Fungal Fruiting Bodies Research Articles

Xylotrophs in spruce stands of the Kologrivsky Forest Nature Reserve, Russia

The purpose of the study is to study the species composition of xylotrophic fungi in spruce stands of the Kologrivsky Forest Nature Reserve (Kostroma region, Russia). On the territory of the nature reserve, 20 species of pathogenic fungi were found parasitizing on the trunks of living and dead trees. Dead wood (57%) is the main substrate for fungal fruiting bodies. Producing tree trunks use about 28% of xylophytes as a substrate, dry-standing – 15%.

Sensitivity of Krasnodar Venturia inaequalis Populations to the Sterol Demethylation Inhibitor Difenoconazole.

Difenoconazole sensitivity was assessed in three populations of the apple scab agent Venturia inaequalis of the Krasnodar region. One of the populations was fungicide naïve population; its sample was collected in natural habitats of the eastern crabapple Malus orientalis in foothills of the Severskii raion. The two other populations were from commercial orchards of the apple variety Reinette Simirenko (the Krasnoarmeiskii and Dinskoi raions), where fungicide treatments with various agents, including those with difenoconazole as an active ingredient, were performed on a regular basis. Single-spore V. inaequalis isolates were isolated from fresh leaves with signs of the disease or fallen leaves with fungal fruiting bodies. The median effective concentration (EC50) was defined as the concentration that halves the colony growth and was estimated in a series of in vitro experiments with 120 isolates. Difenoconazole (Score EC, 250 mg/L, Syngenta) was used at six concentrations: 0.005, 0.01, 0.025, 0.05, 0.5, and 1 mg a.i./L. Mean EC50 values were 0.0078mg a.i./L in the natural population and 0.12 and 0.25 mg a.i./L in the orchard populations. Fungicide sensitivity was lower in both of the orchard populations; their resistance factors were estimated at 16 and 32. The proportion of sensitive and low-sensitive isolates differed between the two orchard populations. A discriminatory dose, or single-assessment concentration (SAC), of 0.01 mg a.i./L was proposed to simplify the laboratory monitoring of the difenoconazole sensitivity in V. inaequalis by using a test for relative growth (RG) of the mycelium. Comparable results were obtained with EC50 and RG at the discriminatory dose. The portion of isolates with RGs exceeding the threshold (RG > 70%) was 97% in one of the orchard populations. The results indicate that difenoconazole resistance develops in V. inaequalis populations from commercial orchards of the Krasnodar region.

Climate-induced long-term changes in the phenology of Mediterranean fungi

Long-term responses in the phenology of Mediterranean macrofungi to climatic changes are poorly documented. Here, we address this issue by comparing the fruiting patterns of 159 fungal species in Southern France between the first half of the 19th century and the first decade of the 21st century. We used a trait-based approach to assess the influence of phenology and morphology of fungal fruit bodies and their site ecology and biogeography on the response to climate change. We show that early autumnal fruiters, epigeous species and species with affinities for cold climates now start to fruit on average 16.4, 17.3 and 17.3 d later compared to their emergence dates in the 19th century, while late fruiters, hypogeous species and Mediterranean-restricted species did not change their fruiting date. Among ecological guilds, saproxylic species and pine-associated mutualists delayed their autumnal emergence by 32.5 and 19.2 d, likely in response to a delayed rewetting of litter and woody debris after extended summer drought. Our results suggest that long-term climate warming in the Mediterranean was accompanied by contrasting changes in the emergence of fungal fruit bodies according to ecological guilds, sporocarp life-forms and forest types.

First Report on Colletotrichum sansevieriae Causing Anthracnose of Sansevieria trifasciata in Germany

Sansevieria species are valued in Europe as potted houseplants because of their modest maintenance requirements and low susceptibility to diseases and pests. Water-soaked leaf spots that eventually coalesced into large, drying lesions were observed on Sansevieria trifasciata freshly imported from Costa Rica. A Colletotrichum was isolated from the fungal fruiting bodies that developed on these necroses. It was confidently determined to be C. sansevieriae based on the host plant and microbiological as well as molecular biology test results. This is the first detection of C. sansevieriae in Germany.

