different grazing response.     

Fungal endophytes in green coffee seeds

Green coffee seeds from Colombia, Guatemala, India, Kenya, Papua New Guinea, Puerto Rico and Vietnam were sampled for the presence of fungal endophytes. Stions of surface sterilized seeds were plated on yeast malt agar, and fungal growth was isolated for subsequent DNA extraction and sequencing. Several fungal genera were isolated, including Acremonium, Aspergillus, Eurotium, Fusarium, Gibberella, Penicillium, Pseudozyma and an undescribed clavicipitaceous species. The biological activities that these fungi might be playing in coffee seeds remain unknown, but in other plants some of the genera isolated have been reported to protect against plant pathogens.     

The seeds of success: release from fungal attack on seeds may influence the invasiveness of alien <Emphasis Type="Italic">Impatiens</Emphasis>

Although closely related, Impatiens glandulifera and Impatiens balfourii differ in their invasiveness in Europe; only the former is highly invasive there. Following the assumptions of the enemy release hypothesis (ERH), we tested whether these differences may be explained by the levels of seed infestation by pathogenic fungi. Using seeds collected along the Swiss-Italian border, we recorded four true pathogens of seeds: Fusarium culmorum, F. oxysporum, F. sporotrichoides, and Giberella avenacea. In Italy the seeds of I. balfourii were infected by fungal pathogens more often than those of I. glandulifera, while in Switzerland both species were under the same level of pressure. However, the overall differences in pathogen abundance were consistent with the ERH: seeds of the more invasive species were attacked less. This could be a result of differences between the communities of fungal pathogens attacking the seeds of both species in each country. The number of colonies of secondary pathogens (Cladosporium cladosporioides, Alternaria alternata) correlated negatively with the number of colonies of true pathogens; we suggest that the secondary pathogens may have prevented the occurrence of the true pathogens. The reason for the between-country differences in the fungal pathogen communities is unclear. A possible explanation is that Italy and Switzerland differ in their road and green-area maintenance work schemes, which may have influenced pathogen pressure on seeds. This study is one of the few that offers results indicating that release from enemies may be crucial to the invasion success of plants as early as the seed stage.     

咖啡种子中的内生真菌

Green coffee seeds from Colombia, Guatemala, India, Kenya, Papua New Guinea, Puerto Rico and Vietnam were sampled for the presence of fungal endophytes. Stions of surface sterilized seeds were plated on yeast malt agar, and fungal growth was isolated for subsequent DNA extraction and sequencing. Several fungal genera were isolated, including Acremonium, Aspergillus, Eurotium, Fusarium, Gibberella, Penicillium, Pseudozyma and an undescribed clavicipitaceous species. The biological activities that these fungi might be playing in coffee seeds remain unknown, but in other plants some of the genera isolated have been reported to protect against plant pathogens.     

咖啡种子中的内生真菌

Green coffee seeds from Colombia, Guatemala, India, Kenya, Papua New Guinea, Puerto Rico and Vietnam were sampled for the presence of fungal endophytes. Stions of surface sterilized seeds were plated on yeast malt agar, and fungal growth was isolated for subsequent DNA extraction and sequencing. Several fungal genera were isolated, including Acremonium, Aspergillus, Eurotium, Fusarium, Gibberella, Penicillium, Pseudozyma and an undescribed clavicipitaceous species. The biological activities that these fungi might be playing in coffee seeds remain unknown, but in other plants some of the genera isolated have been reported to protect against plant pathogens.     

Introduction of Non-Native Pollinators Can Lead to Trans-Continental Movement of Bee-Associated Fungi

Bees are essential pollinators for many flowering plants, including agriculturally important crops such as apple. As geographic ranges of bees or their host plants change as a result of human activities, we need to identify pathogens that could be transmitted among newly sympatric species to evaluate and anticipate their effects on bee communities. We used PCR screening and DNA sequencing to evaluate exposure to potentially disease-causing microorganisms in a pollinator of apple, the horned mason bee (Osmia cornifrons). We did not detect microsporidia, Wolbachia, or trypanosomes, which are common pathogens of bees, in any of the hundreds of mason bees screened. We did detect both pathogenic and apathogenic (saprophytic) fungal species in the genus Ascosphaera (chalkbrood), an unidentified species of Aspergillus fungus, and a strain of bacteria in the genus Paenibacillus that is probably apathogenic. We detected pathogenic fungal strains in asymptomatic adult bees that therefore may be carriers of disease. We demonstrate that fungi from the genus Ascosphaera have been transported to North America along with the bee from its native range in Japan, and that O. cornifrons is exposed to fungi previously only identified from nests of other related bee species. Further study will be required to quantify pathogenicity and health effects of these different microbial species on O. cornifrons and on closely-related native North American mason bees that may now be exposed to novel pathogens. A global perspective is required for pathogen research as geographic ranges of insects and microorganisms shift due to intentional or accidental introductions.     

Identity and properties of bacteria inhabiting seeds of selected broadleaf weed species

Seeds of five weed species were examined for the presence of seedborne bacteria. A total of 459 isolates were obtained from 1,740 seeds. The bacteria were identified and examined for distribution among seed viability classes, antifungal activity, and potential phytopathogenicity. Weed seeds varied for the prevalence of bacteria and in the types of bacteria associated with each plant species. Antifungal activity exhibited by 80% of the bacteria may limit seed deterioration by potential fungal seed pathogens. Some of the seedborne bacteria (15%) were potentially phytopathogenic. It is suggested that the complex nature of the weed seed-bacteria associations may be an obstacle to the development of biotic agents for manipulating weed seed activity in soil.     

