Your search keyword '"Sebacinales"' showing total 21 results

1. Mycobiont diversity and first evidence of mixotrophy associated with Psathyrellaceae fungi in the chlorophyllous orchid Cremastra variabilis

Author

Eriko Funabiki, Takahiro Yagame, Marc-André Selosse, Felix Lallemand, and Tomohisa Yukawa

Subjects

Plant ecology, biology, Psathyrellaceae, Botany, Cremastra, Sebacinales, Ceratobasidiaceae, Plant Science, Autotroph, biology.organism_classification, Rhizoctonia, Relative species abundance

Abstract

Mixotrophy (MX, also called partial mycoheterotrophy) in plants is characterized by isotopic abundances that differ from those of autotrophs. Previous studies have evaluated mycoheterotrophy in MX plants associated with fungi of similar ecological characteristics, but little is known about the differences in the relative abundances of 13C and 15N in an orchid species that associates with several different mycobionts species. Since the chlorophyllous orchid Cremastra variabilis Nakai associates with various fungi with different ecologies, we hypothesized that it may change its relative abundances of 13C and 15N depending on the associated mycobionts. We investigated mycobiont diversity in the chlorophyllous orchid C. variabilis together with the relative abundance of 13C and 15N and morphological underground differentiation (presence or absence of a mycorhizome with fungal colonization). Rhizoctonias (Tulasnellaceae, Ceratobasidiaceae, Sebacinales) were detected as the main mycobionts. High differences in δ13C values (– 34.7 to – 27.4 ‰) among individuals were found, in which the individuals associated with specific Psathyrellaceae showed significantly high relative abundance of 13C. In addition, Psathyrellaceae fungi were always detected on individuals with mycorhizomes. In the present study, MX orchid association with non-rhizoctonia saprobic fungi was confirmed, and the influence of mycobionts on morphological development and on relative abundance of 13C and 15N was discovered. Cremastra variabilis may increase opportunities to gain nutrients from diverse partners, in a bet-hedging plasticity that allows colonization of various environmental conditions.

Published

2021

2. Serendipita restingae sp. nov. (Sebacinales): an orchid mycorrhizal agaricomycete with wide host range

Author

Morgana Elis Lopes, Marc-André Selosse, Yohan Fritsche, Valdir Marcos Stefenon, and Miguel Pedro Guerra

Subjects

0106 biological sciences, food.ingredient, Epidendrum fulgens, Plant Science, 010603 evolutionary biology, 01 natural sciences, Endophyte, Host Specificity, Microtis, food, Mycorrhizae, Botany, Genetics, Arabidopsis thaliana, Orchidaceae, Symbiosis, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Basidiomycota, Epidendrum, Sebacinales, General Medicine, biology.organism_classification, Serendipita, 010606 plant biology & botany

Abstract

The Serendipitaceae family was erected in 2016 to accommodate the Sebacinales 'group B' clade, which contains peculiar species of cultivable root-associated fungi involved in symbiotic associations with a wide range of plant species. Here we report the isolation of a new Serendipita species which was obtained from protocorms of the terrestrial orchid Epidendrum fulgens cultivated in a greenhouse. This species is described based on phylogenetic analysis and on its microscopic and ultrastructural features in pure culture and in association with the host's protocorms. Its genome size was estimated using flow cytometry, and its capacity to promote the germination of E. fulgens seeds and to associate with roots of Arabidopsis thaliana was also investigated. Serendipita restingae sp. nov. is closely related to Serendipita sp. MAFF305841, isolated from Microtis rara (Orchidaceae), from which it differs by 14.2% in the ITS region and by 6.5% in the LSU region. It produces microsclerotia formed of non-monilioid hyphae, a feature that was not reported for the Sebacinales hitherto. Serendipita restingae promoted the germination of E. fulgens seeds, forming typical mycorrhizal pelotons within protocorm cells. It was also able to colonize the roots of Arabidopsis thaliana under in vitro conditions. Arabidopsis plants grown in association with S. restingae increased their biomass more than fourfold. Serendipita restingae is the first Serendipitaceae species described for the Americas.

Published

2020

3. Mycorrhizal fungal community composition in seven orchid species inhabiting Song Mountain, Beijing, China

Author

Shunxing Guo, Yanhong Chen, Linli Song, Xiaoke Xing, Gao Yue, and Zeyu Zhao

Subjects

0301 basic medicine, Thelephoraceae, General Biochemistry, Genetics and Molecular Biology, Cortinariaceae, 03 medical and health sciences, 0302 clinical medicine, Orchid mycorrhiza, Species Specificity, Mycorrhizae, DNA, Fungal, Orchidaceae, General Environmental Science, biology, Ecology, Basidiomycota, Niche differentiation, High-Throughput Nucleotide Sequencing, Ceratobasidiaceae, Sebacinales, Biodiversity, Sequence Analysis, DNA, biology.organism_classification, 030104 developmental biology, Sympatric speciation, Beijing, 030220 oncology & carcinogenesis, Russulaceae, General Agricultural and Biological Sciences, Mycobiome

Abstract

Mycorrhizal fungi play an important role in the germination and growth of orchids essentially influencing their survival, abundance, and spatial distribution. In this study, we investigated the composition of the mycorrhizal fungal community in seven terrestrial orchid species inhabiting Song Mountain, Beijing, China, using Illumina MiSeq high-throughput sequencing. The mycorrhizal communities in the seven orchids were mainly composed of members of the Ceratobasidiaceae, Sebacinales, and Tulasnellaceae, while a number of ectomycorrhizal fungi belonging to the Russulaceae, Tricholomataceae, Thelephoraceae, and Cortinariaceae were occasionally observed. However, the dominant fungal associates and mycorrhizal community differed significantly among the orchid species as well as subhabitats. These findings confirm the previous observation that sympatric orchid species show different preferences for mycorrhizal fungi, which may drive niche partitioning and contribute to their co-occurrence.