The Role of Chromatin and Transcriptional Control in the Formation of Sexual Fruiting Bodies in Fungi.

Fungal fruiting bodies are complex, three-dimensional structures that arise from a less complex vegetative mycelium. Their formation requires the coordinated action of many genes and their gene products, and fruiting body formation is accompanied by major changes in the transcriptome. In recent years, numerous transcription factor genes as well as chromatin modifier genes that play a role in fruiting body morphogenesis were identified, and through research on several model organisms, the underlying regulatory networks that integrate chromatin structure, gene expression, and cell differentiation are becoming clearer. This review gives a summary of the current state of research on the role of transcriptional control and chromatin structure in fruiting body development. In the first part, insights from transcriptomics analyses are described, with a focus on comparative transcriptomics. In the second part, examples of more detailed functional characterizations of the role of chromatin modifiers and/or transcription factors in several model organisms (Neurospora crassa, Aspergillus nidulans, Sordaria macrospora, Coprinopsis cinerea, and Schizophyllum commune) that have led to a better understanding of regulatory networks at the level of chromatin structure and transcription are discussed.

Der Fremdling im Therapiegarten – Cis chinensis (Coleoptera, Ciidae) und sein Umfeld

Samples of the tree fungus Antrodia xantha were collected on Pinus strobus in the therapy garden of the UPK campus (University Psychiatric Clinics) in Basel in summer 2021. The samples contained an alien Ciidae species new to Switzerland: Cis chinensis Lawrence, 1991, a species otherwise mainly known as a storage pest of commercially dried fungi. The adults and larvae of the Basel population are described and illustrated. When comparing the size of the adults of the two sample series collected two weeks apart, statistically significant differences were found. It appears that the above-average temperatures in June 2021 favoured the size of the second group. A number of (4–)5 larval stages are postulated for larval development. As an endoparasitoid of the eggs of C. chinensis, an unknown Mymaridae of the genus Cleruchus was found. Noteworthy was an unusually heavy infestation of Ciidae by phoretic mites (Histiostomatidae). During follow-up surveys in early 2022, additional individuals of C. chinensis were also found on the fruitbodies of other fungi growing in the immediate vicinity of the site where the population of the species was initially observed on A. xantha. A list of all Ciidae detected on the UPK campus is provided, and the spectrum of host-fungi of C. chinensis is discussed.

Sustainable production of ectomycorrhizal fungi in the Mediterranean region to support the European Green Deal

Societal Impact StatementThe planet faces a climate crisis with severe health, economic and environmental consequences. Political actions such as the European Green Deal aim to mitigate climate change by shifting production and consumption patterns, and the production of mycorrhizal sporocarps—the fruiting body of fungi—is no exception. The production of mycorrhizal sporocarps has a high economic, cultural and environmental impact in the Mediterranean region. With a key role in forest ecosystems, ectomycorrhizal fungi provide services and goods essential to maintain soil quality, ecosystem functions and food, contributing to the achievement of sustainable production and the European Green Deal goals—a climate‐neutral Europe.SummaryEctomycorrhizal fungi (ECMF) cultivation is an important economic activity in the Mediterranean region. Sporocarps from ECMF species such as Terfezia claveryi, Tuber melanosporum, Tuber aestivum and Lactarius delicious have been successfully cultivated. Due to biotechnological advances, a considerable evolution in ECMF cultivation techniques was observed in the last decade. New technologies and intensified Research and Development allow for a better understanding of the physiology of the plant‐fungi symbioses and how climate change affects them. Studying forest management practices is also essential to optimise the natural production of ectomycorrhizal sporocarps and help develop sustainable production practices. This knowledge revealed the importance of ECMF and their role in the rural bioeconomy and highlighted the need to establish sustainable cultivation practices. A successful example of ECMF cultivation is the production of Terfezia species, namely, Terfezia claveryi and Terfezia boudieri. Terfezia truffles are traditional delicacies with high socioeconomic relevance and numerous biotechnological applications. Furthermore, these Mediterranean native species are an important tool to develop the bioeconomy in rural areas by creating new production strategies. Furthermore, exploiting these and other native Mediterranean species can promote sustainable practices in line with new European Green Deal strategies, such as the Farm to Fork strategy, the EU Biodiversity strategy for 2030 and the Climate Law. This work reviews ECMF cultivation practices and forest management studies, presenting the case of Terfezia cultivation and how the sustainable production of wild and planted ECMF may contribute to achieving the European Green Deal objectives and to a more resilient Europe.

