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Zusammenfassung (in German) Rostpilze sind obligate Parasiten auf vielen holzigen und krautigen Pflanzen und führen weltweit zu ernsten ökonomischen Schäden in der Landwirtschaft. Weltweit sind zurzeit sind ca. 100 Gattungen und 9000 Arten von Rostpilzen (Pucciniales, Basidiomycota) bekannt. Es gibt fünf verschiedene Entwicklungsstadien mit je eigener Morphologie: Spermogonium, Aecidium, Uredosporenlager, Teleutosporenlager und Basidium. Bei vielen Rostpilzen kommt es im Entwicklungsgang zu einem Wechsel zwischen zwei verschiedenen Wirtsarten. Die Spermogonien werden auf einem haploiden Myzel erzeugt, das sich nach der Infektion des Pflanzengewebes durch Basidiosporen entwickelt. In den Spermogonien entwickeln sich einzellige, monokaryotische, hyaline Spermatien, die in einem süßlichen Exudat ausgeschieden werden. Das Aecidium bildet einzellige, dikaryotische Aecidiosporen in Ketten. Bei der Keimung entwickeln sie dikaryotische Hyphen, welche entweder Uredosporen- oder Teleutosporenlager, aber nicht wieder Aecidien erzeugen. Die Uredosporen der Uredosporenlager dienen der Massenausbreitung, Infektion derselben Wirtsart und wiederholten Bildung neuer Uredosporenlager. Das Ornament der Uredosporen ist variabel: echinulat, verrucos, gestreift verrucos, zerfurcht, runzelig, labyrinthisch, pseudoreticulat oder reticulat. Teleutosporenlager und Teleutosporen sind das wichtigste Stadium für allgemeine Unterscheidungen und die Nomenklatur von Rostpilzen, da sie das sexuelle Stadium repräsentieren. Teleutosporen erzeugen Basidien und Basidiosporen. Teleutosporen sind morphologisch sehr variabel und präsentieren deshalb die nützlichsten zuverlässigen Eigenschaften zur Unterscheidung der Arten. Die Basidien entstehen größtenteils am distalen Ende der Teleutosporenzelle und sind transversal septiert. Die Basidiosporen sitzen auf Sterigmen auf den Basidienzellen und sind globos oder subglobos. Durch die hoch spezifische Abhängigkeit der Rostpilz-Arten von ihren Wirtspflanzen ist die Verbreitung der Rostpilze an die Verbreitung ihrer Wirte gebunden. Jedoch sind vollständige Lebens-Zyklen der Rostarten, mikromorphologische Details der oben genannten Stadien, Spektren der Wirtspflanzen und geographische Verbreitung unvollständig bekannt. Einige dieser offenen Fragen am Beispiel der Rostpilze Panamas zu beantworten ist das Ziel dieser Arbeit. Da für das relativ kleine Land Panama 9.500 Pflanzenarten bekannt sind, wird eine hohe Zahl an Rostpilzarten vermutet. Die Rostpilze Panamas wurden sporadisch von verschiedenen Mykologen studiert. Bis 2007 waren in Panama jedoch lediglich 25 Gattungen und 101 Arten von Rostpilzen bekannt. Für die vorliegende Arbeit wurden in den Jahren 2004 bis 2007 Rostpilze in Panama gesammelt, hauptsächlich in der Provinz Chiriquí im Westen Panamas. Insgesamt wurden 468 Belege geprüft, die 150 verschiedenen Arten von Rostpilzen entsprechen. 233 Belege wurden zwischen 2005 und 2007 im ppMP-Projekt (pflanzenparasitische Mikropilze Panamas) von M. Piepenbring, O. Perdomo, R. Mangelsdorff, T. Trampe und T. Hofmann gesammelt. 76 Belege wurden von M. Piepenbring zwischen 1998 und 2007 gesammelt. 1 Beleg wurde von R. Kirschner (2003) gesammelt. Zusätzlich wurden Belege aus Herbarien konsultiert, 30 Belege aus dem New York Botanical Garden (NYBG), 93 Belege aus den U.S. National Fungus Collections (BPI) und 35 Belege aus der Purdue University (PUR). In dieser Arbeit werden 30 Arten von Rostpilzen aus dem Westen Panamas detailliert beschrieben und durch rasterelektronenmikroskopische Aufnahmen und Zeichnungen illustriert. Zwei davon sind neue Arten: Puccinia urochloae auf Urochloa decumbes (Poaceae) und Uromyces melampodii auf Melampodium costaricense (Asteraceae). Puccinia urochloae unterscheidet sich von den bekannten Puccinia-Arten durch diorchidioide Teleutosporen, Teleutosporenmaße sowie Paraphysen und Uromyces melampodii von anderen Uromyces-Arten durch die Teleutosporenmaße und Wirtsgattung. 28 Arten werden erstmalig für Panama dokumentiert: für Aecidium psychotriae auf Psychotria cf. carthagenensis (Rubiaceae), für Coleosporium verbesinae auf Verbesina gigantea (Asteraceae), für Crossopsora byrsonimatis auf Byrsonima crassifolia (Malphigiaceae), für Crossopsora uleana auf Solanum trizygum (Solanaceae), für Puccinia cordiae auf Cordia alliodora (Boraginaceae), für Puccinia cyperi-tagetiformis auf Cyperus odoratus (Cyperaceae), für Puccinia enixa auf Baccharis cf. pedunculata, für Puccinia inaudita auf Wedelia inconstans (Asteraceae), für Puccinia psidii auf Syzygium jambos (Myrtaceae), für Puccinia sp. 1 auf Aulonemia patriae (Poaceae), für Puccinia sp. 2 auf Carex longii (Cyperaceae), für Pucciniosira dorata auf Triumfetta bogotensis (Malvaceae), für Uredo ficina auf Ficus sp. (Moraceae), für Uredo hydrocotyles auf Hydrocotyle mexicana (Apiaceae), für Uredo incomposita auf Eleocharis sp. (Cyperaceae), für Uredo jatrophicola auf Jatropha curcas (Euphorbiaceae), für Uredo kyllingiae auf Kyllinga cf. odorata (Cyperaceae), für Uredo melinidis auf Melinis minutiflora (Poaceae), für Uredo notata auf Byrsonima crassifolia (Malpighiaceae), für Uredo peperomiae auf Peperomia glabella (Piperaceae), für Uredo proeminens auf Euphorbia heterophylla and E. hyssopifolia (Euphorbiaceae), für Uredo rubescens auf Dorstenia contrajerva (Moraceae), für Uredo yucatanensis auf Mimosa albida (Fabaceae), für Uromyces