Published

2019

4. Does warming by open-top chambers induce change in the root-associated fungal community of the arctic dwarf shrub Cassiope tetragona (Ericaceae)?

Author

Sunil Mundra, Jelte Rozema, Kelsey Erin Lorberau, Anders Bjørnsgaard Aas, Pernille Bronken Eidesen, Håvard Kauserud, Synnøve Smebye Botnen, and Systems Ecology

Subjects

0301 basic medicine, Climate Change, OTCs, Plant Science, Plant Roots, Mycena, Cassiope tetragona, Ericoid mycorrhiza, Svalbard, 03 medical and health sciences, Arctic, Mycorrhizae, Clavaria, Botany, SDG 13 - Climate Action, Genetics, Climate change, DNA Barcoding, Taxonomic, DNA, Fungal, Molecular Biology, Ecology, Evolution, Behavior and Systematics, High-throughput sequencing, Open-top chambers, biology, Arctic Regions, Ecology, Temperature, Sebacinales, General Medicine, biology.organism_classification, Ectomycorrhiza, 030104 developmental biology, Root-associated fungi, Cortinarius, Ericaceae

Abstract

Climate change may alter mycorrhizal communities, which impact ecosystem characteristics such as carbon sequestration processes. These impacts occur at a greater magnitude in Arctic ecosystems, where the climate is warming faster than in lower latitudes. Cassiope tetragona (L.) D. Don is an Arctic plant species in the Ericaceae family with a circumpolar range. C. tetragona has been reported to form ericoid mycorrhizal (ErM) as well as ectomycorrhizal (ECM) symbioses. In this study, the fungal taxa present within roots of C. tetragona plants collected from Svalbard were investigated using DNA metabarcoding. In light of ongoing climate change in the Arctic, the effects of artificial warming by open-top chambers (OTCs) on the fungal root community of C. tetragona were evaluated. We detected only a weak effect of warming by OTCs on the root-associated fungal communities that was masked by the spatial variation between sampling sites. The root fungal community of C. tetragona was dominated by fungal groups in the Basidiomycota traditionally classified as either saprotrophic or ECM symbionts, including the orders Sebacinales and Agaricales and the genera Clavaria, Cortinarius, and Mycena. Only a minor proportion of the operational taxonomic units (OTUs) could be annotated as ErM-forming fungi. This indicates that C. tetragona may be forming mycorrhizal symbioses with typically ECM-forming fungi, although no characteristic ECM root tips were observed. Previous studies have indicated that some saprophytic fungi may also be involved in biotrophic associations, but whether the saprotrophic fungi in the roots of C. tetragona are involved in biotrophic associations remains unclear. The need for more experimental and microscopy-based studies to reveal the nature of the fungal associations in C. tetragona roots is emphasized.

Published

2017

5. Local-scale spatial structure and community composition of orchid mycorrhizal fungi in semi-natural grasslands

Author

Urmas Kõljalg, Jane Oja, Johanna Vahtra, Mohammad Bahram, Leho Tedersoo, Riinu Rannap, Petr Kohout, and Tiiu Kull

Subjects

Estonia, 0106 biological sciences, Calcareous grassland, Plant Science, 010603 evolutionary biology, 01 natural sciences, Orchid mycorrhiza, Abundance (ecology), Mycorrhizae, Botany, Genetics, Platanthera chlorantha, Orchidaceae, Molecular Biology, Phylogeny, Soil Microbiology, Ecology, Evolution, Behavior and Systematics, biology, Community, Ecology, Basidiomycota, Ceratobasidiaceae, Sebacinales, General Medicine, biology.organism_classification, Grassland, Orchis militaris, 010606 plant biology & botany

Abstract

Orchid mycorrhizal (OrM) fungi play a crucial role in the ontogeny of orchids, yet little is known about how the structure of OrM fungal communities varies with space and environmental factors. Previous studies suggest that within orchid patches, the distance to adult orchids may affect the abundance of OrM fungi. Many orchid species grow in species-rich temperate semi-natural grasslands, the persistence of which depends on moderate physical disturbances, such as grazing and mowing. The aim of this study was to test whether the diversity, structure and composition of OrM fungal community are influenced by the orchid patches and management intensity in semi-natural grasslands. We detected putative OrM fungi from 0 to 32 m away from the patches of host orchid species (Orchis militaris and Platanthera chlorantha) in 21 semi-natural calcareous grasslands using pyrosequencing. In addition, we assessed different ecological conditions in semi-natural grasslands but primarily focused on the effect of grazing intensity on OrM fungal communities in soil. We found that investigated orchid species were mostly associated with Ceratobasidiaceae and Tulasnellaceae and, to a lesser extent, with Sebacinales. Of all the examined factors, the intensity of grazing explained the largest proportion of variation in OrM fungal as well as total fungal community composition in soil. Spatial analyses showed limited evidence for spatial clustering of OrM fungi and their dependence on host orchids. Our results indicate that habitat management can shape OrM fungal communities, and the spatial distribution of these fungi appears to be weakly structured outside the orchid patches.

