Your search keyword '"Martin Kemler"' showing total 15 results

1. Species diversity of Basidiomycota

Author

Mao-Qiang He, Rui-Lin Zhao, Dong-Mei Liu, Teodor T. Denchev, Dominik Begerow, Andrey Yurkov, Martin Kemler, Ana M. Millanes, Mats Wedin, A. R. McTaggart, Roger G. Shivas, Bart Buyck, Jie Chen, Alfredo Vizzini, Viktor Papp, Ivan V. Zmitrovich, Naveed Davoodian, and Kevin D. Hyde

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

2. Fungal diversity notes 1387–1511: taxonomic and phylogenetic contributions on genera and species of fungal taxa

Author

Saranyaphat Boonmee, Dhanushka N. Wanasinghe, Mark S. Calabon, Naruemon Huanraluek, Sajini K. U. Chandrasiri, Gareth E. B. Jones, Walter Rossi, Marco Leonardi, Sanjay K. Singh, Shiwali Rana, Paras N. Singh, Deepak K. Maurya, Ajay C. Lagashetti, Deepika Choudhary, Yu-Cheng Dai, Chang-Lin Zhao, Yan-Hong Mu, Hai-Sheng Yuan, Shuang-Hui He, Rungtiwa Phookamsak, Hong-Bo Jiang, María P. Martín, Margarita Dueñas, M. Teresa Telleria, Izabela L. Kałucka, Andrzej M. Jagodziński, Kare Liimatainen, Diana S. Pereira, Alan J. L. Phillips, Nakarin Suwannarach, Jaturong Kumla, Surapong Khuna, Saisamorn Lumyong, Tarynn B. Potter, Roger G. Shivas, Adam H. Sparks, Niloofar Vaghefi, Mohamed A. Abdel-Wahab, Faten A. Abdel-Aziz, Guo-Jie Li, Wen-Fei Lin, Upendra Singh, Rajendra P. Bhatt, Hyang Burm Lee, Thuong T. T. Nguyen, Paul M. Kirk, Arun Kumar Dutta, Krishnendu Acharya, V. Venkateswara Sarma, M. Niranjan, Kunhiraman C. Rajeshkumar, Nikhil Ashtekar, Sneha Lad, Nalin N. Wijayawardene, Darbe J. Bhat, Rong-Ju Xu, Subodini N. Wijesinghe, Hong-Wei Shen, Zong-Long Luo, Jing-Yi Zhang, Phongeun Sysouphanthong, Naritsada Thongklang, Dan-Feng Bao, Janith V. S. Aluthmuhandiram, Jafar Abdollahzadeh, Alireza Javadi, Francesco Dovana, Muhammad Usman, Abdul Nasir Khalid, Asha J. Dissanayake, Anusha Telagathoti, Maraike Probst, Ursula Peintner, Isaac Garrido-Benavent, Lilla Bóna, Zsolt Merényi, Lajos Boros, Bratek Zoltán, J. Benjamin Stielow, Ning Jiang, Cheng-Ming Tian, Esmaeil Shams, Farzaneh Dehghanizadeh, Adel Pordel, Mohammad Javan-Nikkhah, Teodor T. Denchev, Cvetomir M. Denchev, Martin Kemler, Dominik Begerow, Chun-Ying Deng, Emma Harrower, Tohir Bozorov, Tutigul Kholmuradova, Yusufjon Gafforov, Aziz Abdurazakov, Jian-Chu Xu, Peter E. Mortimer, Guang-Cong Ren, Rajesh Jeewon, Sajeewa S. N. Maharachchikumbura, Chayanard Phukhamsakda, Ausana Mapook, and Kevin D. Hyde

Subjects

Agaricomycetes, Laboulbeniomycetes, Ecology, Leotiomycetes, Basidiomycota, Mortierellomycetes, One reference specimen, 51 new records, 72 new taxa, Ascomycota, Bartheletiomycetes, Dothideomycetes, Eurotiomycetes, Exobasidiomycetes, Mortierellomycota, Mucoromycetes, Mucoromycota, One new combination, Phylogeny, Sordariomycetes, Taxonomy, Article, Mucoromycete, Ecology, Evolution, Behavior and Systematics