bidenticola auf Bidens pilosa (Asteraceae), für Uromyces ictericus auf Iresine celosiae (Amaranthaceae), für Uromyces sp. 1 auf Struthanthus sp. (Loranthaceae) und für Uromyces trifolii-repentis auf Trifolium repens (Fabaceae). Die Zahl der für Panama bekannten Rostpilze erhöht sich mit dieser Arbeit von 101 auf 131 Arten. Für fünf andere Rostpilze werden weltweit neue Wirtsarten genannt: Cordia spinescens als Wirt von Alveolaria cordiae, Eupatorium odoratum als Wirt von Cionothrix praelonga, Xylopia grandiflora als Wirt von Dasyspora gregaria, Cyperus diffusus als Wirt von Puccinia subcoronata, und Calathea indecora als Wirt von Puccinia thaliae. Die Artenvielfalt von Pflanzen in den Tropen ist noch nicht vollständig bekannt, und man kann keine Voraussagen machen oder feststellen, ob ein Gebiet artenreicher ist als andere. Die bescheidene Dokumentation von Rost-Pilzen in Panama beruht auf einem Mangel an Inventuren im Gebiet. Die in Panama am häufigsten vertretenen Wirts-Familien sind die Asteraceae, Cyperaceae, Fabaceae und Poaceae. Die Asteraceae, mit 303 Arten die sechstgrößte Pflanzenfamilie in Panama, haben die größte Zahl der Wirtsarten von Rost-Pilzen in Panama mit 24 Rostarten, nämlich in den Gattungen Cionothrix, Coleosporium, Dietelia, Endophyllum, Puccinia und Uromyces. Die Fabaceae jedoch präsentieren die höchste Zahl der Rost-Gattungen in Panama (Ateloucada, Dicheirinia, Phakopsora, Puccinia, Uraecium, Uredo, Uromyces und Uropyxis) mit 23 Rostarten. Die Fabaceae sind mit einer Gesamtzahl von 487 Arten in Panama die zweitgrößte Pflanzenfamilie. In dieser Studie wurden rasterelektronenmikroskopische Beobachtungen der Morphologie und Ornamentierung von Sporen durchgeführt. Echinulate und verrucose Ornamentierung sind mit dem Lichtmikroskop bei gewissen Arten von Pilzen schwierig zu unterscheiden. Das beobachtete Ornament ist jeweils spezifisch für die Art. Die asexuell gebildeten Uredosporenlager und Uredosporen sind in der Regel das zahlenmäßig am häufigsten anzutreffende Entwicklungsstadium und seine Merkmale sind genügend unveränderlich und unterschieden, um sie taxonomisch zu verwenden. Die taxonomisch nützlichsten Eigenschaften von Uredosporen sind: die Form und Größe der Spore, die Farbe und Stärke der Sporen-Wand, ihre Oberflächenornamentierung, die Zahl und Verteilung der Keimporen. Die Anwesenheit von Paraphysen ist bei Rost-Pilzen taxonomisch nicht wichtig. In den beobachteten Belegen sind Paraphysen sowohl in Uredo- als auch in Teleutosporenlagern vorhanden, allerdings am häufigsten in Uredosporenlagern. Bestimmte Merkmale der Paraphysen können jedoch taxonomisch wichtig sein. In unserer Analyse fanden wir Arten mit pigmentierten Paraphysen bei Crossopsora uleana, Puccinia sp. 1, Uredo jatrophicola, Uredo yucatanensis und Uromyces melampodii. Crossopsora uleana hat verzweigte Paraphysen. Für die Identifikation der Rostpilze ist es notwendig und wesentlich, die Wirtspflanzen zu identifizieren. Dennoch können viele Pflanzenproben nicht leicht identifiziert werden, da viele steril sind, und in den meisten Fällen sind blühende oder fruchtenden Teile für die Pflanzenbestimmung wesentlich. Viele Rostpilzarten wurden in der Vergangenheit sehr knapp und unvollständig, mit irreführenden Angaben und ungenauen Wirtsdaten beschrieben. Rostpilze können im Feld leicht erkannt werden. Es gibt wenige Ausnahmen, die mit anderen pathogenen Pilzen verwechselt werden können. Solch ein Beispiel ist Stigmina anacardii, ein imperfekter Pilz mit oberflächlich ähnlicher Morphologie wie Rostpilze, aber mit Beziehung zu den Ascomycota. Basidien und Basidiosporen von Alveolaria cordiae werden erstmals illustriert und dokumentiert. Am Beispiel von Dasyspora gregaria konnte erstmals eine fein warzige Ornamentierung der Basidiosporen bei Rostpilzen aufgezeigt werden. Resumen (in Spanish) Especies de Pucciniales son hongos parásitos de plantas del grupo Basidiomycota. En esta tesis 30 especies de Pucciniales recientemente colectadas en el Oeste de Panama se presentan con descripciones detalladas, microscopia electrónica de barrido y dibujos. De estas, 2 son nuevas especies: Puccinia urochloae y Uromyces melampodii. Además, 28 especies se citan por primera vez para Panama: Aecidium psychotriae, Coleosporium verbesinae, Crossopsora byrsonimatis, Crossopsora uleana, Puccinia cordiae, Puccinia cyperi-tagetiformis, Puccinia enixa, Puccinia inaudita, Puccinia paupercula, Puccinia psidii, Puccinia sp. 1, Puccinia sp. 2, Pucciniosira dorata, Uredo ficina, Uredo hydrocotyles, Uredo incomposita, Uredo jatrophicola, Uredo kyllingiae, Uredo melinidis, Uredo notata, Uredo peperomiae, Uredo proeminens, Uredo rubescens, Uredo yucatanensis, Uromyces bidenticola, Uromyces ictericus, Uromyces sp. 1 y Uromyces trifolii-repentis. Asi el numero de especies de Pucciniales conocidas para Panama aumenta de 101 a 131. En 5 especies diferentes de hongos se descubrieron nuevas especies en plantas hospederas: Cordia spinescens para Alveolaria cordiae, Eupatorium odoratum para Cionothrix praelonga, Xylopia gradiflora para Dasyspora gregaria, Cyperus diffusus para Puccinia subcoronata, y Calathea indecora para Puccinia thaliae. La especie Dasyspora gregaria es reportada con basidiosporas finamente verrucosas por primera vez en royas y la especie Alveolaria cordiae, una especie pobremente conocida es reportada, descrita e ilustrada con detalles por primera vez sobre Cordia spinescens en Panama.