Trends in the development of methods of disposal of bark and bark-wood waste of long-term storage (review)

The present review analyzes the problem of accumulation and utilization of bark and bark-wood waste from wood-working and pulp and paper industries. The methods of utilization are systematized, which differ for "fresh" bark and bark-wood waste of a long shelf life. The essence of biotechnological methods of deep biotransformation of bark-wood waste of long shelf life is described in more detail: composting with the use of mineral fertilizers, stimulation of native microflora, use of activated sludge and artificial consortia of microorganisms, creation of biotechnical systems in the body of bark dumps, solid-phase fermentation of bark-wood waste by xylotrophic fungi. Successful examples of the implementation of methods of biotransformation of bark-wood waste of long-term storage in the bark dumps of pulp and paper enterprises of the Perm Region of Rusian Federation are given. The algorithm of utilization of bark-wood waste by solid-phase fermentation with the help of xylotrophic fungi at the bark dumps of Syktyvkar woodworking plant (Republoc of Komi, Russia) is proposed in order to obtain soil-like substrates and fertilizers, fruit bodies of edible xylotrophic fungi and valuable fungal metabolites for medicine.

New Species of Nectriaceae (Hypocreales) from China.

Species of Nectriaceae commonly occur on living and decaying woody substrates, soil, fruitbodies of other fungi, and insects. Some of them are reported as endophytes, opportunistic pathogens of crops and humans, or producers of mycotoxins. To explore the species diversity of the family, specimens from different regions of China were collected and examined. Four novel taxa of Penicillifer, Pseudocosmospora, and Thelonectria were introduced on the basis of morphological characteristics and DNA sequence analyses of combined datasets of the act, ITS, LSU, rpb1, rpb2, tef1, and tub2 regions. Differences between the new species and their close relatives were compared and discussed.

Contrasting regulation of live Bacillus cereus No.1 and its volatiles on Shiraia perylenequinone production

BackgroundFungal perylenequinones (PQs) are a class of photoactivated polyketide mycotoxins produced by plant-associated fungi. Hypocrellins, the effective anticancer photodynamic therapy (PDT) agents are main bioactive PQs isolated from a bambusicolous Shiraia fruiting bodies. We found previously that bacterial communities inhabiting fungal fruiting bodies are diverse, but with unknown functions. Bacillus is the most dominant genus inside Shiraia fruiting body. To understand the regulation role of the dominant Bacillus isolates on host fungus, we continued our work on co-culture of the dominant bacterium B. cereus No.1 with host fungus Shiraia sp. S9 to elucidate bacterial regulation on fungal hypocrellin production.ResultsResults from "donut" plate tests indicated that the bacterial culture could promote significantly fungal PQ production including hypocrellin A (HA), HC and elsinochrome A-C through bacterial volatiles. After analysis by gas chromatograph/mass spectrometer and confirmation with commercial pure compounds, the volatiles produced by the bacterium were characterized. The eliciting roles of bacterial volatile organic compounds (VOCs) on HA production via transcriptional regulation of host Shiraia fungus were confirmed. In the established submerged bacterial volatile co-culture, bacterial volatiles could not only promote HA production in the mycelium culture, but also facilitate the release of HA into the medium. The total production of HA was reached to 225.9 mg/L, about 1.87 times that of the fungal mono-culture. In contrast, the live bacterium suppressed markedly fungal PQ production in both confrontation plates and mycelium cultures by direct contact. The live bacterium not only down-regulated the transcript levels of HA biosynthetic genes, but also degraded extracellular HA quickly to its reductive product.ConclusionOur results indicated that bacterial volatile release could be a long-distance signal to elicit fungal PQ production. Biodegradation and inhibition by direct contact on fungal PQs were induced by the dominate Bacillus to protect themselves in the fruiting bodies. This is the first report on the regulation of Bacillus volatiles on fungal PQ production. These findings could be helpful for both understanding the intimate fungal–bacterial interactions in a fruiting body and establishing novel cultures for the enhanced production of bioactive PQs.Graphical