Published

2016

6. Experimental evidence of ericoid mycorrhizal potential within Serendipitaceae (Sebacinales)

Author

Judith Fehrer, Martin Vohník, Marc-André Selosse, and Matěj Pánek

Subjects

0106 biological sciences, 0301 basic medicine, food.ingredient, Plant Science, Fungus, Plant Roots, 01 natural sciences, Chlamydospore, 03 medical and health sciences, food, Mycorrhizae, Botany, Genetics, Ericoid mycorrhiza, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Host (biology), Basidiomycota, fungi, Sebacinales, General Medicine, biology.organism_classification, 030104 developmental biology, Seedlings, Ericaceae, Piriformospora, Serendipita, 010606 plant biology & botany

Abstract

The Sebacinales are a monophyletic group of ubiquitous hymenomycetous mycobionts which form ericoid and orchid mycorrhizae, ecto- and ectendomycorrhizae, and nonspecific root endophytic associations with a wide spectrum of plants. However, due to the complete lack of fungal isolates derived from Ericaceae roots, the Sebacinales ericoid mycorrhizal (ErM) potential has not yet been tested experimentally. Here, we report for the first time isolation of a serendipitoid (formerly Sebacinales Group B) mycobiont from Ericaceae which survived in pure culture for several years. This allowed us to test its ability to form ericoid mycorrhizae with an Ericaceae host in vitro, to describe its development and colonization pattern in host roots over time, and to compare its performance with typical ErM fungi and other serendipitoids derived from non-Ericaceae hosts. Out of ten serendipitoid isolates tested, eight intracellularly colonized Vaccinium hair roots, but only the Ericaceae-derived isolate repeatedly formed typical ericoid mycorrhiza morphologically identical to ericoid mycorrhiza commonly found in naturally colonized Ericaceae, but yet different from ericoid mycorrhiza formed in vitro by the prominent ascomycetous ErM fungus Rhizoscyphus ericae. One Orchidaceae-derived isolate repeatedly formed abundant hyaline intracellular microsclerotia morphologically identical to those occasionally found in naturally colonized Ericaceae, and an isolate of Serendipita (= Piriformospora) indica produced abundant intracellular chlamydospores typical of this species. Our results confirm for the first time experimentally that some Sebacinales can form ericoid mycorrhiza, point to their broad endophytic potential in Ericaceae hosts, and suggest possible ericoid mycorrhizal specificity in Serendipitaceae.

Published

2016

7. Non-specific symbiotic germination of Cynorkis purpurea (Thouars) Kraezl., a habitat-specific terrestrial orchid from the Central Highlands of Madagascar

Author

Kazutomo Yokoya, Emily Schofield, Lawrence W. Zettler, Megan Rafter, and Viswambharan Sarasan

Subjects

0106 biological sciences, Conservation of Natural Resources, Ceratobasidium, Tulasnella, Germination, Plant Science, 010603 evolutionary biology, 01 natural sciences, Botany, Madagascar, Genetics, Orchidaceae, Symbiosis, Molecular Biology, Ecology, Evolution, Behavior and Systematics, biology, Basidiomycota, Sebacinales, General Medicine, biology.organism_classification, Seedlings, Seedling, Polystachya concreta, Sebacina, 010606 plant biology & botany

Abstract

Orchids, particularly terrestrial taxa, rely mostly on basidiomycete fungi in the Cantharellales and Sebacinales that trigger the process of seed germination and/or initiate the full development of the seedling. During the course of development, orchids may associate with the same fungus, or they may enlist other types of fungi for their developmental needs leading to resilience in a natural setting. This study examined in vitro seed germination and seedling developmental behavior of Cynorkis purpurea, a terrestrial orchid from the Central Highlands of Madagascar. This species is mostly restricted to gallery forests in the Itremo Massif, in moist substrate between rocks bordering streams. The main objective was to understand the influence of diverse mycorrhizal fungi on seed germination and further development of C. purpurea. The study aims to compare symbiotic versus asymbiotic germination and seedling development with seeds and fungi collected from a 13-km(2) area in the Itremo region. Seeds collected from the wild were sown with diverse orchid mycorrhizal fungi (OMF) spanning 12 operational taxonomic units (OTUs) in three genera (Tulasnella, Ceratobasidium, and Sebacina) acquired from different habitats. Treatments were assessed in terms of the percentage of germinated seeds and fully developed seedlings against those in asymbiotic control media treatments. Overall, OMF significantly improved seedling development within the 12-week experiment period. Sebacina as a genus was the most effective at promoting seedling development of C. purpurea, as well as having the ability to enter into successful symbiotic relationships with orchids of different life forms; this new knowledge may be especially useful for orchid conservation practiced in tropical areas like Madagascar. A Sebacina isolate from an epiphytic seedling of Polystachya concreta was the most effective at inducing rapid seedling development and was among the five that outperformed fungi isolated from roots of C. purpurea. C. purpurea was found to be a mycorrhizal generalist, despite its specific habitat preference, highlighting the complex interaction between the plant, fungi, and the environment. The potential impact on conservation strategies of understanding the requirements for orchid seed germination and development by identifying and using OMF from diverse sources is discussed in detail.