This study comprises a survey on ecology, morphology and taxonomy of parasitic fungi infecting Pteridophytes and Orchidaceae found by the author on several field trips to Western Panama as part of the project plant parasitic micro-fungi of Western Panama (ppMP). In Panama, approximately 9500 species of vascular plants are found. Of these, Orchidaceae are with ca. 1150 (ca. 12%) species by far the most speciose family. The Pteridophytes in Panama comprise ca. 940 species in 31 families. Most fungal pathogens on Orchidaceae in tropical regions were described from plants in culture or from material intercepted at borders by plant quarantine services and not from their natural habitats. Therefore, little is known about distribution and ecology of these pathogens in their natural range. The author determined and classified several hundred Orchidaceae-species and Pteridophytes at the sites selected in the context of the project. This work facilitated the identification of many host plants (at least to genus-level) even in sterile condition in the field. About 65 species of Pucciniales are known to infest Orchidaceae and ca. 38% of them are described from tropical America. All available types of Pucciniales on Orchidaceae in tropical America were studied and compared with 91 specimens of rust fungi on orchids collected by the author in Panama. Several hundred additional specimens housed in the BPI, almost all intercepted from plant quarantine services, were used for comparison. As result of this work, it is suggested to combine Uromyces stenorrhynchi Henn. to Sphenospora and, as this is the oldest epithet, to synonymize S. kevorkianii Linder, S. mera Cumm. and S. saphena Cumm. with it. Further, it could be demonstrated that Uredo aurantiaca Montemartini, U. cyrtopodii Syd. & P. Syd., U. epidendri Henn., U. guacae Mayor, U. gynandrearum Corda, U. lynchii (Berk.) Plowr., U. neopustulata Cumm. (≡U. pustulata Henn.), U. nigropuncta Henn., U. oncidii Henn., U. ornithidii F. Kern., Cif. & Thurst., and presumably U. scabies Cke., are anamorphs of this variable species. U. gynandrearum is the oldest anamorph-name for all these taxa. Therefore, it can be established that this rust infects more than 80 species of Orchidaceae in three subfamilies. In total, the anamorph of this species was collected by the author on 17 different species of Orchidaceae in Panama which, apart from one species, are all new hosts to science. The molecular data obtained by the author confirm this view, although more data, especially from material from the whole range of distribution of U. gynandrearum, are necessary. Puccinia spiranthicola Cumm. was found to be a synonym of P. cinnamomea Diet. & Holw. and was found by the author on three different Orchidaceae in two subfamilies. Uredo pleurothallidis Keissl. is now considered a synonym of U. wittmackiana Henn. and the latter as the anamorph of Puccinia oncidii Cumm. In the anamorph genus Uredo, a new species was found infecting at least five different species of Sobralia and Elleanthus (Sobraliinae) at different localities. Molecular data indicate it to be related to the currently polyphyletic Phakopsoraceae. For the rusts with suprastomatal sori on Orchidaceae, now separated from Hemileia and placed in the genus Desmosorus (nom. inval.), the current concept with only one taxon is rejected and the establishment of three subspecies is suggested. The complicated taxonomy is discussed and makes it necessary to validate the genus-name and make a new combination. Another Hemileia-anamorph species was found by the author and is considered to be new to science. This is the first species of this alliance in America on Orchidaceae. Molecular data obtained by the author confirm the separation of Desmosorus from Hemileia and the position of the new species. For rusts on Pteridophytes, a new species of Milesia, (teleomorph: Milesina) and a new anamorphic species of Uredinopsis was found, both on hosts hitherto not known. In Calidion, the presumable anamorph-genus of Uncol, the species C. cf. cenicafeae Salazar & Buriticá was found on several new hosts. Further, the teleomorph was found. Morphologically, this teleomorph did not agree with the description of Uncol by the author of the genus, although the anamorph characteristics left no doubt that it is Calidion. Apparently, the description of Uncol is inadequate, but cannot be improved, as the type is unavailable. Molecular data obtained by the author show this species to be closest to Desmosorus. For Uredo superficialis Speg., the anamorph of Desmella, nine new hosts in eight different fern families were found by the author and the collaborators of the ppMP-project. Ecological data indicate that this species includes different host specific races, which, however could not be distinguished morphologically. For all these rusts, a thorough discussion of the ecology in their habitats is given. In total, 21 LSU rDNA sequences from 6 different rust species on Orchidaceae and Pteridophytes were obtained and analyzed with the Maximum Parsimony and Minimum Evolution method. Here, the position of several groups could be confirmed, and some anamorphs could be assigned to different teleomorphic relationships. Within the Ascomycota and their anamorphs, several hitherto unknown species and species not known from these hosts or not known from Panama were found and analyzed. On Orchidaceae, the following fungi belonging to the Ascomycota are described, illustrated and discussed: In the Phyllachorales, a hitherto not known Phyllachora sp. was found on Oncidium warszewiczii Rchb. f. and was compared with the other species of this order currently known from Orchidaceae. In the Asterinaceae s. l. Lembosia cf. epidendri Meir. Silva & O. R. Pereia was found on Maxillaria crassifolia (Lindl.) Rchb. f., which is a new host and new host alliance for this fungus hitherto only known from Brazil. The fungus is described and compared with all species of Asterinaceae currently known on Orchidaceae. In the Meliolaceae, Meliola orchidacearum Cif. was found on Camaridium biolleyi (Schltr.) Schltr. and an Epidendrum sp. which are new hosts and new host alliances of this fungus which was hitherto only known from the Caribbean Islands. It is described, illustrated and compared with the type. In the Glomerellaceae, Glomerella cingulata and its anamorph Colletotrichum gloeosporioides were found on several hosts. The species is illustrated, described and compared with data from literature. In the anamorphic Mycosphaerellaceae, Pseudocercospora odontoglossii (Prill. & Delacr.) U. Braun, a species currently only known from culture, was found on the new host Pleurothallis imraei Lindl. It is illustrated, described and compared with data from literature. On ferns, the following other fungi are described, illustrated and discussed: A conspicuous undescribed form of Polycyclus was found by the author on Elaphoglossum ciliatum (C. Presl.) T. Moore (Dryopteridaceae) and Serpocaulon loriceum (L.) A. R. Sm. (Polypodiaceae). A conspectus of Parmulariaceae infecting ferns is given and demonstrated that Polycyclina should be synonymized under Polycyclus. Summing up, it can be assessed, especially for the Pucciniales, that the most speciose plant family in Panama carries remarkable few species of specific parasites, and that many of them seem to be distributed over a wide range of species which often are not closely related. One reason amongst others seems to be that parasites need a minimum density of host plants in a habitat to survive. As orchid species often occur with only few (and often small) individual plants at a given locality, the probability for a specific pathogen to infect a plant gets too low, hence high diversity by low abundance of hosts might be an impediment for specific pathogens. In this case, unspecific parasites, or such which are infecting larger alliances, are in advantage. Other reasons could be specific traits of orchids, like succulence and mycotrophy which might hamper fungal infections.