Apple Leaf Diseases Classification Using CNN with Transfer Learning

Abstract: The Foliar diseases of the apple trees commonly reduce the crop Yield and photosynthesis which affects their productivity. Diagnosing foliar damage is not easy if there are no distinct patterns that would be fungal fruiting bodies it will. spread to the rest of the crops. The foliar disease of the apple trees is carried out due to biotic and abiotic causes, some of the biotic causes of foliar damage are - Bacterial Disease, Fungal Diseases, Viral Diseases, Insects, and Mites That Damage Foliage. some of the Abiotic causes are - Iron Chlorosis, Misapplied Herbicide, and Winter Desiccation of Evergreens. Traditional approaches rely on visual inspection by an expert and biological examination is the second choice .these approaches are time-consuming and expensive. we use machine learning methods to classify the disease in apple trees. we use some pre-trained CNN models to extract features from the dataset, we applied the CNN model and compared them with Pre-trained Models, and we achieve accuracies of over 93% with CNN, among the Models We achieved 92% with the Inception V3 model,62% with VGG16, 63% with VGG19.

Transcriptional Divergence Underpinning Sexual Development in the Fungal Class Sordariomycetes.

ABSTRACTGene expression divergence through evolutionary processes is thought to be important for achieving programmed development in multicellular organisms. To test this premise in filamentous fungi, we investigated transcriptional profiles of 3,942 single-copy orthologous genes (SCOGs) in five related sordariomycete species that have morphologically diverged in the formation of their flask-shaped perithecia. We compared expression of the SCOGs to inferred gene expression levels of the most recent common ancestor of the five species, ranking genes from their largest increases to smallest increases in expression during perithecial development in each of the five species. We found that a large proportion of the genes that exhibited evolved increases in gene expression were important for normal perithecial development in Fusarium graminearum. Many of these genes were previously uncharacterized, encoding hypothetical proteins without any known functional protein domains. Interestingly, the developmental stages during which aberrant knockout phenotypes appeared largely coincided with the elevated expression of the deleted genes. In addition, we identified novel genes that affected normal perithecial development in Magnaporthe oryzae and Neurospora crassa, which were functionally and transcriptionally diverged from the orthologous counterparts in F. graminearum. Furthermore, comparative analysis of developmental transcriptomes and phylostratigraphic analysis suggested that genes encoding hypothetical proteins are generally young and transcriptionally divergent between related species. This study provides tangible evidence of shifts in gene expression that led to acquisition of novel function of orthologous genes in each lineage and demonstrates that several genes with hypothetical function are crucial for shaping multicellular fruiting bodies.

Fusarium fruiting body microbiome member Pantoea agglomerans inhibits fungal pathogenesis by targeting lipid rafts

Plant-pathogenic fungi form intimate interactions with their associated bacterial microbiota during their entire life cycle. However, little is known about the structure, functions and interaction mechanisms of bacterial communities associated with fungal fruiting bodies (perithecia). Here we examined the bacterial microbiome of perithecia formed by Fusarium graminearum, the major pathogenic fungus causing Fusarium head blight in cereals. A total of 111 shared bacterial taxa were identified in the microbiome of 65 perithecium samples collected from 13 geographic locations. Within a representative culture collection, 113 isolates exhibited antagonistic activity against F. graminearum, with Pantoea agglomerans ZJU23 being the most efficient in reducing fungal growth and infectivity. Herbicolin A was identified as the key antifungal compound secreted by ZJU23. Genetic and chemical approaches led to the discovery of its biosynthetic gene cluster. Herbicolin A showed potent in vitro and in planta efficacy towards various fungal pathogens and fungicide-resistant isolates, and exerted a fungus-specific mode of action by directly binding and disrupting ergosterol-containing lipid rafts. Furthermore, herbicolin A exhibited substantially higher activity (between 5- and 141-fold higher) against the human opportunistic fungal pathogens Aspergillus fumigatus and Candida albicans in comparison with the clinically used fungicides amphotericin B and fluconazole. Its mode of action, which is distinct from that of other antifungal drugs, and its efficacy make herbicolin A a promising antifungal drug to combat devastating fungal pathogens, both in agricultural and clinical settings.

