The Effects of Mycorrhizae and Soil Biota Feedback on the Outcome of Plant Competition

Stanescu, Sabina

05 September 2012

The difference in the ability of plants to obtain resources has been used to predict the competition outcomes. Competitive interactions between plants can be influenced by trophic interactions. If mycorrhizae increase the growth of inferior competitors, then it can prevent competitive exclusion. I examined the effect of mycorrhizae on competitive interactions and found that inferior competitors had slow growth in the absence of mycorrhizae, but greater growth with mycorrhizae. By providing greater growth responses to inferior versus superior competitors, mycorrhizae promoted coexistence. In a separate experiment, I looked at the effects of whole soil biota on competitive ability. Coexistence can occur if dominant competitors experience negative feedback and or if inferior competitors experience positive feedback. I examined Plantago lanceolata L. specific feedback effects on competitive ability of 21 co-occurring species. I found that feedback effects did not affect hierarchies, and that positive feedback did not improve species competitive ability. / NSERC (Natural Science and Engineering Research Council), University of Guelph, Queen Elizabeth II Graduate Scholarship for Science and Technology

mycorrhizae

plant competition

plant-soil feedback

hierarchies

coexistence

mutualists

symbiosis

pathogens

soil community

resource uptake

phytometer

Divided They Stay : Species Coexistence In A Community Of Mutualists And Exploiters