Fungi are an important component of every ecosystem but hardly considered in biodiversity monitoring projects. This thesis aims at characterizing fungal diversity, with an emphasis on epigeous fungi, encompassing different biogeographic zones and points in time. A main sampling area was established in the Taunus mountain range in Germany, which was sampled monthly over three years.
For testing species richness on spatial scale, the Taunus transect was compared with four other areas, which were assessed with lower sampling effort. One of these areas was Bulau in Germany, in which four excursions were made. Furthermore, two sampling events were performed in Somiedo in Spain and one sampling event in Kleinwalsertal in Austria. Already existing data of a two-year monitoring project in Panama next to the river Majagua were additionally used for comparison.
All these areas were investigated with a standardized sampling protocol focusing on macroscopically evident fungi and vascular plants using a time-restricted transect design. The transects consisted of strips, which were 500 m long and about 20 m broad, and were sampled for 2 hours at each single sampling event....
Tulasnella species (Tulasnellaceae, Cantharellales, Basidiomycota) form inconspicuous basidiomata on rotten branches or trunks of trees, difficult to find and recognize in nature. However, according to ultrastrucural and molecular data, species of Tulasnellaceae are the most frequent mycorrhriza forming fungi (mycobionts) of green, photosynthetic orchids worldwide. Species of Tulasnellaceae were also found as prominent mycobionts of the extraordinary diverse orchids in tropical montane rainforest of Southern Ecuador. Orchids obligately depend on mycobionts during the juvenile stage when the fungi have to deliver carbon to the non-photosynthetic protocorm and thus the fungi substantially influence the establishment of orchids in the wild. Species of Tulasnellaceae can acquire carbon from decaying bark or wood by specific saprotrophic capabilities as was recently proven through comparative genomics that included data on decay enzymes from Tulasnella cf. calospora isolated from orchid mycorrhizae (Anacamptis laxiflora, Italy). Thus, species of Tulasnellaceae can be saprotrophs and symbionts simultaneously.
It is currently under discussion, whether specific species of Tulasnella are required for seed germination and establishment of distinct terrestrial and epiphytic orchids in nature or if species of Tulasnella are generalists concerning their association with orchids. The inconsistences in species concepts and taxonomy of Tulasnella spp., however, strongly impede progress in this field of research. The aim of the present study was, therefore, to revise the species concepts by combining, for the first time, morphological and molecular data from basidiomata.
Specimens were collected in tropical Andean forest in Southern Ecuador and in temperate forests in Germany. Additional specimens were loaned from fungaria. In total, 205 specimens, corresponding to 16 own samples and 189 specimens from fungaria were analyzed. The mycobiont relationships of Tulasnella spp. with orchids from the sampling area in Ecuador were studied in populations of Epidendrum rhopalostele. The basis for molecular-phylogenetic analysis was completed by data obtained from own previous investigations on mycobionts from the investigation area and Tulasnella isolates from Australia.
30 morphospecies are illustrated and delimited by a morphological key based on traditional species concepts. Tulasnella andina from Ecuador and Tulasnella kirschneri from China are presented as species new to science. Tulasnella cruciata is described from herbarium material for the first time. Tulasnella aff. eichleriana and T. violea are reported for the first time from Ecuador. Molecular sequences of two Tulasnella spp. isolated from mycobionts of Epidendrum rhopalostele cannot be related to any morphological species concept. Statistical analyses suggest that conventional diagnostic using morphological characteristics is ambiguous for delimiting morphologically similar species.
For the first time sequences of the ITS-5.8S rDNA region were obtained after cloning from fresh basidiomata. Extraction of DNA from herbarium specimens was, however, unsuccessful. Sequences from 16 fresh basidiomata, six pure cultures, and sequences of orchids mycorrhizae (e.g. from Epidendrum rhopalostele) available in the database GenBank were analyzed. Proportional
variability of ITS-5.8S rDNA sequences within and among cultures and within and among specimens were used to designate morphospecies. Results suggest an intragenomic variation of less than 2 %, an intraspecific variation of up to 4 % and an interspecific divergence of more than 9 % for Tulasnella spp.
Four percent of intraspecific divergence was defined as a minimum threshold for delimiting phylogenetic species. This threshold corroborates the so far used 3 % to 5 % divergence in delimitation of operational taxonomic units of Tulasnella mycobionts.