Published

2016

8. Morphology and molecules: the Sebacinales, a case study

Author

Sigisfredo Garnica, Robert Bauer, Franz Oberwinkler, and Kai Riess

Subjects

food.ingredient, biology, Sebacinales, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Type species, Monophyly, food, Taxon, Botany, Piriformospora, Tremellodendron, Serendipita, Sebacina, Ecology, Evolution, Behavior and Systematics

Abstract

Morphological and molecular discrepancies in the biodiversity of monophyletic groups are challenging. The intention of this study was to find out whether the high molecular diversity in Sebacinales can be verified by micromorphological characteristics. Therefore, we carried out molecular and morphological studies on all generic type species of Sebacinales and additional representative taxa. Our results encouraged us to disentangle some phylogenetic and taxonomic discrepancies and to improve sebacinalean classifications. This comprises generic circumscriptions and affiliations, as well as higher taxon groupings. At the family level, we redefined the Sebacinaceae, formerly the Sebacinales group A, and set it apart from the Sebacinales group B. For taxonomical purposes, it seems appropriate to refer Paulisebacina, Craterocolla, Chaetospermum, Globulisebacina, Tremelloscypha, and Sebacina to the Sebacinaceae and Piriformospora, and Serendipita to the Sebacinales group B. At the lower taxonomic level, we propose within the Sebacinaceae (1) to introduce Paulisebacina for Sebacina allantoidea, (2) to transfer Efibulobasidium rolleyi into a new monotypic genus, Globulisebacina, (3) to include Tremellostereum in Tremelloscypha, (4) to transfer Sebacina amesii into Tremelloscypha, (5) to combine S. helvelloides and S. concrescens in their own genus, Helvellosebacina, (6) to transfer Tremellodendron spp. into Sebacina, (7) to define S. epigaea s.str. without cystidia and flagelliform dikaryophyses, but with star-shaped resting spores, and (8) to separate S. cystidiata with simultaneously irregular germinating spores and inconspicuous cystidia, and S. flagelliformis with flagelliform dikaryophyses from S. epigaea s.str. Additional clades in Sebacina, based on molecular differences, cannot be distinguished morphologically at present.

Published

2014

9. Endophytic and mycorrhizal fungi associated with roots of endangered native orchids from the Atlantic Forest, Brazil

Author

Tomás Gomes Reis Veloso, Melissa Faust Bocayuva, Sabrina Feliciano Oliveira, Maria Catarina Megumi Kasuya, Cynthia Canêdo da Silva, Denise Mara Soares Bazzolli, and Olinto Liparini Pereira

Subjects

Endangered species, Plant Science, Plant Roots, Plant use of endophytic fungi in defense, Trees, Soil, Diversity index, Cantharellales, Mycorrhizae, DNA, Ribosomal Spacer, Botany, Endophytes, Genetics, Orchidaceae, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Ecology, Endangered Species, Fungi, Sebacinales, Biodiversity, General Medicine, biology.organism_classification, Helotiales, Threatened species, Species richness, Brazil

Abstract

The composition and diversity of fungal commu- nities associated with three endangered orchid species, Hadrolaelia jongheana, Hoffmannseggella caulescens, and Hoffmannseggella cinnabarina, found in different vegeta- tion formations of the Atlantic Forest were determined by constructing clone libraries and by applying diversity and richness indices. Our results demonstrated the presence of Basidiomycetes. Sebacinales (81.61 %) and Cantharellales (12.10 %) were the dominant orders and are potential candi- dates for orchid mycorrhizal fungi. The Ascomycetes iden- tified included the Helotiales (29.31 %), Capnodiales (18.10 %), and Sordariales (10.34 %), among others. These orders may represent potentially endophytic fungi. A Shannon-Wiener diversity index (H') analysis showed a relatively high fungal community diversity associated with these tropical orchids. This diversity may offer greater flex- ibility in terms of the adaptation of the plants to changing environmental conditions and the potential facilitation of reintroduction programs. The Simpson diversity index values showed that all of the libraries included dominant species, and a LIBSHUFF analysis showed that the fungal communities were structurally different from each other, suggesting an influence of local factors on this diversity. This study offers important information for the development of conservation strategies for threatened and endemic species of Brazilian flora in an important and threatened hotspot.

Published

2013

10. The rare terrestrial orchid Nervilia nipponica consistently associates with a single group of novel mycobionts

Author

Stephan W. Gale, Kentaro Hosaka, Hidetaka Umata, Tomohisa Yukawa, Ayako Maeda, Naofumi Nomura, and Yuki Ogura-Tsujita

Subjects

Molecular Sequence Data, Population, Plant Science, DNA, Ribosomal, Host Specificity, Agaricomycetes, Monophyly, Japan, Phylogenetics, Mycorrhizae, DNA, Ribosomal Spacer, RNA, Ribosomal, 28S, Botany, DNA, Fungal, Orchidaceae, Symbiosis, Clade, education, Phylogeny, education.field_of_study, Base Sequence, biology, Basidiomycota, Sebacinales, Ceratobasidiaceae, Sequence Analysis, DNA, biology.organism_classification