Ghara, Mahua

07 1900

The fig–fig wasp interaction is a classic example of obligate mutualism and coevolution. It is also a nursery pollination mutualism and supports a diversity of exploiter/parasite/non-pollinating fig wasp species. Mutualists and exploiters comprise the fig wasp community. All the wasp community members are obligately dependent on the fig syconium (a globular closed structure comprising of hundreds to thousands of uniovulate florets) for completing their life cycle. The fig florets can be sessile (without a stalk) or pedicellate (stalked) and can support a community comprising 3–30 wasp species. Fig wasps can access the floral resources for oviposition directly by entering into the syconium (internal oviposition) or by penetration of the syconium surface (external oviposition). Most studies on the fig–fig wasp interaction have investigated the stability of the interaction, pollination biology, pollen dispersal, co-evolution or the effect of exploiters on this mutualism. However, studies dealing with community ecology and species coexistence mechanisms in these communities are rare. Factors contributing to coexistence of mutualists and exploiters in a fig wasp community were studied using a reasonably speciose fig wasp community associated with Ficus racemosa in south India. The wasp community of Ficus racemosa comprises a single species of pollinator and six species of exploiters; together they represent three genera of fig wasp species. The community members show differences in their feeding habit; they could be 1) gallers (feed on floral tissue after pollination and/or after inducing abnormal tissue development of the floret that is also called the gall), 2) inquilines (feed on gall tissue but cannot induce galling; survive by feeding on gall tissue and starving the host larva to death), or 3) parasitoids (lay eggs in or on developing offspring of a galler or inquiline species; develop by feeding on host tissue). Resource partitioning across temporal and spatial axes on this fig wasp community have been quantified. Ovipositor traits of each community member were also investigated since variation in ovipositor traits might facilitate resource partitioning. Finally, the role of life-history traits in species coexistence in this community was also explored. Temporal resource partitioning among members of the fig wasp community was studied (1) across the resource phenology, i.e. over the development phases of the fig syconium, and (2) on a diel scale. The seven members of the wasp community were found to partition their oviposition periods across fig syconium development phenology; some species used very young syconia (soft and smaller in size) for oviposition whereas others used mature (hard and bigger in size) syconia for oviposition. The first species to colonise the syconia were gallers and these were followed by parasitoids in a definite oviposition sequence. Pollinators arrived concurrently with an exploiter galler species and had the shortest oviposition window in terms of days. Although fig wasps are known to be largely diurnal, night oviposition in several fig wasp species was documented for the first time. Wasp species showed a peak in their activity period across the diel cycle and phenology. This is probably the first study to simultaneously investigate temporal partitioning across the syconium phenology as well as the diel scale in a fig wasp community. Partitioning of syconium space was investigated by quantifying the quality (type of floret—sessile or pedicellate) of floral resources. The number of individuals of each species developing in a syconium was quantified along with host accessibility during oviposition by each wasp species. The association between community members developing within a syconium was also tested. The differential occupancy of florets by each species based on their distance from the base of the syconium was evaluated. For the first time the relative distribution of males and females of the entire fig wasp community was quantified. The wasp community members used similar types of florets for oviposition. Seeds were found mostly in sessile florets and wasps were present in large numbers in pedicellate florets. Except for one wasp species, all others occurred uniformly within the syconium with respect to the distance from the base of the syconium. Species distribution models revealed higher prediction ability for the location of mutualists (seed and pollinator) within the syconium compared to exploiters. Within a syconium, all species pairs exhibited positive associations indicating either an absence of or low competitive exclusion. Some florets were modified by their gall occupants such that they were longer in length indicating the possibility of creation of an enemy-free zone by the gall occupant. Yet, most florets were accessible to ovipositing wasps based on ovipositor lengths and flexibility. The probability of finding a male decreased with increase in floret length when all wasp species were grouped together; however, this trend did not hold true when males and females of species were tested individually. Based on these results, the fig wasps of F. racemosa could be grouped into—(1) Early-arriving galler species which used immature florets, inducing large galls that protruded into the cavity, and with fewer individuals per syconium, (2) Galler species arriving concurrently with the pollinator, inducing galls that were morphologically indistinguishable from those of the pollinator, and with many individuals developing per fig syconium, and (3) Parasitoids and/or inquilines of the galler species, with variable abundance per syconium. Thus, these results show that the wasp species do not clearly partition floral resources between syconia and within syconium but they can modify their oviposition sites and also differ in the proportion of florets within a syconium used for oviposition. Oviposition sites of the fig wasps can be reached only by using their ovipositor. The resources for oviposition are hidden and hence might require tools for resource location and utilisation. The frequency and diversity of sensilla on the ovipositor, as well as ovipositor structure (morphology and sclerotisation of the tip) was documented for the entire wasp community. The internally-ovipositing pollinator had the simplest ovipositor, negligible sclerotisation and only one type of sensillum on its ovipositor; the externally ovipositing exploiter species had teeth on their ovipositors, sclerotisation and various types of ovipositor sensilla. Ovipositor sclerotisation and lateness of arrival for oviposition in syconium development were positively correlated. Ovipositor teeth height increased from gallers to parasitoids. Presence of different types of sensilla was noted which included mechano- and chemosensilla, as well as combined mechano-chemosensilla. Chemosensilla were most concentrated at ovipositor tips while mechanoreceptors were more widely distributed. Ovipositor traits of one putative parasitoid/inquiline species differed from those of its syntopic galler congeners and clustered with those of parasitoids within a different wasp subfamily. Thus ovipositor tools show lability based on adaptive necessity, and are not constrained by phylogeny. Life-history traits such as fecundity, pre-adult and adult lifespan were studied for each wasp member of the community. Trade-offs in life-history traits were also investigated. Interspecific variation in life-history traits was observed. Gallers were pro-ovigenic (all eggs were mature upon adult emergence) whereas parasitoids were synovigenic (eggs matured progressively during adult lifespan). Initial egg load was correlated with body size for some species, and there was a trade-off between egg number and egg size across all species. Although all species completed their development and left the syconium concurrently, they differed in their adult and preadult lifespans. Providing sucrose solutions increased parasitoid lifespan but had no effect on the longevity of some galler species. While feeding regimes and body size affected longevity in most species, an interaction effect between these variables was detected for only one species. Life-history traits of wasp species exhibited a continuum in relation to their arrival sequence at syconia for oviposition during syconium development, and therefore reflected their ecology. The largest number of eggs, smallest egg sizes, and shortest longevities were characteristic of the earliest-arriving galling wasps at the smallest, immature syconia; the converse characterised the later-arriving parasitoids at the larger, already exploited syconia. Thus life-history is an important correlate of community resource partitioning and can be used to understand community structure. The comparative approach revealed constraints and flexibility in trait evolution. This is probably the first comprehensive study of life-history traits in a fig wasp community.