Mycopathogens of Mites in Poland - A Review

Studies on diseases of mites caused by entomopathogenic fungi have been undertaken in Poland about a half a century later than in West European countries. Nevertheless, during the last 30 years almost 40 species of arthropod pathogenic fungi have been identified, among them 23 species of Entomophthorales, 12 species of Hyphomycetales and four species of ectoparasitic Laboulbeniales. The most common are representatives of the genus Hirsutella , found both on phytophagous and parasitic or predaceous mites. Percentage infection by H. thompsonii in populations of some tarsonemid and eriophyid mites increases slowly from the end of spring reaching a maximum of 30-60% in August-September. Neozygites floridana is a common entomophthoralean species causing epizootics in spider mite populations; infection also peaks in late summer and autumn. The most numerous fungal taxa have been identified from the resting spores produced internally within the body of the host and show features of the genus Tarichium . From the total number of the taxa recorded within these studies, 22 were described as species new to science. Current research on invertebrate pathology in Poland includes many groups of mites and among their pathogens fungal diseases seem to be the most common.     

Molecular identification and phylogenetic analysis of fungal pathogens isolated from diseased fish in Xinjiang,China

The outbreaks of fungal diseases in cultured fish have been severe in recent years, which is harmful to the healthy and sustainable development of fish farming. In this study, an investigation was conducted for significant fungal infections of 12 species of fish in four regions in Xinjiang, China, to understand the distribution of local fish fungal pathogens. Twenty-six fungal strains with pathogenicity were isolated, and the challenge experiment showed that eight strains from Changji area had high infection rate to fish eggs. Based on internal transcribed spacer sequence data and molecular analysis, the 26 strains were classified into nine different species of six fungal genera. Phylogenetic analysis showed that all strains were divided into two clades, namely Cluster 1 (contains only the genus Mucor) and Cluster 2 (consists of five small branches), and the distribution of strains from the same region was scattered in two clusters. There is no strict host selectivity for these fungi to infect fish. Mucor sp. are the main fungal pathogen of fish in these four regions, whereas Hypophthalmichthys molitrix and Carassius auratus are two types of fish that were susceptible to pathogen. In addition, the environmental adaptability experiments showed that eight highly pathogenic strains have different adaptability to the environment, and their optimum temperature and pH were 25°C and 7.0, respectively, whereas the concentration of NaCl was negatively correlated with the growth of strains. Therefore, these results indicated that the coinfection of multiple fungal pathogens in a culture region should be considered in the future study.     

紫苏对医院绿地土真菌群落组成及生态功能群结构的影响

医院绿地土壤是医院人体病原真菌或潜在人体病原真菌重要的物种储存库。这些携带真菌孢子的土粒和灰尘在空气中的传播增加了医院院内真菌感染的风险,已成为一个日趋严重的公共卫生问题。现研究表明,不少高等植物,尤其是药用植物具很强的抗真菌特性。基于高通量测序及模拟盆栽试验,本研究观察了种植药用植物紫苏Perilla frutescens对医院绿地土壤真菌群落组成及生态功能群结构的影响。研究结果表明,医院绿地土壤真菌群落优势类群随紫苏生育期变化而发生明显变化。优势属由原初医院土（PTS）的绿僵菌属Metarhizium（60.94%）,依次变为紫苏生长期样本（GZS）的被孢霉属Mortierella（21.34%）、开花期样本（FZS）的亚隔孢壳科Didymellaceae中一未定属（47.22%）和枯萎期样本（WZS）的粪壳菌目Sordariales中一未定属（12.67%）。经FUNGuild平台对序列数据集作进一步解析发现,种植紫苏后能够驱动医院绿地土壤真菌生态功能群发生明显变化,一些分类单元由动物病原向腐生型和/或共生型生态功能群转变。动物病原菌群（包括人体潜在病原）相对丰度,由原初医院土（PTS）的61.36%,下调至紫苏生长期样本（GZS）的2.48%、开花期样本（FZS）的1.40%和枯萎期样本（WZS）的6.09%。研究揭示紫苏对医院绿地土壤真菌群落组成及相对丰度具有一定调控作用,尤其是可降低其中人体潜在病原相对丰度以减轻对人类健康的威胁,为引种药用植物增强医院绿地土壤健康水平及维护医院院内公共卫生安全提供了参考。     

Muscodor species- endophytes with biological promise

A novel fungal genus is described that produces extremely bioactive volatile organic compounds (VOC’s). The initial fungal isolate was discovered as an endophyte in Cinnamomum zeylanicum in a botanical garden in Honduras. This endophytic fungus was named Muscodor albus because of its odor and its white color. This fungus produces a mixture of VOC’s that are lethal to a wide variety of plant and human pathogenic fungi and bacteria. It also is effective against nematodes and certain insects. The mixture of VOC’s has been analyzed using GC/MS and consists primarily of various alcohols, acids, esters, ketones, and lipids. Final verification of the identity of the VOC’s was carried out by using artificial mixtures of the putatively identified compounds and showing that the artificial mixture possessed the identical retention times and mass spectral qualities as those of the fungal derived substances. Artificial mixtures of the available VOC’s mimicked some but not all of the biological effects of the fungal VOC’s when tested against a wide range of fungal and bacterial pathogens. Other species and isolates of this genus have been found in various tropical forests in Australia, Bolivia, Ecuador, and Thailand. The most recent discovery is Muscodor crispans whose VOCs are active against many plant and human pathogens. Potential applications for “mycofumigation” by members of the Muscodor genus are currently being investigated and include uses for treating plant diseases, buildings, soils, agricultural produce and many more. This report will describe how the fungus was discovered, identified, and found potentially useful to agriculture, medicine and industry.