Abstract

This article is the 13th contribution in the Fungal Diversity Notes series, wherein 125 taxa from four phyla, ten classes, 31 orders, 69 families, 92 genera and three genera incertae sedis are treated, demonstrating worldwide and geographic distribution. Fungal taxa described and illustrated in the present study include three new genera, 69 new species, one new combination, one reference specimen and 51 new records on new hosts and new geographical distributions. Three new genera, Cylindrotorula (Torulaceae), Scolecoleotia (Leotiales genus incertae sedis) and Xenovaginatispora (Lindomycetaceae) are introduced based on distinct phylogenetic lineages and unique morphologies. Newly described species are Aspergillus lannaensis, Cercophora dulciaquae, Cladophialophora aquatica, Coprinellus punjabensis, Cortinarius alutarius, C. mammillatus, C. quercoflocculosus, Coryneum fagi, Cruentomycena uttarakhandina, Cryptocoryneum rosae, Cyathus uniperidiolus, Cylindrotorula indica, Diaporthe chamaeropicola, Didymella azollae, Diplodia alanphillipsii, Dothiora coronicola, Efibula rodriguezarmasiae, Erysiphe salicicola, Fusarium queenslandicum, Geastrum gorgonicum, G. hansagiense, Helicosporium sexualis, Helminthosporium chiangraiensis, Hongkongmyces kokensis, Hydrophilomyces hydraenae, Hygrocybe boertmannii, Hyphoderma australosetigerum, Hyphodontia yunnanensis, Khaleijomyces umikazeana, Laboulbenia divisa, Laboulbenia triarthronis, Laccaria populina, Lactarius pallidozonarius, Lepidosphaeria strobelii, Longipedicellata megafusiformis, Lophiotrema lincangensis, Marasmius benghalensis, M. jinfoshanensis, M. subtropicus, Mariannaea camelliae, Melanographium smilaxii, Microbotryum polycnemoides, Mimeomyces digitatus, Minutisphaera thailandensis, Mortierella solitaria, Mucor harpali, Nigrograna jinghongensis, Odontia huanrenensis, O. parvispina, Paraconiothyrium ajrekarii, Parafuscosporella niloticus, Phaeocytostroma yomensis, Phaeoisaria synnematicus, Phanerochaete hainanensis, Pleopunctum thailandicum, Pleurotheciella dimorphospora, Pseudochaetosphaeronema chiangraiense, Pseudodactylaria albicolonia, Rhexoacrodictys nigrospora, Russula paravioleipes, Scolecoleotia eriocamporesi, Seriascoma honghense, Synandromyces makranczyi, Thyridaria aureobrunnea, Torula lancangjiangensis, Tubeufia longihelicospora, Wicklowia fusiformispora, Xenovaginatispora phichaiensis and Xylaria apiospora. One new combination, Pseudobactrodesmium stilboideus is proposed. A reference specimen of Comoclathris permunda is designated. New host or distribution records are provided for Acrocalymma fici, Aliquandostipite khaoyaiensis, Camarosporidiella laburni, Canalisporium caribense, Chaetoscutula juniperi, Chlorophyllum demangei, C. globosum, C. hortense, Cladophialophora abundans, Dendryphion hydei, Diaporthe foeniculina, D. pseudophoenicicola, D. pyracanthae, Dictyosporium pandanicola, Dyfrolomyces distoseptatus, Ernakulamia tanakae, Eutypa flavovirens, E. lata, Favolus septatus, Fusarium atrovinosum, F. clavum, Helicosporium luteosporum, Hermatomyces nabanheensis, Hermatomyces sphaericoides, Longipedicellata aquatica, Lophiostoma caudata, L. clematidis-vitalbae, Lophiotrema hydei, L. neoarundinaria, Marasmiellus palmivorus, Megacapitula villosa, Micropsalliota globocystis, M. gracilis, Montagnula thailandica, Neohelicosporium irregulare, N. parisporum, Paradictyoarthrinium diffractum, Phaeoisaria aquatica, Poaceascoma taiwanense, Saproamanita manicata, Spegazzinia camelliae, Submersispora variabilis, Thyronectria caudata, T. mackenziei, Tubeufia chiangmaiensis, T. roseohelicospora, Vaginatispora nypae, Wicklowia submersa, Xanthagaricus necopinatus and Xylaria haemorrhoidalis. The data presented herein are based on morphological examination of fresh specimens, coupled with analysis of phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolutionary relationships.