Ecological Relationships

Biotic Communities

Mutualistic Interactions

Fig–wasp Mutualism

Fig Wasp

Ficus racemosa

Mutualists

Exploiters

Ecology

Plant Traits Moderate Pollen Limitation of Introduced and Native Plants: A Phylogenetic Meta-Analysis of Global Scale

Burns, Jean H., Bennett, Joanne M., Li, Junmin, Xia, Jing, Arceo-Gómez, Gerardo, Burd, Martin, Burkle, Laura A., Durka, Walter, Ellis, Allan G., Freitas, Leandro, Rodger, James G., Vamosi, Jana C., Wolowski, Marina, Ashman, Tia Lynn, Knight, Tiffany M., Steets, Janette A.

01 January 2019

© 2019 The Authors. New Phytologist © 2019 New Phytologist Trust The role of pollination in the success of invasive plants needs to be understood because invasives have substantial effects on species interactions and ecosystem functions. Previous research has shown both that reproduction of invasive plants is often pollen limited and that invasive plants can have high seed production, motivating the questions: How do invasive populations maintain reproductive success in spite of pollen limitation? What species traits moderate pollen limitation for invaders? We conducted a phylogenetic meta-analysis with 68 invasive, 50 introduced noninvasive and 1931 native plant populations, across 1249 species. We found that invasive populations with generalist pollination or pollinator dependence were less pollen limited than natives, but invasives and introduced noninvasives did not differ. Invasive species produced 3× fewer ovules/flower and >250× more flowers per plant, compared with their native relatives. While these traits were negatively correlated, consistent with a tradeoff, this did not differ with invasion status. Invasive plants that produce many flowers and have floral generalisation are able to compensate for or avoid pollen limitation, potentially helping to explain the invaders’ reproductive successes.

alien plants

invasion

meta-analysis

mutualists

plant reproduction

plant–pollinator interactions

pollen limitation

Biological Sciences

Fatores associados ao sucesso reprodutivo de duas espécies coocorrentes de Jacaranda Juss. (Bignoniaceae)

Souza, Camila Vaz de.

January 2019

Orientador: Elza Guimarães / Resumo: Nessa tese estudamos duas espécies melitófilas de Bignoniaceae, Jacaranda caroba e J. decurrens, que coocorrem em formações savânicas de cerrado e que se mostraram modelos interessantes para explorarmos aspectos ecológicos e evolutivos relacionados à sua reprodução sexual, tendo em vista que apresentam uma complexa rede de interações com mutualistas e antagonistas. A sobreposição geográfica dessas duas espécies nos permitiu avaliar padrões de coexistência relacionados à dinâmica de florescimento, bem como seu anúncio floral relacionado à atração de visitantes florais mutualistas e antagonistas. Além disso, essa interação com mutualistas e antagonistas possibilitou averiguar o impacto da atuação de antagonistas que roubam néctar sobre a polinização de ambas as espécies e como os danos realizados por abelhas roubadoras de néctar interferem na sinalização visual e química aos polinizadores. Também avaliamos a exploração de néctar por diferentes grupos funcionais de visitantes florais de J. caroba e J. decurrens. Por fim, considerando que o sucesso reprodutivo está diretamente relacionado com a eficiência da polinização investigamos o sistema reprodutivo dessas duas espécies e o efeito da qualidade do pólen transferido entre flores associado ao comportamento dos polinizadores durante o forrageamento, buscando compreender os fatores intrínsecos relacionados à seleção mecanismos de autoincompatibilidade nas populações naturais amostradas. / Abstract: In this dissertation we studied two mellithiphilous Bignoniaceae species, Jacaranda caroba and J. decurrens, that co-occur in savanic cerrado formations. This is an interesting model to explore ecological and evolutionary aspects related to their sexual reproduction taking into account that they present a complex network of interactions with mutualists and antagonists. These species‟ geographical overlap allowed us to evaluate patterns of coexistence related to the flowering dynamics, as well as its floral display related to the attraction of mutualists and antagonists‟ floral visitors. Besides, their interactions with mutualists and antagonists allowed us to evaluate the impact of nectar-robbing antagonists on both species and how damage by nectar-robber bees interferes with visual and chemical signaling to pollinators. We also evaluated the nectar exploitation by different functional groups of J. caroba and J. decurrens floral visitors. Finally, considering that these species‟ reproductive success and the effect of pollinator behavior during foraging on the quality of the pollen that is transferred among flowers. Considering that species‟ reproductive success is directly related to the pollination efficiency, we investigated the reproductive system of these two species and the effect of the quality of the pollen transferred between flowers associated to the pollinators‟ behavior during the foraging, trying to understand the intrinsic factors related to mechanisms of self-in... (Complete abstract click electronic access below) / Doutor