Quite a number of sequences of Tulasnella are available in GenBank, mostly obtained from direct PCR amplification from orchid mycorrhizae. By including closely related sequences in the phylogenetic analysis, several morphological cryptic species of Tulasnella, mostly from Ecuador, were found. Arguments are given for molecular support of the new species Tulasnella andina and the established species Tulasnella albida, T. asymmetrica, T. eichleriana, T. tomaculum, and T. violea. Thus, by combining molecular and morphological data species concepts in Tulasnella are improved. The definitions of Tulasnella calospora and T. deliquescens, however, remain phylogenetically inconsistent.
The present investigation is a first step to expand our knowledge on the intraand interspecific morphological and molecular variability of Tulasnella spp. and to delimit species relevant for studies on ecology and communities of orchids and Tulasnellaceae.
The fungal genus Pestalotiopsis s.l. contains approximately 300 described species and is globally distributed. The monotypic genus Pestalotia is considered the closest relative of Pestalotiopsis s.l. This study aims to investigate the diversity and systematics within Pestalotiopsis s.l. and its relation to Pestalotia. Therefore, an integrative approach is used considering molecular phylogeny methods as well as examination of morphological characters.
Recently, Pestalotiopsis s.l. was split into three genera with the addition of the newly erected Neopestalotiopsis and Pseudopestalotiopsis. The species of these genera are usually saprotrophic, phytoparasitic, or endophytic, and have been isolated from soil, air, and many kinds of anorganic material. The asexual fruiting bodies appear on infected plant material as black acervuli that release conidia. The conidia are important to examine for morphological taxon recognition. The number of conidial cells is the feature that distinguishes Pestalotiopsis s.l. spp. with five celled conidia, from Pestalotia pezizoides with six celled conidia. However, the significance of morphological characters is controversially discussed among mycologists. In recent years, 55 new species were described based on minor genetic distances and marginal or no morphological differences. Thus, the value of certain morphological characters and genetic markers need to be reconsidered.
In this study, 102 herbarium specimens of 26 described species, with an emphasis on plant pathogenic species from North America, have been morphologically examined and documented through drawings and photographs. Morphological examination was complemented with a comprehensive molecular dataset obtained from 191 cultures representing the genera Neopestalotiopsis, Pestalotia, Pestalotiopsis, Pseudopestalotiopsis, and Truncatella. One novelty of this work is that, besides the well-established markers ITS, TEF1, and ß-tubulin, the protein-coding genes MCM7 and TSR1 were successfully sequenced and included in the analyses. Phylogenies using Maximum Likelihood and Bayesian inference methods of single loci and the combined dataset were calculated. By comparison of these phylogenies, MCM7 was identified as the most powerful one in terms of phylogenetic resolution and statistical support of nodes and is proposed as an additional barcoding marker in Pestalotiopsis s.l.
In Pestalotiopsis, species delimitation was tested using the Baysian Phylogenetics and Phylogeography (BP&P) program that tests an existing species scenario against Bayesian inference methods under a multispecies coalescent model. The program supported only ten species out of the predetermined 19 species scenario. Measurements of conidia for species detected by BP&P were explored using a TukeyHSD-Test in the program R to find means that are significantly different from each other. This test revealed that combinations of morphological characters are required to distinguish between the ten species found by BP&P.
Another purpose of this work was to clarify the status of Pestalotia with regard to Pestalotiopsis s.l. Therefore, fresh epitypic material of Pestalotia pezizoides, was collected, isolated, and cultivated. The molecular analysis of a combined dataset of the gene regions ITS and LSU for species of Amphisphaeriales nested P. pezizoides in the genus Seiridium. Thus, synonymy of Pestalotia with Seiridium is proposed here. This is supported by morphology of the conidia. Further, an epitype is proposed for the type species of Pestalotiopsis, P. maculans. On the other hand, the recently proposed epitype of P. adusta is rejected here as it conflicts with the taxonomic hypothesis obtained in this study and its introduction is inconsistent with the formal requirements for epitypification. A new topotypic specimen is proposed instead. Additionally, several nomenclatural changes become necessary in many species examined. These include three new combinations and six synonyms of species of Pestalotiopsis s.l.
The conclusion of this work is that morphological data have potential as a valuable, inexpensive and easy way to recognize species. However, it is not the best method for species discovery and delimitation bearing in mind that in microfungi and many other organisms, individual plasticity and analogous structures are inadequately investigated. By phylogenetic analyses of molecular sequence data, it is possible to compare a great amount of equivalent characters and to delimit species that are morphologically cryptic. This is especially important since species of Pestalotiopsis s.l. mostly lack sexual structures that are helpful for morphological species delimitation in other groups of fungi. Thus, the Genealogical Concordance Species Concept (GCSC) finds its application in many fungal taxa. Conflicts in the genealogy between phylogenetic trees of different markers are interpreted as recombination of the genetic material within a linage. Accordingly, the change from conflict to congruence in a set of different phylogenetic trees can be seen as the species limit. It can be expected that increased application of the GCSC will lead to further approximation of described species numbers to the real number of species, especially in complicated groups like asexual microfungi.
Soil fungal communities are an essential element in the terrestrial ecosystem, however their response to ongoing anthropogenic climate change is currently poorly understood. Fungi are one of the most abundant groups of microbes in soil, they are mainly responsible for the decomposition of organic matter (Baldrian et al., 2012; Buée et al., 2009). By binding carbon in soil, fungi thus maintain an important role in the global carbon cycle (Bardgett et al., 2008). Future climates are likely to influence the communities of belowground microbial organisms (Castro et al., 2010; Deacon et al., 2006). However, how these communities are affected in their diversity, composition, and function after environmental perturbation is insufficiently known.