Published

2021

3. Delimiting species in Basidiomycota: a review

Author

Sergio P. Gorjón, Leho Tedersoo, Merje Toome-Heller, Annemieke Verbeken, Nathan Schoutteten, Dominik Begerow, Andrey Yurkov, Guo-Jie Li, Dong-Mei Liu, Viktor Papp, Bart Theelen, Rui-Lin Zhao, Bin Cao, Martin Kemler, Michal Tomšovský, Judith P. Urón, Kevin D. Hyde, Admir José Giachini, Kyryll G. Savchenko, Xin-Zhan Liu, Juan Carlos Zamora, Anton Savchenko, Jorinde Nuytinck, Marco Thines, Nina Gunde-Cimerman, Alfredo Vizzini, Danny Haelewaters, Teun Boekhout, and Evolutionary and Population Biology (IBED, FNWI)

Subjects

Ecology, biology, Phylum, Biological species concept, Morphological species concept, Phylogenetic species concept, Taxonomy, Biodiversity, Basidiomycota, biology.organism_classification, Taxon, Evolutionary biology, Mycology, Ecology, Evolution, Behavior and Systematics

Abstract

Species delimitation is one of the most fundamental processes in biology. Biodiversity undertakings, for instance, require explicit species concepts and criteria for species delimitation in order to be relevant and translatable. However, a perfect species concept does not exist for Fungi. Here, we review the species concepts commonly used in Basidiomycota, the second largest phylum of Fungi that contains some of the best known species of mushrooms, rusts, smuts, and jelly fungi. In general, best practice is to delimitate species, publish new taxa, and conduct taxonomic revisions based on as many independent lines of evidence as possible, that is, by applying a so-called unifying (or integrative) conceptual framework. However, the types of data used vary considerably from group to group. For this reason we discuss the different classes of Basidiomycota, and for each provide: (i) a general introduction with difficulties faced in species recognition, (ii) species concepts and methods for species delimitation, and (iii) community recommendations and conclusions.

Published

2021

4. The evolving species concepts used for yeasts: from phenotypes and genomes to speciation networks

Author

Edward J. Louis, M. Catherine Aime, Dominik Begerow, Joseph Heitman, Duong Vu, Marc-André Lachance, Kantarawee Khayhan, Teun Boekhout, Toni Gabaldón, Sheng Sun, Andrey Yurkov, Martin Kemler, and Evolutionary and Population Biology (IBED, FNWI)

Subjects

Comparative genomics, 0303 health sciences, Ecology, 030306 microbiology, Nomenclature, Biodiversity, Fungi, Hybrids, Review, Biology, Genome, Evolvability, 03 medical and health sciences, Evolutionary biology, Genetic algorithm, Species concepts, Ribosomal DNA, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Hybrid, Taxonomy

Abstract

Here we review how evolving species concepts have been applied to understand yeast diversity. Initially, a phenotypic species concept was utilized taking into consideration morphological aspects of colonies and cells, and growth profiles. Later the biological species concept was added, which applied data from mating experiments. Biophysical measurements of DNA similarity between isolates were an early measure that became more broadly applied with the advent of sequencing technology, leading to a sequence-based species concept using comparisons of parts of the ribosomal DNA. At present phylogenetic species concepts that employ sequence data of rDNA and other genes are universally applied in fungal taxonomy, including yeasts, because various studies revealed a relatively good correlation between the biological species concept and sequence divergence. The application of genome information is becoming increasingly common, and we strongly recommend the use of complete, rather than draft genomes to improve our understanding of species and their genome and genetic dynamics. Complete genomes allow in-depth comparisons on the evolvability of genomes and, consequently, of the species to which they belong. Hybridization seems a relatively common phenomenon and has been observed in all major fungal lineages that contain yeasts. Note that hybrids may greatly differ in their post-hybridization development. Future in-depth studies, initially using some model species or complexes may shift the traditional species concept as isolated clusters of genetically compatible isolates to a cohesive speciation network in which such clusters are interconnected by genetic processes, such as hybridization.