anúncio floral

exploração de néctar

mutualistas

sinalização química

sinalização visual

sistemas reprodutivos

sucesso reprodutivo

Chemical signaling

floral display

mutualists

nectar exploitation

reproductive success

reproductive systems

visual signaling

Multitrophic interactions along a plant size gradient in Brassicaceae

Schlinkert, Hella

18 March 2014

Das Wissen über Mechanismen, die einen Einfluss auf Muster der Artenvielfalt und biotische Interaktionen haben, ist grundlegend für den Schutz von Biodiversität. Darüber hinaus kann es von direktem ökonomischem Nutzen sein, zum Beispiel im biologischen Pflanzenschutz oder bei Bestäubungsdienstleistungen. Die Größe eines Organismus kann ein solcher Faktor sein, der die Artenzahl und Interaktionen der assoziierten Organismen beeinflusst, denn große Organismen sind auffälliger als kleine und ihr Angebot an Ressourcen und Nischen für mit ihnen assoziierte Organismen ist oft reicher. Bezogen auf Pflanzen könnte daher die Größe einer Pflanze einen erheblichen Einfluss auf die Artenzahl der mit ihr assoziierten Arthropoden und ihre biotischen Interaktionen wie Herbivorie oder Bestäubung haben. Trotzdem ist der Einfluss der Pflanzengröße auf mutualistische und antagonistische Interaktionspartner der Pflanze und der sich daraus ergebende Einfluss auf die reproduktive Fitness der Pflanze bisher nicht umfassend und unter standardisierten Bedingungen untersucht worden. In der vorliegenden Studie wurden die Auswirkungen der Pflanzengröße auf die Artenzahl von Herbivoren, deren Gegenspielern und Bestäubern untersucht, sowie die Auswirkungen dieser Interaktionspartner auf die Pflanzenfitness. Dabei wurde zusätzlich zwischen endophagen und ektophagen Herbivoren und deren Gegenspielern unterschieden. Außerdem wurden die Herbivoren einzelner Pflanzenkompartimente und deren Gegenspieler separat analysiert. Des Weiteren wurde der Einfluss der Pflanzengröße auf den Herbivorieschaden an den verschiedenen Pflanzenkompartimenten und deren Einfluss auf die reproduktive Fitness der Pflanze, d.h. auf ihre Samenzahl, Tausendkorngewicht und Samengesamtgewicht, untersucht. Zuletzt wurde besonderes Augenmerk auf den Einfluss der Pflanzengröße auf mutualistische und antagonistische Blütenbesucher und deren Einfluss auf die reproduktive Fitness gelegt und untersucht, ob und inwiefern die reproduktive Fitness letztendlich von der Pflanzengröße abhängig ist. Zur Untersuchung dieser Fragen wurde ein „Common Garden“-Experiment angelegt. Um einen interspezifischen Pflanzengrößengradienten zu erzeugen, wurden 21 annuelle Pflanzenarten aus der Familie der Kreuzblütler (Brassicaceae) ausgewählt, deren Größe von 10 bis 130 cm reichte (gemessen als Pflanzenhöhe vom Boden bis zur Spitze). So konnten die Einflüsse des Habitats und der umgebenden Landschaft für alle Pflanzenarten standardisiert und trotzdem ein breiter Gradient realisiert werden. Dadurch hebt sich diese Studie von den bisherigen ab, die den Effekt von meist intraspezifischer Pflanzengröße auf die assoziierten