Soil Microbes Drive the Flourishing Growth of Plants From Leucocalocybe mongolica Fairy Ring

Fairy ring is a natural phenomenon in which fungal fruiting bodies occur as a ring on a spot. This ring is produced due to spore ejection by Basidiomycetous fungi and forms a lush growing plant belt. However, the drivers for such formations and the potential plant growth-promoting rhizobacteria in fairy ring soils remain unknown. Fairy rings formed by Leucocalocybe mongolica were selected in this study. Soil characteristics and microbial (bacteria and fungi) community structures between beneath and outside the fairy rings were compared through high-throughput sequencing. Beneficial bacterial resources were excavated using dependent culturable methods. Soil electrical conductivity and available potassium were higher in the soil beneath the ring than outside it. These parameters were positively correlated with the dominant microbial community, but microbial diversity was lower. In the soil beneath the fairy ring, Bacteroidetes and Basidiomycota were more abundant, whereas Verrucomicrobia was less prevalent. Bacillus pumilus (strain BG-5) was isolated from the soil beneath the ring. Strain BG-5 can solubilize phosphorus and produce indole-3-acetic acid, NH4+, and siderophores. Furthermore, strain BG-5 enhanced salt tolerance and promoted the growth of Arabidopsis thaliana, wheat (Triticum aestivum), and cotton (Gossypium hirsutum) seedlings. This study indicated the presence of abundant beneficial microbes driving the flourishing growth of plants in the fairy ring soil and provided bio-resources for agricultural growth-promoting agents.

FIP-fve Stimulates Cell Proliferation and Enhances IL-2 Release by Activating MAP2K3/p38α (MAPK14) Signaling Pathway in Jurkat E6-1 Cells.

FIP-fve, a fungal fruiting body protein from Flammulina velutipes, has potential immunomodulatory properties. Here, we investigated the immunomodulation mechanism of FIP-fve in Jurkat E6-1 cells by conducting a cell viability assay and IL-2 release assay. Kinase inhibitors experiment and proteomics analysis were also involved in the mechanism study. It was found that FIP-fve stimulated cell proliferation and enhanced IL-2 secretion in a dose-dependent manner in Jurkat E6-1 cells. Unbiased high-throughput proteomics analysis showed that 4 T cell immune activation markers, including ZAP-70, CD69, CD82, and KIF23, were upregulated in response to FIP-fve treatment. Further pathway analysis indicated that MAP2K3/p38 pathway-related proteins, including MAP2K, p38, ELK, AATF, FOS, and JUN-B, were unregulated. In addition, losmapimod (p38 inhibitor) and gossypetin (MAP2K3 inhibitor) inhibited FIP-fve enhanced cell proliferation and IL-2 release in Jurkat E6-1 cells. Our results demonstrate that FIP-fve stimulates cell proliferation and enhances IL-2 secretion through MAP2K3/p38α activation.

Snags, logs, stumps, and microclimate as tools optimizing deadwood enrichment for forest biodiversity