Published

2021

5. Notes, outline and divergence times of Basidiomycota

Author

Yi Jian Yao, Eske De Crop, Guo Jie Li, Zhi Lin Ling, Zdenko Tkalčec, Alfredo Justo, Tai Hui Li, Paul M. Kirk, An Qi Liu, R. Henrik Nilsson, Kevin D. Hyde, Annemieke Verbeken, László Nagy, Cheewangkoon Ratchadawan, Else C. Vellinga, Gregory M. Mueller, Santiago Sánchez-Ramírez, Marcelo Aloisio Sulzbacher, Andrey Yurkov, Bao-Kai Cui, Alexandre G. S. Silva-Filho, Damien Ertz, Dominik Begerow, Mao Qiang He, Makoto Kakishima, Nalin N. Wijayawardene, Jorinde Nuytinck, Arun Kumar Dutta, Michael Weiß, Viktor Papp, József Geml, Ming Zhe Zhang, Teun Boekhout, Vladimír Antonín, Tie Zheng Wei, Jack W. Fell, Nelson Menolli, Ivan V. Zmitrovich, Egon Horak, Alfredo Vizzini, Machiel E. Noordeloos, Armin Mešić, Xin Zhan Liu, Young Woon Lim, Rui-Lin Zhao, Xin Yu Zhu, Ricardo Valenzuela, Danny Haelewaters, Eric H. C. McKenzie, Shuang Hui He, Felipe Wartchow, Admir José Giachini, Jean-Marc Moncalvo, Takamichi Orihara, Masoomeh Ghobad-Nejhad, Bálint Dima, Tatiana Baptista Gibertoni, Brendan P. Hodkinson, Olivier Raspé, Tamotsu Hoshino, Cony Decock, Chang Lin Zhao, Martin Kemler, Nathan Schoutteten, Sergio P. Gorjón, Mario Rajchenberg, Bart Buyck, Roy E. Halling, Bin Cao, Bianca Denise Barbosa da Silva, and UCL - SST/ELI/ELIM - Applied Microbiology

Subjects

0106 biological sciences, Evolution, MUSHROOM-FORMING FUNGI, Plant Science, ATLANTIC RAIN-FOREST, 010603 evolutionary biology, 01 natural sciences, MARASMIUS SECTION GLOBULARES, 030308 mycology & parasitology, 03 medical and health sciences, Behavior and Systematics, Phylogenetics, Genus, Systematics, Agaricomycotina, Pucciniomycotina, GENUS ENTOLOMA BASIDIOMYCOTA, Biology, Ecology, Evolution, Behavior and Systematics, Taxonomy, 0303 health sciences, Ustilaginomycotina, Ecology, biology, Phylogenetic tree, Phylum, Molecular clock, WOOD-INHABITING FUNGI, Fungi, Biology and Life Sciences, SP-NOV BASIDIOMYCOTA, NEW-SOUTH-WALES, 15. Life on land, Classification, Classification, biology.organism_classification, INTERNAL TRANSCRIBED SPACER, Type species, Evolutionary biology, WHITE-ROT FUNGUS, SAO-PAULO STATE

Abstract

The Basidiomycota constitutes a major phylum of the kingdom Fungi and is second in species numbers to the Ascomycota. The present work provides an overview of all validly published, currently used basidiomycete genera to date in a single document. An outline of all genera of Basidiomycota is provided, which includes 1928 currently used genera names, with 1263 synonyms, which are distributed in 241 families, 68 orders, 18 classes and four subphyla. We provide brief notes for each accepted genus including information on classification, number of accepted species, type species, life mode, habitat, distribution, and sequence information. Furthermore, three phylogenetic analyses with combined LSU, SSU, 5.8s, rpb1, rpb2, and ef1 datasets for the subphyla Agaricomycotina, Pucciniomycotina and Ustilaginomycotina are conducted, respectively. Divergence time estimates are provided to the family level with 632 species from 62 orders, 168 families and 605 genera. Our study indicates that the divergence times of the subphyla in Basidiomycota are 406–430 Mya, classes are 211–383 Mya, and orders are 99–323 Mya, which are largely consistent with previous studies. In this study, all phylogenetically supported families were dated, with the families of Agaricomycotina diverging from 27–178 Mya, Pucciniomycotina from 85–222 Mya, and Ustilaginomycotina from 79–177 Mya. Divergence times as additional criterion in ranking provide additional evidence to resolve taxonomic problems in the Basidiomycota taxonomic system, and also provide a better understanding of their phylogeny and evolution.