Abstract

Nervilia nipponica is a tuberous terrestrial orchid that has a highly restricted distribution within common secondary evergreen forest communities in central and western Japan. Such a limited occurrence could be attributable to a requirement for a specific mycorrhizal fungus. As part of a broader examination of this hypothesis, we sought to elucidate the mycorrhizal associations of N. nipponica. Seventy-five samples of mycorrhizae from forty individuals were collected at ten populations throughout the orchid's range in Japan. The identity of mycorrhizal fungi was investigated by sequencing two genetic markers (nrDNA ITS and nrDNA 28S LSU) and their relationships were assessed via phylogenetic analyses. The most frequently encountered mycorrhizal fungi consisted of four closely related Agaricomycetes that infected an average of 78.7 % of individuals per population. All four formed a discrete, monophyletic clade with low sequence homology to other fungi registered in GenBank, indicating that they belong to a novel, unnamed family. Two additional fungal groups, belonging to Ceratobasidiaceae and "Group B" Sebacinales, were found in 22.0 and 21.5 % of individuals per population, respectively. The orchid probably uses these two groups opportunistically, because they were found at lower densities and always in combination with the unidentified Agaricomycete. These findings suggest that a group of novel Agaricomycete fungi constitutes the dominant mycobiont of N. nipponica.

Published

2013

11. Enigmatic Sebacinales

Author

Kai Riess, Franz Oberwinkler, Alga Zuccaro, Michael Weiß, Robert Bauer, Marc-André Selosse, and Sigisfredo Garnica

Subjects

food.ingredient, biology, Phylogenetic tree, Biodiversity, Sebacinales, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), food, Evolutionary biology, Ectomycorrhizae, Piriformospora, Sebacina, Tremellodendron, Serendipita, Ecology, Evolution, Behavior and Systematics

Abstract

A historical retrospect and a taxonomic update will deal with Sebacina s.l. and s.str., Craterocolla, Efibulobasidium, Serendipita, Tremellodendron, Tremelloscypha, Tremellostereum, and Piriformospora, the Sebacinaceae, and the Sebacinales. Phylogenetic hypotheses for the order and subordinal taxa are discussed, including environmental sequence taxa. The cryptic biodiversity in Sebacinales is extensive but mostly unresolved with respect to the species involved. Trophic stages are manifold in Sebacinales but restricted to plant dependencies. Most of the species grow endophytically or form various mycorrhizae, but Craterocolla and Efibulobasidium species appear to be saprobic. The sebacinalean mycorrhizal diversity is unparalleled: ectomycorrhizae, ericoid and orchid mycorrhizae are frequent, both in autotrophs and heterotrophs, as well as mycothalli with Jungermanniales. Mycorrhizal community structures are difficult to evaluate in Sebacinales because of the high percentage of environmental sequence taxa lacking further characteristics. Nutritional requirements and exchanges have been studied extensively in Piriformospora indica, suggesting future possibilities for agricultural applications. The genomes of this species and of Sebacina vermifera have been sequenced recently, thus opening new fields in studying and understanding functional and evolutionary aspects.

Published

2013

12. Habitat-driven variation in mycorrhizal communities in the terrestrial orchid genus Dactylorhiza

Author

Vincent S. F. T. Merckx, Rein Brys, Daniel Tyteca, Bart Lievens, Michael Waud, Hans Jacquemyn, and Mikael Hedrén

Subjects

0106 biological sciences, Population, Dactylorhiza, 010603 evolutionary biology, 01 natural sciences, Article, Species Specificity, Symbiosis, Abundance (ecology), Mycorrhizae, Botany, DNA, Fungal, Mycological Typing Techniques, Orchidaceae, education, Ecosystem, Phylogeny, education.field_of_study, Multidisciplinary, biology, Ecology, Basidiomycota, fungi, Fungal genetics, Ceratobasidiaceae, Sebacinales, Sequence Analysis, DNA, 15. Life on land, biology.organism_classification, Europe, Molecular Typing, Habitat, 010606 plant biology & botany

Abstract

Orchid species are critically dependent on mycorrhizal fungi for completion of their life cycle, particularly during the early stages of their development when nutritional resources are scarce. As such, orchid mycorrhizal fungi play an important role in the population dynamics, abundance, and spatial distribution of orchid species. However, less is known about the ecology and distribution of orchid mycorrhizal fungi. In this study, we used 454 amplicon pyrosequencing to investigate ecological and geographic variation in mycorrhizal associations in fourteen species of the orchid genus Dactylorhiza. More specifically, we tested the hypothesis that variation in orchid mycorrhizal communities resulted primarily from differences in habitat conditions where the species were growing. The results showed that all investigated Dactylorhiza species associated with a large number of fungal OTUs, the majority belonging to the Tulasnellaceae, Ceratobasidiaceae and Sebacinales. Mycorrhizal specificity was low, but significant variation in mycorrhizal community composition was observed between species inhabiting different ecological habitats. Although several fungi had a broad geographic distribution, Species Indicator Analysis revealed some fungi that were characteristic for specific habitats. Overall, these results indicate that orchid mycorrhizal fungi may have a broad geographic distribution, but that their occurrence is bounded by specific habitat conditions.