Molecular techniques using high-throughput sequencing are presently revolutionizing the analysis of complex communities, such as soil fungi. High-throughput metabarcoding enables the recovery of DNA sequence data directly from environmental samples, and DNA sequences from entire communities present in these samples can be simultaneously recovered through massively parallel sequencing reactions (Bik et al., 2012; Taberlet et al., 2012b). This results in more accurate estimation of diversity and community composition and thus provides unprecedented insight into cryptic communities (Lindahl and Kuske, 2014). Yet, challenges associated with these novel techniques include the bioinformatic processing, and the ecological analyses of the large amount of sequence data generated. Most biologists without explicit training in bioinformatics spend a fair amount of time learning how to filter raw sequence data, and customize bioinformatics pipelines specific to their project. To improve the quality of data treatment, and decrease the time needed for the analyses, it is desirable to have bioinformatics pipelines that are easy to use, well explained to researchers not trained in bioinformatics, and adaptable to individual research needs...
In dieser Arbeit, deren Hauptanliegen die Erstellung eines pflanzensoziologischen Systems war, wurde die Segetalvegetation der Sudanzone Westafrikas durch vegetationskundliche Aufnahmen erfasst. Zu den Aufnahmen wurden Bodenproben entnommen und Befragungen über die Anbaumethoden sowie Nutzung der Segetalarten durchgeführt. Um ein repräsentatives Bild der Segetalvegetation zu erreichen, wurden Regionen in Burkina Faso, Nigeria, Benin, Senegal und Mali zur Analyse ausgewählt, die in der Süd-, Nordsudanzone sowie in angrenzenden Gebieten der Sahelzone lagen. 601 Arten aus 70 Familien wurden identifiziert. Vier Familien, nämlich Poaceae, Leguminosae- Papilionaceae, Cyperaceae und Asteraceae dominieren in der Segetalflora und stellen die Hälfte der Arten, während die übrigen Familien, mit oft nur einem Vertreter, weniger repräsentiert sind. Corchorus tridens, Mitracarpus scaber und Leucas martinicensis, die drei häufigsten Segetalarten in der Sudanzone stammen jedoch nicht aus den vier oben genannten Familien. Die meisten Arten sind Therophyten und haben eine in den Tropen eingeschränkte Verbreitung. Es sind entweder pantropische (42 %), afrikanische Arten (32) oder paläeotropische Arten (20 %). Aus den 1120 Aufnahmen wurden 65 Gesellschaften beschrieben. Ein Vergleich dieser Gesellschaften führte zur Erarbeitung einer synoptischen Tabelle, deren Einheiten zur Herausarbeitung von pflanzensoziologischen Syntaxa dienten. Dabei wurden die bis dato beschriebenen Einheiten der Segetal- sowie Ruderalvegetation in den Tropen zum Vergleich einbezogen. Ein pflanzensoziologisches System der Segetalvegetation in der Sudanzone wurde erstellt. Zwei neue Klassen wurden definiert: die Leucetea martinicensis und die Caperonietea palustris. Die Leucetea martinicensis kommen auf den trockenen Böden vor und enthalten zwei Ordnungen: die Commelinietalia benghalensis auf gedüngten und die Polycarpeaetalia corymbosae auf ungedüngten Feldern. Die Commelinietalia benghalensis bestehen aus zwei Verbänden, dem Celosion trigynae und dem Tridaxion procumbentis. Der erste Verband ist sowohl in der Nord- als in der Südsudanzone anzutreffen, während der zweite nur in der Südsudanzone zu beobachten ist. Die Polycarpeaetalia corymbosae beinhalten drei Verbände: das Brachiarion distichophyllae, das Merremion tridentatae und das Jacquemontion tamnifoliae. Das Brachiarion distichophyllae kommt überall in der Sudanzone vor und bevorzugt die häufigen pisolithenreichen Böden. Das Merremion tridentatae ist auch in der gesamten Sudanzone verbreitet. Es ist überwiegend auf ausgesprochen sandigen Böden zu finden. Das Jacquemontion tamnifoliae hat einen eindeutigen Schwerpunkt in der Sahelzone und den Übergangsgebieten zur Sudanzone. Das ist der Verband, der auf den Hirsefeldern der Dünen in der Sahelzone wächst. Die Caperonietea palustris sind eine edaphisch stark geprägte Klasse. Sie wachsen auf den extrem tonreichen Vertisolen. Da diese eine Seltenheit in der Sudanzone sind, stellen die Caperonietea palustris eine ganz besondere Vegetation in der Sudanzone dar. Darin wurden zwei Assoziationen beschrieben: das Sorghetum arundinaceum und das Hygrophiletum auriculatae. Die Segetalvegetation auf den Reisfeldern in den Senken gehört zur neuen Ordnung Melochietalia corchorifoliae, die den Phragmitetea TÜXEN
Plant parasitic species of Asterinaceae and Microthyriaceae (Dothideomycetes, Ascomycota, Fungi) are inconspicuous foliicolous fungi with a mainly tropical distribution. They form black colonies on the surface of living leaves. Members of Asterinaceae and Microthyriaceae are characterized by shield-shaped, flat ascomata (thyriothecia) which grow completely superficially on the leaf cuticle. Microthyriaceae, Asterinaceae and other families of thyriothecia-forming ascomycetes belong to the class Dothideomycetes due to the presence of bitunicate asci. However, until today no consistent taxonomic concept nor molecular phylogenetic studies exist for the families of thyriothecioid ascomycetes. In the present thesis, 42 species belonging to 13 different anamorphic and teleomorphic genera of Asterinaceae, Microthyriaceae and ‘Pycnothyriales’ recently collected in Western Panama, are identified, described in detail and illustrated with drawings, transmission and scanning electron microscopical photographs. Among the 42 species, 37 species belong to the Asterinaceae, four species to the Microthyriaceae and one species to the from group ‘Pycnothyriales’. Two species of Asterinaceae are new to sience: Asterina gaiadendricola with an Asterostomella anamorph and Asterina schlegeliae with a Mahanteshamyces anamorph. Among the remaining species of Asterinaceae, 28 species represent new records for Panama: Asterina cestricola, A. ciferriana, A. consobrina, A. corallopoda, A. davillae with anamorph, A. diplocarpa, A. diplopoda, A. ekmanii, A. fuchsiae, A. manihotis, A. phenacis, A. radiofissilis with anamorph, A. siphocampyli, A. sponiae, A. stipitipodia with anamorph, A. styracina, A. tonduzii with anamorph, A. weinmanniae, A. zanthoxyli, Asterostomella dilleniicola, Asterolibertia licaniicola, Asterolibertia nodulosa, Cirsosia splendida with its Homalopeltis chrysobalani anamorph and Prillieuxina winteriana with its Leprieurina winteriana anamorph. The remaining 11 species of Asterinaceae probably respresent new species: Asterina spp. 1-8, Asterolibertia sp., Halbanina sp. and Mahanteshamyces sp. The four species of Microthyriaceae are new records for Panama: Maublanica uleana, Platypeltella