Tiere anhand wild wachsender Pflanzen untersucht haben. Pflanzengröße sowie Zahl, Biomasse und Größe der unterschiedlichen überirdischen Pflanzenkompartimente (Blüten, Schoten, Blätter, Stängel) sowie Blütendeckung und -farbe wurden aufgenommen. Der Herbivorieschaden an diesen Pflanzenkompartimenten und die reproduktive Fitness (Samenzahl, Tausendkorngewicht und Gesamtsamengewicht) wurden gemessen. An und in Blüten, Schoten, Blättern und Stängeln wurden herbivore, räuberische, parasitäre und bestäubende Arthropoden gezählt. Die Pflanzengröße hatte einen positiven Einfluss auf die Artenzahl von Herbivoren, deren Gegenspielern und Bestäubern. Das traf ebenso auf endophage und ektophage sowie auf mit Blättern und Schoten assoziierte Herbivore und deren Gegenspieler zu. Des Weiteren konnte ein Anstieg des Herbivorieschadens an Blüten und Schoten mit zunehmender Pflanzengröße festgestellt werden, wohingegen der Schaden an Blättern und Stängeln von der Biomasse des entsprechenden Kompartiments positiv beeinflusst wurde. Der Schaden an Blüten hatte den stärksten Einfluss auf die reproduktive Fitness und reduzierte neben der Samenzahl auch das Tausendkorngewicht und das Gesamtsamengewicht der Pflanze. Die genaue Analyse der blütenbesuchenden Insekten ergab einen positiven Einfluss der Pflanzengröße auf die Abundanz und Artenzahl von Bestäubern (allerdings nicht bei extrem großem Blütenangebot), wie auch auf die Abundanz der adulten und juvenilen Rapsglanzkäfer und deren Parasitierungsrate. Steigende Rapsglanzkäferzahlen verringerten die Samenzahl sowie das Tausendkorngewicht, während die Bestäuber sich lediglich auf die Samenzahl positiv auswirkten. Insgesamt führte ein Anstieg der Pflanzenhöhe zu einer Abnahme des Tausendkorngewichts, aber nicht zu einer Veränderung der Samenzahl oder des Gesamtsamengewichts, was auf einen Ausgleich der Effekte von zunehmender Antagonistenzahl und zunehmender Mutualistenzahl hindeutet. Großen Pflanzen entstehen also durch ihre Auffälligkeit und Attraktivität für Herbivore hohe Fitnesskosten, wobei insbesondere der Blütenschaden durch Rapsglanzkäfer einen starken negativen Einfluss auf Samenzahl, Tausendkorngewicht und Gesamtsamengewicht hat. Diesen Fitnesskosten großer Pflanzen wirkt der Nutzen durch ihre Auffälligkeit und Attraktivität für Bestäuber entgegen, die die Samenzahl positiv beeinflussen. Hinsichtlich der Samenzahl sollten also große Pflanzen gegenüber kleineren im Vorteil sein, wenn die Insektengemeinschaft des Habitats von Bestäubern dominiert wird. Wird sie aber von herbivoren Blütenbesuchern dominiert, sollten kleine Pflanzen gegenüber großen einen Vorteil haben. Im Gegensatz dazu sollten große Pflanzen immer einen Nachteil bezüglich des Tausendkorngewichts haben, das von Antagonisten, nicht aber von Mutualisten beeinflusst wurde. Der Einfluss der Pflanzengröße auf biotische Interaktionen wurde bisher oft unterschätzt, obwohl er sich auf komplexe Weise über die mutualistischen und antagonistischen Insekten auf die reproduktive Fitness der Pflanze auswirkt.