Published

2016

13. The plant strengthening root endophyte Piriformospora indica: potential application and the biology behind

Author

Philipp Franken

Subjects

Abiotic stress tolerance, Plant growth, Root (linguistics), Piriformospora indica, Inoculum formulation, Close relatives, Plant Roots, Applied Microbiology and Biotechnology, Endophyte, Host Specificity, Plant production, Botany, Endophytes, biology, Host (biology), business.industry, Basidiomycota, Sebacinales, Induced resistance, General Medicine, Mini-Review, biology.organism_classification, Biotechnology, Plant growth promotion, Piriformospora, business

Abstract

The successful conversion of plant production systems from conventional resource-exhausting to sustainable strategies depends on knowledge-based management of environmental factors. Root-inhabiting fungi came more and more into focus because their hyphae connect in ideal manner resources and challenges of the surrounding with the plant. A paradigm for such root endophytes is presented by the basidiomycete Piriformospora indica. This fungus possesses a broad host spectrum and positively affects different aspects of plant performance. This so far unique combination of attributes makes P. indica and its close relatives among the Sebacinales very interesting tools for cultivation of various crops. This review will outline the different aspects required to apply this root endophyte in agri- and horticulture concerning plant growth, plant nutrition and plant defence or tolerance thereby explaining what is known about the biological basis for the observed effects. Open questions and challenges for successful inoculum production and application will be discussed.

Published

2012

14. A clustering optimization strategy to estimate species richness of Sebacinales in the tropical Andes based on molecular sequences from distinct DNA regions

Author

Sigisfredo Garnica, Markus Göker, Paulo Herrera, Sabrina Setaro, and Juan Pablo Suárez

Subjects

lsu, molecular diversity, Orchidaceae, Ecology, biology, Biodiversity, Sebacinales, ericaceae, biology.organism_classification, ribosomal dna, mycorrhizal fungi, Ericaceae, orchids, its, Species richness, species richness, tropical mountain rain forest, Internal transcribed spacer, Cluster analysis, Ribosomal DNA, Ecology, Evolution, Behavior and Systematics, biodiversity, Nature and Landscape Conservation

Abstract

Fungi are believed to be diverse in the tropics, but because many groups are only known from their DNA sequences this hampers comparative diversity studies. We investigated mycorrhizal Sebacinales (Basidiomycota) of 67 individuals of Ericaceae and Orchidaceae in a tropical mountain ecosystem in Southern Ecuador to provide a first estimate of whether these fungi are particularly diverse in the Northern Andes. We partially sequenced the internal transcribed spacer (ITS) and large subunit (LSU) regions of the nuclear ribosomal DNA and analyzed them together with all Sebacinales sequences available from GenBank. The clustering optimization technique was used to determine clustering parameters that maximize the comparability between molecular operational taxonomic units (MOTUs) obtained from the distinct loci. Sampling effort and species richness were estimated with rarefaction-accumulation curves and non-parametric estimation using Chao2 and compared between Southern Ecuador and France. Clustering optimization indicated that a 1% LSU distance threshold corresponds to the commonly used 3% dissimilarity threshold for ITS, and that a clustering algorithm close to single-linkage clustering is optimal. The resulting clusters show that about 8-9% of observed Sebacinales MOTUs occur in the study area and that most of these MOTUs are endemic (74%). The widespread MOTUs from Southern Ecuador were also found in Panama, North America and Europe. The estimation of species richness revealed unsaturated sampling of Sebacinales in general and also in our study area. Our results suggest a high diversity of Sebacinales associated with Ericaceae and Orchidaceae at the study site in Southern Ecuador, but no hotspot of Sebacinales in comparison with other areas. © 2011 Springer Science+Business Media B.V.

Published

2011

15. Piriformospora indica, a cultivable root endophyte with multiple biotechnological applications

Author

Ajit Varma, Irena Sherameti, Ralf Oelmüller, and Swati Tripathi

Subjects

biology, Biofertilizer, fungi, food and beverages, Sebacinales, Fungus, biology.organism_classification, Endophyte, Pteridophyte, Botany, Piriformospora, Hordeum vulgare, General Agricultural and Biological Sciences, Woody plant

Abstract

Piriformospora indica is a wide-host root-colonizing endophytic fungus which allows the plants to grow under extreme physical and nutrient stress. The fungus can be cultivated on complex and minimal substrates. It belongs to the Sebacinales in Basidiomycota. P. indica has a vast geographical distribution and is reported from Asia, South America and Australia. The fungus is interesting for basic research as well as biotechnological applications because: (i) it functions as a plant promoter and biofertilizer in nutrient-deficient soils, (ii) as a bioprotector against biotic and abiotic stresses including root and leaf fungus pathogens and insect invaders, (iii) as a bioregulator for plant growth development, early flowering, enhanced seed production, and stimulation of active ingredients in medicinal plants (iv) as well as a bio-agent for the hardening of tissue-culture-raised plants. Positive interaction are established for many plants of economic importance in arboriculture, agro-forestry, flori-horticulture including Orchids, and those utilized for energy production and paper industry. P. indica also interacts with members of bryophyte, Aneura pinguis, pteridophyte, Pteris ensiormis, Gymnosperms (Pinus halepensis) and a large number of angiosperms (145 tested till date) including the model plant Arabidopsis thaliana and other members of the mustard family. Similar to arbuscular mycorrhizal fungi, P. indica stimulates nutrient uptake in the roots and solubilizes insoluble phosphatic and sulphur components in the soil. The interaction of P. indica with the model plants Arabidopsis thaliana and barley (Hordeum vulgare L.) is used to understand the molecular basis of this beneficial plant/microbe interaction. We describe the current knowledge about the molecular basis of the interaction of plants with P. indica. An attempt is made to compare it with pathogenic and mycorrhizal plant/microbe interactions and also propose possible biotechnological applications.