irregularis, Platypeltella smilacis and Xenostomella tovarensis. The species Hemisphaeropsis magnoliae in the form group ‘Pycnothyriales’ is a new record for Panama. During this study, voucher material of 44 additional species of plant parasitic thyriothecioid ascomycetes was examined. Thereby, the number of species of Asterinaceae known for Panama since 2006 raises from four to 30, for Microthyriaceae respectively from zero to four and for ‘Pycnothyriales’ from zero to one. 21 of the presented species are new records for Central America and two species are new records for the American Continent. The presented 42 species parasitize 47 host plant species in 39 genera belonging to 28 plant families. For 23 fungal species, new host plant species are discovered. From those, seven belong to host plant genera not reported before to be parasitized by a member of Asterinaceae and Microthyriaceae: Burmeistera (Campanulaceae), Curatella and Davilla (Dilleniaceae), Greigia (Bromeliaceae), Hirtella (Chrysobalanaceae), Oxandra and Xylopia (Annonaceae). In this study, the first molecular phylogenetic approach in Asterinaceae is provided. For the first time, DNA was isolated from fresh material of Asterina spp. and their respective anamorphic stages on leaves in Panama. The hypothesis derived from SSU and LSU rDNA neighbour-joining analysis supports the monophyly of the Asterinaceae and suggests a close relationship to Venturiaceae within the class Dothideomycetes. The data obtained from the ppMP project (plant parasitic microfungi of Panama) indicate a constant but low abundance of plant parasitic thyriothecioid ascomycetes in natural plant communities in Panama, with Asterinaceae as the most species-rich and diverse family. Further collection activities in tropical regions worldwide will certainly increase our knowledge about species diversity and ecology of tropical plant parasitic thyriothecioid ascomycetes.
The division Ascomycota(Fungi) contains a large number of taxa known to reproduce only asexually by the formation of conidia or other non-motile propagules produced by mitotic cellular devisions. They are called anamorphic, mitosporic, asexual or conidial fungi and ecologically, they are often found associated with plant debris in different stages of decay. In general, saprobic anamorphs of ascomycetous affinities are poorly studied and their outstanding diversity is currently underexplored. Phylogenetic relationships are unknown for many of them and they are still largely underrepresented in the current phylogenetic classification system of Fungi, with many morphologically defined anamorphic taxa still awaiting taxonomic reassessment in the light of molecular approaches. The increasing usage of molecular markers combined with robust statistical methods has allowed their phylogenetic affinities to be revealed and to gradually incorporate many of them into the different taxonomic groups of the division Ascomycota. However, the phylogenetic placement and taxonomic status of a large number of saprobic taxa remain unresolved due to the lack of DNA sequence data.
The present dissertation aims to explore the rich but understudied diversity of those anamorphic fungi traditionally known as hyphomycetes that inhabit dead plant debris. It consists of five publications in which a polyphasic approach integrating morphological, developmental, cultural and molecular data was used to incorporate novel or incertae sedis taxa within Ascomycota and to make more sound decisions regarding their taxonomic status. Specific objectives include: 1. the collection, isolation and morphological characterization of selected anamorphic fungi representing putative new or interesting taxa of uncertain phylogenetic placement; 2. the generation of novel DNA sequence data to infer their phylogenetic relationships and to resolve their taxonomic affinities within Ascomycota; 3. the testing of any previously available morphologically based hypotheses on their putative position, generic placement or relationships with teleomorphic, pleomorphic or other anamorphic taxa; and 4. the determination of their generic validity, monophyly and taxonomic boundaries using molecular data and phylogenetic analyses methods.
Materials studied in these five projects consisted of specimens collected during field work carried out by the author or collaborators in different countries including USA, the Czech Republic and Panama between the years 2014 and 2017. The target substrates were dead leaves of different palm trees, dead wood and bark of pines and twigs or stems of unknown shrubs and woody vines that are all known to harbor a rich saprobic mycobiota. Putative novelties or anamorphic taxa with unknown or poorly studied phylogenetic affinities were selected for further morphological and molecular investigation. Micromorphological studies were based on fungal structures observed on natural substrate, herbarium specimens and in culture. DNA was extracted from cultures and PCR amplification followed by Sanger sequencing was carried out using relevant molecular markers employed in fungal phylogenetic studies. Newly obtained DNA sequence data were analyzed following a standard phylogenetic analysis pipeline and phylogenetic relationships were reconstructed using character-based methods such as Maximum Likelihood and Bayesian inference.
Conclusion is that anamorphic Ascomycota inhabiting dead plant debris represents a largely untapped source of biodiversity and information still in need of further exploration. A new capnodiaceous genus Castanedospora, seven new species named Taeniolella sabalicola, Hermatomyces bifurcatus, H. constrictus, H. megasporus, H. sphaericoides, H. verrucosus and Septonema lohmanii, and two new combinations, Castanedospora pachyanthicola and H. reticulatus, are proposed based on morphological and DNA sequence data. Molecular phylogenetics was confirmed as the tool of choice for the inference of relationships in novel or incertae sedis anamorphic fungi that are otherwise difficult to assess in the absence of a teleomorphic state. They were first resolved or revisited for several saprobic species such as Ernakulamia cochinensis, H. sphaericus, H. tucumanensis or Septonema fasciculare in a suitable framework for phylogenetic hypothesis testing. Molecular data allowed to fully incorporate all these taxa in Ascomycota, particularly within the classes Dothideomycetes and Sordariomycetes, and to provide a foundation for better taxonomic decisions on their classification. Large and polyphyletic genera such as Taeniolella, Sporidesmium and Septonema, partially treated in this work and containing mostly saprobic species of obscure affinities, remained in need of further investigation.