Published

2019

6. Correction to: The evolving species concepts used for yeasts: from phenotypes and genomes to speciation networks

Author

Andrey Yurkov, Sheng Sun, Dominik Begerow, Teun Boekhout, Marc-André Lachance, Edward J. Louis, M. Catherine Aime, Martin Kemler, Toni Gabaldón, Duong Vu, Joseph Heitman, and Kantarawee Khayhan

Subjects

Ecology, Microbial ecology, Evolutionary biology, Mycology, Genetic algorithm, Biodiversity, Biology, Genome, Phenotype, Ecology, Evolution, Behavior and Systematics

Published

2021

7. Flooding Duration Affects the Structure of Terrestrial and Aquatic Microbial Eukaryotic Communities

Author

Jens Boenigk, Nadine Graupner, Moritz Mittelbach, Derek Peršoh, Martin Kemler, Dominik Begerow, and Oliver Röhl

Subjects

0106 biological sciences, 0301 basic medicine, Operational taxonomic unit, Climate Change, Soil Science, Climate change, Biology, 010603 evolutionary biology, 01 natural sciences, Mesocosm, Soil, 03 medical and health sciences, Chlorides, Microbial ecology, Ammonium Compounds, parasitic diseases, Ecosystem, Phylogeny, Soil Microbiology, Ecology, Evolution, Behavior and Systematics, Abiotic component, Ecology, Microbiota, fungi, Flooding (psychology), Community structure, Eukaryota, Genes, rRNA, Biodiversity, DNA, Floods, 030104 developmental biology, Habitat, Water Microbiology, Biologie

Abstract

The increasing number and duration of inundations is reported to be a consequence of climate change and may severely compromise non-adapted macroorganisms. The effect of flooding events on terrestrial and aquatic microbial communities is, however, less well understood. They may respond to the changed abiotic properties of their native habitat, and the native community may change due to the introduction of alien species. We designed an experiment to investigate the effect of five different flooding durations on the terrestrial and aquatic communities of eukaryotic microorganism, using the AquaFlow mesocosms. With amplicon sequencing of the small subunit (SSU) and internal transcribed spacer (ITS) rRNA gene regions, we analyzed community compositions directly before and after flooding. Subsequently, they were monitored for another 28 days, to determine the sustainability of community changes. Our results revealed a temporary increase in similarity between terrestrial and aquatic communities according to OTU composition (operational taxonomic unit, serves as a proxy for species). Increased similarity was mainly caused by the transmission of OTUs from water to soil. A minority of these were able to persist in soil until the end of the experiment. By contrast, the vast majority of soil OTUs was not transmitted to water. Flooding duration affected the community structure (abundance) more than composition (occurrence). Terrestrial communities responded immediately to flooding and the flooding duration influenced the community changes. Independent from flooding duration, all terrestrial communities recovered largely after flooding, indicating a remarkable resilience to the applied disturbances. Aquatic communities responded immediately to the applied inundations too. At the end of the experiment, they grouped according to the applied flooding duration and the amount of ammonium and chloride that leached from the soil. This indicates a sustained long-term response of the aquatic communities to flooding events.

Published

2017

8. Maternal effects on phenotype, resistance and the structuring of fungal communities in Eucalyptus grandis

Author

Makobatjatji M. Mphahlele, Michael J. Wingfield, Bernard Slippers, Martin Kemler, and María Vivas

Subjects

0106 biological sciences, 0301 basic medicine, Resistance (ecology), Ecology, Maternal effect, Plant Science, Biology, 01 natural sciences, Eucalyptus, 03 medical and health sciences, 030104 developmental biology, Genome research, Botany, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

The Claude Leon Foundation, University of Pretoria, the Tree Protection Co-operative Programme, and the Genome Research Institute at the University of Pretoria.