The reduction of deadwood due to forest management threatens saproxylic diversity. Therefore, deadwood needs to be preserved and enriched. While the importance of deadwood tree identity is well investigated, the value of different object types and microclimate for diversity is insufficiently understood. Conservation-oriented forest management, therefore, requires guidelines on how deadwood types under various microclimatic conditions can help to sustain saproxylic diversity. We set up an experiment in sub-montane beech forest to disentangle effects of microclimate (sun vs. shade) and deadwood types (logs, stumps, snags). By surveying beetles, fungal fruiting bodies, and fungal molecular taxa (amplicon sequence variants, ASVs) in early-decomposition stage deadwood, we asked: (i) What is the relative importance of deadwood types vs. microclimate on saproxylic α- and β-diversity? (ii) What is the importance of stumps, logs, and snags for saproxylic α- and β-diversity? (iii) Which combinations of microclimate and deadwood type maximize γ-diversity? Deadwood types had a stronger effect on α- and β-diversity of all groups than microclimate, which was not significant in most cases. Among deadwood types, α-diversity was higher on logs than on other deadwood types for beetles and fungal fruiting species. Fungal ASVs reached high α-diversity on snags. Considering effective combinations of deadwood types and microclimate in their contribution to γ-diversity, shaded and sunny logs showed most importance for beetles and fruiting fungi, while sunny snags were important for fungal ASVs. Maintenance of saproxylic diversity is therefore best achieved via enrichment of different deadwood types and by emphasizing logs and snags under variable microclimates.

Imprints of latitude, host taxon, and decay stage on fungus‐associated arthropod communities

AbstractInteractions among fungi and insects involve hundreds of thousands of species. While insect communities on plants have formed some of the classic model systems in ecology, fungus‐based communities and the forces structuring them remain poorly studied by comparison. We characterize the arthropod communities associated with fruiting bodies of eight mycorrhizal basidiomycete fungus species from three different orders along a 1200‐km latitudinal gradient in northern Europe. We hypothesized that, matching the pattern seen for most insect taxa on plants, we would observe a general decrease in fungal‐associated species with latitude. Against this backdrop, we expected local communities to be structured by host identity and phylogeny, with more closely related fungal species sharing more similar communities of associated organisms. As a more unique dimension added by the ephemeral nature of fungal fruiting bodies, we expected further imprints generated by successional change, with younger fruiting bodies harboring communities different from older ones. Using DNA metabarcoding to identify arthropod communities from fungal fruiting bodies, we found that latitude left a clear imprint on fungus‐associated arthropod community composition, with host phylogeny and decay stage of fruiting bodies leaving lesser but still‐detectable effects. The main latitudinal imprint was on a high arthropod species turnover, with no detectable pattern in overall species richness. Overall, these findings paint a new picture of the drivers of fungus‐associated arthropod communities, suggesting that latitude will not affect how many arthropod species inhabit a fruiting body but, rather, what species will occur in it and at what relative abundances (as measured by sequence read counts). These patterns upset simplistic predictions regarding latitudinal gradients in species richness and in the strength of biotic interactions.

First Report of Aspergillus versicolor Associated with Fruit Rot Disease of Tomato (Solanum lycopersicum) from India.