Die vorliegende Studie vermittelt einen epidemiologischen Überblick über das mit Haut- und Nagelläsionen assoziierte Pilzspektrum im Westen Panamas. Hierzu wurden Proben von vermutlich durch Pilzinfektionen verursachten Haut- sowie Nagelläsionen gesammelt und zum Anlegen von Kulturen verwendet. Die isolierten Pilze wurden basierend auf dem D-H-S System (Rieth), anhand morphologischer Merkmale, rDNA Sequenzdaten sowie phylogenetischen Analysen klassifiziert und mit Hilfe von Literaturdaten sowie physiologischen Eigenschaften als saprotrophe, opportunistische oder pathogene Organismen beurteilt. In Panama wurden 52 Proben von 51 Personen gesammelt, wobei das Material von 42 Haut- und Nagelläsionen der Füße, vier Läsionen der Fingernägel, zwei Chromomykosen, einer Tinea nigra und drei sonstigen Hautläsionen stammt. Bei 75 Prozent (n = 39) der Proben konnten Pilze kultiviert und insgesamt 201 Pilzstämme isoliert und subkultiviert werden. Hiervon wurden 50 Isolate (24,9 %) als Dermatophyten, 24 Stämme (11,9 %) als Hefen und 127 Isolate (63,2 %) als Schimmelpilze klassifiziert. Bei 19 Probanden (48,7 %) konnten Dermatophyten isoliert werden, wobei aus dem Probenmaterial von 12 Personen (63,2 %) ebenfalls andere Pilzarten nachgewiesen wurden. Von zwei Läsionen (5,1 %) wurden nur Hefen isoliert, wobei einmal eine Schwarze Hefe kultiviert wurde. In dem Material acht weiterer Proben (20,5 %) wurden Schimmelpilze und Hefestämme nachgewiesen und bei zehn Probanden (25,6 %) konnten aus dem Probenmaterial nur Schimmelpilze kultiviert werden. 172 Isolate wurden taxonomisch klassifiziert und 44 Arten aus 25 Gattungen, 17 Familien, 15 Ordnungen, sechs Klassen sowie den Abteilungen Ascomycota oder Basidiomycota zugeordnet. Die Ascomyceten stellen mit 164 Stämmen 40 verschiedener Arten aus 23 Gattungen, 15 Familien, 11 Ordnungen und vier Klassen die am häufigsten isolierte und vielfältigste Gruppe dar, während die Basidiomycota nur mit acht Isolaten vier verschiedener Arten zwei unterschiedlicher Gattungen, Familien, Ordnungen und Klassen nachgewiesen wurden. Im Rahmen dieser Arbeit wurden in Panama die anthropophilen Dermatophyten Trichophyton rubrum und T. interdigitale dokumentiert, wobei T. rubrum die am häufigsten isolierte Art darstellt. Kultivierte Hefen waren Candida albicans, C. duobushaemulonii, C. tropicalis, Hortaea werneckii, Sporobolomyces sp., Trichosporon asahii, T. japonicum und T. montevideense. Die Schimmelpilze stellen die größte und ökologisch diverseste Organismengruppe der kultivierten Pilze dar. So wurden von den untersuchten Läsionen sowohl humanpathogene Erreger, als auch opportunistische Arten und rein saprotrophe Pilze sowie mehrere Vertreter wahrscheinlich bisher nicht wissenschaftlich beschriebener Arten bzw. Gattungen nachgewiesen. Aus dem Probenmaterial wurden die Pilze Acremonium collariferum, Aspergillus awamori, A. clavatus, A. flavus, A. giganteus, A. heteromorphus, A. niger, A. ochraceus, A. sclerotiorum, A. versicolor, Chaetomium globosum, Chrysosporium tuberculatum, Cladosporium sphaerospermum, C. tenuissimum, Curvularia geniculata, C. lunata, Fonsecaea pedrosoi, Fusarium oxysporum, F. solani, Lophotrichus bartlettii, Microascus cinereus, Neoscytalidium dimidiatum, Penicillium commune, Scolecobasidium sp., Scopulariopsis carbonaria, S. croci, Verticillium cf. epiphytum und Wardomycopsis litoralis isoliert. Zudem wurden vier Isolate von zwei vermutlich neuen Arten der Gattung Acremonium (Bionectriaceae, Hypocreales), zwei Stämme mit einer genetischen Affinität zu der Gattung Cryptendoxyla (Cephalothecaceae, Sordariales) und jeweils ein mit den Gattungen Fusicladium (Venturiaceae, Venturiales), Knufia (Trichomeriaceae, Chaetothyriales) bzw. Rhexothecium (Eremomycetaceae, Dothideomycetidae) assoziierter Stamm kultiviert. Im Rahmen dieser Studie wurden A. giganteus, C. tenuissimum, L. bartlettii, S. carbonaria, S. croci, V. epiphytum und W. litoralis erstmalig von Mykosen des Menschen dokumentiert und die in der Literatur als Verursacher sowie Besiedler von Haut- und Nagelläsionen beschriebenen Organismen A. clavatus, A. flavus, A. niger, A. ochraceus, C. tropicalis, C. globosum, C. sphaerospermum, C. lunata, F. oxysporum, M. cinereus, P. commune, T. asahii, T. japonicum und T. montevideense wurden das erste Mal in klinischem Probenmaterial aus Panama nachgewiesen. Die Arten A. awamori, A. heteromorphus, C. globosum, C. tenuissimum, L. bartlettii, M. cinereus, P. commune, S. croci, T. asahii, T. japonicum, T. montevideense, V. epiphytum, W. litoralis und die Gattung Scolecobasidium wurden zudem erstmalig für Panama dokumentiert. Die Isolation von W. litoralis ist ebenfalls der erste Nachweis dieses Pilzes außerhalb von Spanien und auf dem amerikanischen Kontinent. Die große Anzahl im Rahmen dieser Arbeit beschriebener, bisher für die Wissenschaft unbekannter bzw. nicht in Panama dokumentierter Pilzarten lässt auf eine große mykologische Biodiversität in Panama schließen und zeigt den Bedarf weiterer Forschung.