570

plant size

plant height

trophic interactions

Brassicaceae

pollination

herbivory

predation

parasitism

antagonists

mutualists

feeding damage

pollen beetles

Meligethes aeneus

bees

Apoidea

parasitoids

herbivores

predators

pollinators

resource availability

plant fitness

species richness

natural enemies

Biologie (PPN619462639)

Mécanismes de recrutement du chêne (Quercus sp.) en forêt tempérée : rôle des arbres adultes sur les graines et les plantules / Mechanisms of oak (Quercus sp.) recruitment in temperate forest : role of adult trees on seeds and seedlings

Deniau, Maud

13 December 2016

Les adultes conspécifiques (ou évolutivement proches) réduisent le recrutement des graines/plantules à leur proximité, à cause d’une forte pression de prédation par des ennemis spécialistes ou peu mobiles (Hypothèse de Janzen-Connell). Cependant, l’importance de l’effet Janzen-Connell reste controversé, suggérant que les interactions entre adultes et plantules ne se restreignent pas aux adultes conspécifiques proches, ni aux ennemis spécialistes : les adultes hétérospécifiques, la taille des adultes et la représentation de leur lignée dans la canopée pourraient aussi contrôler le recrutement des plantules. De plus, les effets des adultes sur les graines/plantules pourraient être médiés par des ennemis généralistes et très mobiles, par des champignons mutualistes et par certaines conditions micro-environnementales. Nous avons étudié les effets des arbres adultes sur le recrutement des graines/plantules de chêne, via les ennemis mobiles, les champignons mutualistes et enfin les conditions micro-environnementales. Nos résultats démontrent que : (i) un adulte conspécifique empêche le recrutement des plantules à proximité, via une accumulation des décomposeurs spécialistes qui augmentent la qualité nutritionnelle des plantules, attirant ainsi les ennemis. De plus, un adulte de grande taille attire des herbivores mollusques ; (ii) un adulte hétérospécifique favorise le recrutement des plantules à sa proximité, en réduisant l’herbivorie et en améliorant le microenvironnement ; (iii) une canopée évolutivement proche favorise le recrutement des graines et plantules, en rassasiant les prédateurs de graines et en augmentant le soutien par les mycorhizes, respectivement. Ainsi, nos résultats permettent d’identifier les structures forestières optimales pour le recrutement du chêne. De plus, nos résultats suggèrent que le recrutement maintient les chênes proches de leurs espèces apparentées et donc dans leur niche ancestrale. / Conspecific (or closely related) adults reduce seed/seedling recruitment in their proximity, due to high pressure from specialized or little mobile enemies (Janzen-Connell Hypothesis). However, the importance of the Janzen-Connell effect remains controversial, suggesting that interactions between adults and seedlings are not restricted to close conspecific adults, nor to specialized enemies: heterospecific adults, size of adults and dominance of their lineage in the canopy may also control seed/seedling recruitment. Moreover, effects of adults on seeds/seedlings may be mediated by generalist or mobile enemies, fungal mutualists, and microenvironmental conditions. We studied the effect of adult trees on recruitment of oak seeds/seedlings, via mobile enemies, fungal mutualists, and finally microenvironmental conditions. Our results demonstrated that (i) a conspecific adult impedes recruitment of proximate seedlings by accumulating specialist decomposers that favor nutritional quality of seedlings and thereby attract herbivores. Moreover, a large adult attracts mollusk herbivores; (ii) a heterospecific adult favors recruitment of proximate seedlings, by reducing herbivory and improving the micro-environment; (iii) a closely related canopy favors seeds and seedlings recruitment, by oversaturating seed predators and increasing mycorrhizal support, respectively. Hence, our results permit to identify forest structures that are optimal for oak recruitment. Moreover, our results suggest that recruitment maintain oaks close to related species, in their ancestral niche.

Distance évolutive

Distance spatiale

Écologie

Ennemis

Évolution

Forêt tempérée

Hypothèse de Janzen-Connell

Microenvironnement

Mutualistes

Ecology

Enemies

Evolution

Evolutionary distance

Janzen-Connell hypothesis

Micro-Environment

Mutualists

Spatial distance

Temperate forest

Endosymbiosis in Paramecium characterization of novel systems, transmission routes, and the influence of abiotic stress factors