Tomato (Solanum lycopersicum L.) is an important vegetable crop and cultivated throughout India. During 2019-20, Karnataka produced 2163 tonnes of tomato, accounting for 10.51 percent of total production (https://agricoop.gov.in/horticulture-reports). During a survey conducted in September 2019 in southern Karnataka region, severe fungi fruit rot symptoms were observed on at harvest in a 18 hectare production operation. The incidence of fruit rot disease was estimated around 12–14% in an area of 18 hectares (~62 fields). The necrotic lesions on infected fruit were covered with. The fruit rot was characterised by necrosis lesions filled with black fungal fruiting bodies, which later became soft and fully necrotic. A total of 20 samples were used for isolation and diagnostics. Infected fruit rot samples were surface sterilized with 2% NaOCl for 2 min, rinsed thrice in sterile distilled water, and plated on potato dextrose agar (PDA) medium amended with chloramphenicol (40mg/L). The plates were incubated at 28±2 °C and pure cultures were obtained by hyphal tip excision. On PDA medium, fungal colonies were initially white, but later turned to yellow green, often intermixed with pink sections. They produced sulcate and centrally raised sporulating conidiophores which were hyaline or slightly pigmented with smooth walls. Vesicles produced on conidiophores were sub-globose to ellipsoidal with phialides borne on metulae. Conidia were globose, brownish and conspicuously echinulate. On the basis morphological and cultural characteristics, the causative pathogen was identified to be Aspergillus versicolor (Jurjevic et al., 2012). Further molecular characterization was also done by amplifying internal transcribed spacer (ITS) region using universal ITS1-ITS4 primers with three representative isolates (White et al. 1990). Genomic DNA was isolated using CTAB using 15 days old culture followed by PCR amplification using ITS1-ITS4 primer pair and sequencing. The sequences analysis had 100% (561/561 base pairs) similarity with the reference sequences of Aspergillus versicolor (KU318417.1, MT798844.1) according to BLAST analysis in GenBank. The representative sequence of ITS-rDNA for three isolates viz., A. versicolor NCM_1, NCM_2 & NCM_3 were deposited in GenBank (Accession number: MZ520551.1 – MZ520553.1). Pathogenicity tests were conducted on 10 healthy mature fruit of tomato F1 hybrid (INDAM 3003) using wound inoculation (conidial suspension 3 × 106 conidia mL−1). Several tomato fruit (n=5) were only inoculated with sterile water to serve as controls. The experiments were conducted in triplicates with 10 fruits each and repeated three times (Mahadevakumar et al. 2019). Within 7 days of post-inoculation, fruit rot symptoms similar to those in the original out break in Karnataka were observed on all inoculated fruit. Control fruit remained asymptomatic even after 10 days. The pathogen was reisolated from diseased fruit and the identity was confirmed based on morphology and ITS sequencing. A. versicolor has been reported as a post-harvest fungal pathogen on other various vegetable crops (Aidoo, 1993). Tomato fruit rots are known to be a major problem (Nizamani et al., 2021) in the region. However, there no reports of tomato fruit rot caused by A. versicolor in India (Farr and Rossman, 2021), which warrants additional attention as a potential threat to regional production.

Metabolomic comparison between natural Huaier and artificial cultured Huaier.

Vanderbylia robiniophila (Murrill) B.K. (Huaier) is a kind of higher fungal fruiting body that is parasitic on the trunk of Sophora japonica and Robinia pseudoacacia L.. As a traditional Chinese medicine with a history of more than 1,600 years, Huaier has attracted wide attention for its excellent anticancer activity. A systematic study on the metabolome differences between natural Huaier and artificial cultured Huaier was conducted using liquid chromatography-mass spectrometry in this study. Principal component analysis and orthogonal projection on latent structure-discriminant analysis results showed that cultured Huaier evidently separated and individually separated from natural Huaier, indicating metabolome differences between natural and cultured Huaier. Hierarchical clustering analysis was further performed to cluster the differential metabolites and samples based on their metabolic similarity. The higher contents of amino acids, alkaloids and terpenoids in natural Huaier make it an excellent choice as a traditional Chinese medicine for anticancer or nutritional supplementation. The results of the Bel-7,402 and A549 cell cytotoxicity tests showed that the anticancer activity of natural Huaier was better than that of cultured Huaier. This may be due to the difference in chemical composition, which makes the anticancer activities of natural and cultured Huaier different.

Response of Fruit Body Assemblage Color Lightness to Macroclimate and Vegetation Cover

Understanding how species relate mechanistically to their environment via traits is a central goal in ecology. Many macroecological rules were found for macroorganisms, however, whether they can explain microorganismal macroecological patterns still requires investigation. Further, whether macroecological rules are also applicable in microclimates is largely unexplored. Here we use fruit body-forming fungi to understand both aspects better. A recent study showed first evidence for the thermal-melanism hypothesis (Bogert’s rule) in fruit body-forming fungi and relied on a continental spatial scale with large grid size. At large spatial extent and grid sizes, other factors like dispersal limitation or local microclimatic variability might influence observed patterns besides the rule of interest. Therefore, we test fungal assemblage fruit body color lightness along a local elevational gradient (mean annual temperature gradient of 7°C) while considering the vegetation cover as a proxy for local variability in microclimate. Using multivariate linear modeling, we found that fungal fruiting assemblages are significantly darker at lower mean annual temperatures supporting the thermal-melanism hypothesis. Further, we found a non-significant trend of assemblage color lightness with vegetation cover. Our results support Bogert’s rule for microorganisms with macroclimate, which was also found for macroorganisms.