Published

2017

9. Botryosphaeria dothidea: a latent pathogen of global importance to woody plant health

Author

Michael J. Wingfield, Pedro W. Crous, Bernard Slippers, Sanushka Naidoo, Joseph W. Spatafora, Martin Kemler, Jan Hendrik Nagel, Cedar N. Hesse, Alisa Postma-Smidt, Angelica Marsberg, Fahimeh Jami, Barbara Robbertse, and Westerdijk Fungal Biodiversity Institute - Evolutionary Phytopathology

Subjects

0106 biological sciences, 0301 basic medicine, Soil Science, latent pathogen, Botryosphaeria dothidea, Plant Science, 01 natural sciences, 03 medical and health sciences, Ascomycota, Pathogen Profile, Molecular Biology, Pathogen, Plant Diseases, biology, Ecology, quarantine, Genomics, biology.organism_classification, Wood, global pathogen, 030104 developmental biology, climate change, Host-Pathogen Interactions, endophyte, Agronomy and Crop Science, 010606 plant biology & botany, Woody plant

Abstract

Botryosphaeria dothidea is the type species of Botryosphaeria (Botryosphaeriaceae, Botryosphaeriales). Fungi residing in this order are amongst the most widespread and important canker and dieback pathogens of trees worldwide, with B. dothidea one of the most common species on a large number of hosts. Its taxonomic circumscription has undergone substantial change in the past decade, making it difficult to interpret the large volume of literature linked to the name B. dothidea. This pathogen profile synthesizes the current understanding of B. dothidea pertaining to its distribution, host associations and role as a pathogen in managed and natural woody environments. The prolonged latent infection or endophytic phase is of particular importance, as it implies that the fungus can easily pass undetected by quarantine systems in traded living plants, fruits and other plant parts. Infections typically become obvious only under conditions of host stress, when disease symptoms develop. This study also considers the knowledge emerging from the recently sequenced B. dothidea genome, elucidating previously unknown aspects of the species, including mating and host infection strategies. Despite more than 150 years of research on B. dothidea, there is clearly much to be learned regarding this global tree pathogen. This is increasingly important given the stresses imposed on various woody hosts as a result of climate change. TAXONOMY: Botryosphaeria dothidea (Moug. ex Fr) Ces. & De Not, 1863. Kingdom Fungi, Phylum Ascomycota, Class Dothideomycetes, Order Botryosphaeriales, Family Botryosphaeriaceae, Genus Botryosphaeria, Species dothidea. HOST RANGE: Confirmed on more than 24 host genera, including woody plants, such as Acacia (= Vachellia), Eucalyptus, Vitis and Pistachio. DISEASE SYMPTOMS: Associated with twig, branch and stem cankers, tip and branch dieback, fruit rot, blue stain and plant death. USEFUL WEBSITES: The Botryosphaeria site for detailed morphological descriptions (http://www.crem.fct.unl.pt/botryosphaeria_site/); Systematic Mycology and Microbiology Laboratory Fungal Database for all literature and associated hosts (https://nt.ars-grin.gov/fungaldatabases/); TreeBASE link for the combined ITS and TEF‐1α tree (http://purl.org/phylo/treebase/phylows/study/TB2:S18906); DOE Joint Genome Institute, JGI Mycocosm for the Botryosphaeria dothidea genome (http://genome.jgi.doe.gov/Botdo1_1/Botdo1_1.home.html).

Published

2017

10. Phylloplane Yeasts in Temperate Climates

Author

Dominik Begerow, Martin Kemler, Andrey Yurkov, and Frederick Witfeld

Subjects

0301 basic medicine, Abiotic component, biology, Ecology, fungi, 030106 microbiology, Biofilm, Genomics, biology.organism_classification, Sphagnum, 03 medical and health sciences, 030104 developmental biology, Habitat, Temperate climate, Ecosystem, Phyllosphere

Abstract

Yeasts are integral parts of phylloplane communities of temperate regions, where ecosystems are not only influenced by short-term fluctuations in abiotic conditions, but additionally by cyclic seasonal changes. Phylloplane yeasts possess physiological adaptations, such as pigmentation and extracellular polysaccharides that enable them to resist harsh conditions encountered in these environments. Additionally, through production of plant hormone-like metabolites, they also might influence the behavior, fitness, and growth of their plant host. Here we review how the understanding of yeasts in this environment has improved in the last years due to discoveries in new habitats, new developments in taxonomy, but also the application of environmental sequencing and genomics. These new technologies, as well as traditional approaches, have made it clear that yeasts are not only occupying this environment to gain nutrients, but they are active participants that shape the structure of microbial communities by diverse interactions with other community members.