Published

2009

16. Role of Diverse Non-Systemic Fungal Endophytes in Plant Performance and Response to Stress: Progress and Approaches

Author

Chu-Long Zhang, Fu-Cheng Lin, and Zhilin Yuan

Subjects

Mutualism (biology), biology, Abiotic stress, Ecology, fungi, food and beverages, Sebacinales, Plant Science, Plant disease resistance, biology.organism_classification, Commensalism, Symbiosis, Trichoderma, Botany, Piriformospora, Agronomy and Crop Science

Abstract

Plant–fungal symbiotic associations are ubiquitously distributed in natural plant communities. Besides the well-studied mycorrhizal symbiosis and grass systemic clavicipitaceous endophytes, recently, nonsystemic and horizontally transmitted fungal endophytes serving as plant symbionts have been increasingly recognized. Pure culture isolation and culture-independent molecular methods indicate that all parts of healthy plant tissues potentially harbor diverse and previously unknown fungal lineages. Limited evidence also supports a hypothesis that endophytic mycobiota dynamics may have a role in evolution of plants. High variability or “balanced antagonism” can be generally characterized with host–endophyte interactions, which implies that the outcome of symbiotic interactions can fall within a continuum ranging from mutualism to commensalism, and ultimately pathogenicity. Despite this complicated system, admittedly, fungal endophytes really endow the host with an extended phenotype. Accumulating facts illustrate that plant nutrition acquisition, metabolism, and stress tolerance may be strengthened or modulated via fungal symbionts. Piriformospora indica, a member of the order Sebacinales, simultaneously confers host resistance to biotic and abiotic stress. The ecological relevance of other fungal groups, including foliar endophytes, root dark septate endophytes (DSEs), some opportunistic and avirulent microsymbionts (for example, Trichoderma and Fusarium), and even uncultured fungi structurally and physiologically integrated with host tissues, are also being deeply exploited. Production of bioactive metabolites by fungi, overexpression of stress-related enzymes, and induced resistance in hosts upon fungal colonization are responsible for direct or indirect beneficial effects to hosts. More knowledge of endophyte-mediated enhancement of host performance and fitness will offer alternatively valuable strategies for plant cultivation and breeding. Meanwhile, with unprecedented loss of biodiversity, discovery of indigenously novel symbiotic endophytes from natural habitats is urgently needed. In addition, we present some approaches and suggestions for studying host–endophyte interactions.

Published

2009

17. Heterobasidiomycetes from Belize

Author

Peter Roberts

Subjects

Heterobasidiomycetes, biology, Synonym (taxonomy), Genus, Botany, Septobasidium, Auriculariales, Sebacinales, Plant Science, Tremellales, biology.organism_classification, Sebacina, Ecology, Evolution, Behavior and Systematics

Abstract

Twenty-eight species of heterobasidiomycetes (phylum Basidiomycota) belonging to the orders Auriculariales, Dacrymycetales, Exidiales, Platygloeales, Sebacinales, Septobasidiales and Tremellales from Belize are described or reported. Endoperplexa phlebioides, Heterochaete pentadelphai and Sebacina pileata are described as new. The genus Aphelariopsis is considered a possible synonym of Septobasidium and the new combination Septobasidium kupemontis is proposed. The new combination Endoperplexa obscura is also proposed.

Published

2008

18. Sebacina aureomagnifica, a new heterobasidiomycete from the Atlantic Forest of northeast Brazil

Author

Mariana C. A. Sá, M. Catherine Aime, Felipe G. B. Pinheiro, Tine Grebenc, Iuri Goulart Baseia, Marcelo A. Sulzbacher, Felipe Wartchow, Marc-André Selosse, and Clark L. Ovrebo

Subjects

Sebacinaceae, biology, Ecology, Northeast brazil, Atlantic forest, Sebacinales, Taxonomy (biology), biology.organism_classification, Sebacina, Agricultural and Biological Sciences (miscellaneous), Ribosomal DNA, Ecology, Evolution, Behavior and Systematics

Abstract

Sebacina aureomagnifica is described as a new species based on collections from the Atlantic Forest of Paraiba and Rio Grande do Norte, in northeastern Brazil, and is molecularly attributed to the genus Sebacina based on its ribosomal DNA sequence. A striking feature of this newly described fungus is the production of erect, gelatinous yellow basidiomes growing epigeously.

Published

2015

19. Anatomy and ultrastructure of mycorrhizal associations of neotropical Ericaceae

Author

Sabrina Setaro, Ingrid Kottke, and Franz Oberwinkler

Subjects

Arbuscular mycorrhiza, Hartig net, Ericoideae, biology, Ericaceae, Botany, Ericoid mycorrhiza, Sebacinales, Mycorrhiza, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Ecology, Evolution, Behavior and Systematics, Cavendishia

Abstract

Ericaceae are obligatory associated with symbiotic fungi forming several, distinctive categories of mycorrhizas. While ericoid, arbutoid, and monotropoid mycorrhizas are known since many years from ericads of the northern hemisphere and the ericoid mycorrhiza also from Australia, a further mycorrhizal category with hyphal sheath, Hartig net, and intracellular colonization was described by us recently and termed cavendishioid mycorrhiza because it was found on Cavendishia nobilis, a species belonging to the Andean clade (Vaccinioideae) of Ericaceae. As the previous findings indicated a correlation between the mycorrhizal category and the systematic position of Ericaceae, we tested the hypothesis that other ericads of the Andean clade might also form cavendishioid mycorrhizas, while ericads occurring in the same area but not belonging to the Andean clade might not. Mycorrhizas of 20 different ericaceous species, 15 belonging to the Andean clade and 5 to other Vaccinioideae or Ericoideae, were sampled in the tropical mountain rain forest area of South Ecuador and investigated by light and electron microscopy. All the 15 members of the Andean clade ericads displayed a hyphal sheath, as well as inter- and intracellular colonization by hyphae as was found on Cavendishia previously. The five species not belonging to the Andean clade ericads displayed only intracellular colonization by hyphae and hence were typical ericoid mycorrhizal. Ultrastructural studies revealed Sebacinales and ascomycetes as mycorrhiza formers in both associations even within one single cell. The results thus support the hypothesis that the Andean clade of Ericaceae forms mycorrhizas distinct from the arbutoid category and most likely presents an independent evolutionary line in the Ericaceae derived from the ericoid mycorrhizas, justifying the new term “cavendishioid mycorrhiza”.

Published

2006

20. Are Sebacinaceae common and widespread ectomycorrhizal associates of Eucalyptus species in Australian forests?

Author

Philip A. O’Brien, I.C. Tommerup, Morag Glen, and N.L. Bougher

Subjects

Eucalyptus, Phylogenetic tree, biology, Basidiomycota, Australia, Sebacinales, Sequence Analysis, DNA, Plant Science, General Medicine, biology.organism_classification, Polymerase Chain Reaction, Plant use of endophytic fungi in defense, Trees, Ectomycorrhiza, Intergenic region, Mycorrhizae, Botany, Genetics, Mycorrhiza, Restriction fragment length polymorphism, Eucalyptus marginata, Molecular Biology, Polymorphism, Restriction Fragment Length, Ecology, Evolution, Behavior and Systematics

Abstract

A molecular survey of basidiomycete ectomycorrhizal fungi colonising root tips at a site in Eucalyptus marginata (jarrah) forest revealed the presence of many fungal species which could not be identified from a database of ITS-PCR-RFLP profiles from morphologically identified species. Three of these unidentified taxa were among the six most frequently encountered profiles. Phylogenetic analyses of ITS and nuclear LSU sequences revealed a close relationship among the three fungi and that they belong to the family Sebacinaceae (sensu Weiss and Oberwinkler 2001). The possibility that DNA of non-ectomycorrhizal rhizosphere or endophytic fungi had been amplified selectively by the basidiomycete-specific primers was tested by amplification with fungal-specific primers. A single PCR fragment was amplified in all but two of the 24 samples tested and digestion with two restriction enzymes produced RFLP profiles which matched those from the Sebacinoid sequence. We conclude, therefore, that at least three species of Sebacinaceae are common ectomycorrhizal associates of E. marginata.

Published

2002

21. High genetic diversity at the regional scale and possible speciation in Sebacina epigaea and S. incrustans

Author

Robert Bauer, Sigisfredo Garnica, Franz Oberwinkler, and Kai Riess

Subjects

Species complex, Synonymous polymorphism, Genetic Speciation, Speciation, Multilocus genealogies, Lineage (evolution), Molecular Sequence Data, Population, Biology, Population structure, DNA, Ribosomal, Evolution, Molecular, Fungal Proteins, Genetic variation, DNA, Fungal, education, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genetics, Diversity, education.field_of_study, Genetic diversity, Base Sequence, Phylogenetic tree, Basidiomycota, Genetic Variation, Sebacinales, Ectomycorrhiza, Sympatry, Evolutionary biology, Genetic marker, Cryptic species, Research Article

Abstract

Background Phylogenetic studies, particularly those based on rDNA sequences from plant roots and basidiomata, have revealed a strikingly high genetic diversity in the Sebacinales. However, the factors determining this genetic diversity at higher and lower taxonomic levels within this order are still unknown. In this study, we analysed patterns of genetic variation within two morphological species, Sebacina epigaea and S. incrustans, based on 340 DNA haplotype sequences of independent genetic markers from the nuclear (ITS + 5.8S + D1/D2, RPB2) and mitochondrial (ATP6) genomes for 98 population samples. By characterising the genetic population structure within these species, we provide insights into species boundaries and the possible factors responsible for genetic diversity at a regional geographic scale. Results We found that recombination events are relatively common between natural populations within Sebacina epigaea and S. incrustans, and play a significant role in generating intraspecific genetic diversity. Furthermore, we also found that RPB2 and ATP6 genes display higher levels of intraspecific synonymous polymorphism. Phylogenetic and demographic analyses based on nuclear and mitochondrial loci revealed three distinct phylogenetic lineages within of each of the morphospecies S. epigaea and S. incrustans: one major and widely distributed lineage, and two geographically restricted lineages, respectively. We found almost no differential morphological or ecological characteristics that could be used to discriminate between these lineages. Conclusions Our results suggest that recombination and negative selection have played significant roles in generating genetic diversity within these morphological species at small geographical scales. Concordance between gene genealogies identified lineages/cryptic species that have evolved independently for a relatively long period of time. These putative species were not associated with geographic provenance, geographic barrier, host preference or distinct phenotypic innovations.

Published

2013