Published

2017

11. Assessment of yeast diversity in soils under different management regimes

Author

Dominik Begerow, Martin Kemler, and Andrey Yurkov

Subjects

geography, geography.geographical_feature_category, Ecology, Land use, Ecological Modeling, Soil biology, Land management, Biodiversity, Plant community, Plant Science, Vegetation, Biology, Grassland, Species evenness, Ecology, Evolution, Behavior and Systematics

Abstract

Human activities, land management and climate change all have great impact on soil biology, but our knowledge of biodiversity of soil organisms is still very limited. Therefore, we assessed responses of soil yeasts to land management, and analysed 57 soils showing different land use from three distinct localities. We isolated and identified molecularly a total of 40 yeasts including several new species. Overall, species composition of different localities was very heterogeneous and nearly half of the species were found in a single site only. The analysis of species abundance and community composition revealed a strong long-term effect of forest replacement by grassland vegetation. Unlike forests, grasslands harbour predominantly ascomycetous yeasts and their proportion increases with management intensity. In forests, evenness of yeast communities followed the gradient of land management intensity and natural beech forests harboured the most unevenly structured community, thereby mirroring the evenness of plant communities.

Published

2012

12. The illustrated life cycle of Microbotryum on the host plant Silene latifolia

Author

Dominik Begerow, Martin Kemler, Robert BauerR. Bauer, and Angela M. Schäfer

Subjects

Biological studies, Ecology, biology, fungi, food and beverages, Plant Science, biology.organism_classification, Genus, Pucciniomycotina, Botany, Spore germination, Silene latifolia, Life history, Microbotryum, Ecology, Evolution, Behavior and Systematics

Abstract

The plant-parasitic genus Microbotryum (Pucciniomycotina) has been used as a model for various biological studies, but fundamental aspects of its life history have not been documented in detail. The smut fungus is characterized by a dimorphic life cycle with a haploid saprophytic yeast-like stage and a dikaryotic plant-parasitic stage, which bears the teliospores as dispersal agents. In this study, seedlings and flowers of Silene latifolia Poir. (Caryophyllaceae) were inoculated with teliospores or sporidial cells of Microbotryum lychnidis-dioicae (DC. ex Liro) G. Deml & Oberw. and the germination of teliospores, the infection process, and the proliferation in the host tissue were documented in vivo using light and electron microscopy. Although germination of the teliospore is crucial for the establishment of Microbotryum, basidium development is variable under natural conditions. In flowers, where the amount of nutrients is thought to be high, the fungus propagates as sporidia, and mating of compatible cells takes place only when flowers are withering and nutrients are decreasing. On cotyledons (i.e., nutrient-depleted conditions), conjugation occurs shortly after teliospore germination, often via intrapromycelial mating. After formation of an infectious hypha with an appressorium, the invasion of the host occurs by direct penetration of the epidermis. While the growth in the plant is typically intercellular, long distance proliferation seems mediated through xylem tracheary elements. At the beginning of the vegetation period, fungal cells were found between meristematic shoot host cells, indicating a dormant phase inside the plant. By using different microscopy techniques, many life stages of Microbotryum are illustrated for the first time, thereby allowing new interpretations of laboratory data.

Published

2010

13. Maternal effects on tree phenotypes: considering the microbiome

Author

Martin Kemler, María Vivas, and Bernard Slippers

Subjects

Abiotic component, Ecology, Offspring, Microbiota, fungi, Maternal effect, Fungi, food and beverages, Plant Science, Biology, Phenotype, Trees, Plant Breeding, Stress, Physiological, Endophytes, Tree breeding, Ecosystem, Epigenetics, Microbiome

Abstract

The biotic and abiotic environmental experience of plants can influence the offspring without any changes in DNA sequence. These effects can modulate the development of the progeny and their interaction with microorganisms. This interaction includes fungal endophytic communities which have significant effects on trees and their associated ecosystems. In this opinion article, we highlight potential maternal mechanisms through which endophytes could influence the progeny. We argue that a better understanding of these interactions might help to predict the response of trees to stress conditions and enhance the efficiency of tree breeding programs.

Published

2015

14. Ion Torrent PGM as tool for fungal community analysis: a case study of endophytes in Eucalyptus grandis reveals high taxonomic diversity

Author

Marieka Gryzenhout, Kerry-Anne Pillay, Bernard Slippers, Martin Kemler, Jeffrey R. Garnas, and Michael J. Wingfield

Subjects

Eucalyptus, Multidisciplinary, Sequence analysis, Ecology, Science, Fungi, Fungal genetics, Biodiversity, Ion semiconductor sequencing, Ribosomal RNA, Biology, DNA sequencing, South Africa, Evolutionary biology, Endophytes, Medicine, Internal transcribed spacer, DNA, Fungal, Research Article, Personal genomics

Abstract

The Kingdom Fungi adds substantially to the diversity of life, but due to their cryptic morphology and lifestyle, tremendous diversity, paucity of formally described specimens, and the difficulty in isolating environmental strains into culture, fungal communities are difficult to characterize. This is especially true for endophytic communities of fungi living in healthy plant tissue. The developments in next generation sequencing technologies are, however, starting to reveal the true extent of fungal diversity. One of the promising new technologies, namely semiconductor sequencing, has thus far not been used in fungal diversity assessments. In this study we sequenced the internal transcribed spacer 1 (ITS1) nuclear encoded ribosomal RNA of the endophytic community of the economically important tree, Eucalyptus grandis, from South Africa using the Ion Torrent Personal Genome Machine (PGM). We determined the impact of various analysis parameters on the interpretation of the results, namely different sequence quality parameter settings, different sequence similarity cutoffs for clustering and filtering of databases for removal of sequences with incomplete taxonomy. Sequence similarity cutoff values only had a marginal effect on the identified family numbers, whereas different sequence quality filters had a large effect (89 vs. 48 families between least and most stringent filters). Database filtering had a small, but statistically significant, effect on the assignment of sequences to reference sequences. The community was dominated by Ascomycota, and particularly by families in the Dothidiomycetes that harbor well-known plant pathogens. The study demonstrates that semiconductor sequencing is an ideal strategy for environmental sequencing of fungal communities. It also highlights some potential pitfalls in subsequent data analyses when using a technology with relatively short read lengths.

Published

2013

15. Species accumulation curves and incidence-based species richness estimators to appraise the diversity of cultivable yeasts from beech forest soils

Author

Dominik Begerow, Martin Kemler, and Andrey Yurkov

Subjects

Population Dynamics, Biodiversity, lcsh:Medicine, Yeast and Fungal Models, Biochemistry, Trees, German, Nucleic Acids, Germany, Yeasts, Molecular Cell Biology, Fagus, DNA, Fungal, lcsh:Science, Phylogeny, Soil Microbiology, Multidisciplinary, biology, Ecology, Physics, Fungal genetics, Soil Ecology, Terrestrial Environments, Agricultural soil science, Community Ecology, language, Research Article, Ecological Metrics, Biophysics, Mycology, Microbiology, DNA, Ribosomal, Microbial Ecology, Model Organisms, Species Specificity, Beech, Biology, Community Structure, Analysis of Variance, lcsh:R, Species diversity, Genetic Variation, Forestry, Species Diversity, DNA, Sequence Analysis, DNA, biology.organism_classification, language.human_language, Yeast, Soil water, lcsh:Q, Species richness, Species Richness, Ecological Environments

Abstract

\(\textit {Background:}\) Yeast-like fungi inhabit soils throughout all climatic zones in a great abundance. While recent estimations predicted a plethora of prokaryotic taxa in one gram of soil, similar data are lacking for fungi, especially yeasts. \(\textit {Methodology/Principal Findings:}\) We assessed the diversity of soil yeasts in different forests of central Germany using cultivation-based techniques with subsequent identification based on rDNA sequence data. Based on experiments using various pre-cultivation sample treatment and different cultivation media we obtained the highest number of yeasts by analysing mixed soil samples with a single nutrient-rich medium. Additionally, several species richness estimators were applied to incidence-based data of 165 samples. All of them predicted a similar range of yeast diversity, namely 14 to 16 species. Randomized species richness curves reached saturation in all applied estimators, thus indicating that the majority of species is detected after approximately 30 to 50 samples analysed. \(\textit {Conclusions/Significance:}\) In this study we demonstrate that robust species identification as well as mathematical approaches are essential to reliably estimate the sampling effort needed to describe soil yeast communities. This approach has great potential for optimisation of cultivation techniques and allows high throughput analysis in the future.

Published

2011