Szokoli, Franziska

13 July 2017

Symbiosis between bacteria and single celled eukaryotes, such as ciliates and amoebae, is a widespread phenomenon. In the past years, the number of species characterizations of symbiotic bacteria, has constantly grown. Especially members of the order Rickettsiales (Alphaproteobacteria), which comprises obligate intracellular human and animal pathogens as well as other non-pathogenic intracellular species, got into the focus. However, biodiversity of both, protists and associated bacterial symbionts, is still largely underestimated. Thus, I hypothesised that different kind of bacteria occur naturally in the ciliate Paramecium, that paramecia can serve as potential reservoir for human and animal pathogens, and that the species distribution of Paramecium and its endosymbionts shows geographical patterns. In the present thesis, I provide data on the distribution and diversity of Paramecium species and their endosymbionts isolated from freshwater and brackish habitats from North and South America. The most frequent species were Paramecium biaurelia, Paramecium caudatum and Paramecium multimicronucleatum for the North American samples as well as P. multimicronucleatum and Paramecium calkinsi for the South American samples indicating geographical differences in the species distribution of Paramecium between the two continents. Monoclonal cultures were screened for the presence of endosymbionts by fluorescence in situ hybridization (FISH) using universal and specific probes. I detected bacterial endosymbionts belonging to different taxa of Rickettsiales sensu lato in Paramecium-cultures isolated from eight different habitats. Moreover, I characterized the four novel endosymbiont species “Candidatus Fokinia solitaria”, “Candidatus Fokinia cryptica”, “Candidatus Bealeia paramacronuclearis” and “Candidatus Jurandia parameciophila”, respectively, presenting detailed descriptions. Thus, I did not only detect various bacterial symbionts in different host species from two continents, but I also identified bacteria related to human and animal pathogens. Moreover, phylogenetic information provided by the four novel bacterial species helped me to revise the taxonomic organisation of the order Rickettsiales, which I split into the two orders Rickettsiales sensu stricto and Holosporales ord. nov. The importance and severity of a symbiosis for its host can be estimated, among others, by studying the symbionts transmission modes. Most host-symbiont systems in nature show a mixed mode of transmission, even if one transmission type occurs only rarely. Moreover, evolution of exclusively vertically or horizontally transmitted symbionts is scarce. However, circumstances for horizontal transmission of many symbiont species so far described as vertically transmitted, are completely unknown and still need to be revealed. Therefore, I assumed that both, vector organisms and environmental stress, can trigger horizontal transmission. I performed different sets of infection experiments using vector organisms and environmental stress factors as driving forces to trigger horizontal transmission. In experiments focused on vector-induced transmission, I was not able to confirm vector properties of Holospora towards Caedibacter, as described towards food bacteria. However, I rarely observed vector-independent horizontal transmission of Caedibacter taeniospiralis towards symbiont-free Paramecium species. The here tested genotypes of C. taeniospiralis might still take advantage of additional horizontal transmission, even if it occurs rarely. In addition, I tested the effect of salinity and temperature stress on the transmission of the recently described bacterial symbionts “Candidatus Megaira polyxenophila” and “Ca. Bealeia paramacronuclearis” as potentially interesting representatives. The involved symbiont and host genotypes differed in their response to the induced environmental stress. Results of horizontal transmission turned out to be ambiguous. While temperature stress did not show any effect on transmission, salinity stress could possibly induce horizontal transmission of “Ca. Megaira polyxenophila” at slightly increased salinity concentrations in regard to normal conditions indicating the significance of environmental stress for the selection of the preferred transmission mode. / Symbiosen zwischen Bakterien und einzelligen Eukaryoten wie Ciliaten und Amöben sind weitverbreit. In den vergangenen Jahren stieg die Anzahl der Artbeschreibungen symbiotisch lebender Bakterien stetig an. Besonders Vertreter der Ordnung Rickettsiales (Alphaproteobacteria), welche obligat intrazelluläre Menschen- und Tierpathogene sowie andere nicht-pathogene, intrazelluläre Arten beinhaltet, rückten in den Fokus. Die Biodiversität von Protisten und mit ihnen assoziierte, bakterielle Symbionten wird jedoch weitestgehend unterschätzt. Daher untersuchte ich, welche verschiedenen Bakterienarten im Ciliaten Paramecium vorkommen, ob Paramecien als potentielles Reservoir für menschen- und tierpathogene Bakterien dienen können und ob die Artverbreitung von Paramecium und seiner Symbionten geographische Muster aufweist. In der vorliegenden Arbeit, präsentiere ich Verbreitungs- und Diversitätsdaten von Paramecium-Arten sowie deren Endosymbionten, welche aus nord- und südamerikanischen Süß- und Brackwasserproben isoliert wurden. Die am häufigsten erfassten Arten in nordamerikanischen Proben waren Paramecium biaurelia, Paramecium caudatum und Paramecium multimicronucleatum, sowie P. multimicronucleatum und Paramecium calkinsi in südamerikanischen Proben. Die identifizierten Arten weisen auf geographische Unterschiede in der Artverteilung der beiden Kontinente hin. Monoklonale Massenkulturen wurden unter Verwendung universeller und spezifischer Sonden mittels Fluoreszenz in situ Hybridisierung auf das Vorhandensein von Endosymbionten überprüft. Dabei entdeckte ich bakterielle Endosymbionten verschiedener Rickettsiales sensu lato-Vertreter in Paramecienkulturen aus acht verschiedenen Habitaten. Darüber hinaus charakterisierte ich die vier neuen Endosymbiontenarten “Candidatus Fokinia solitaria”, “Candidatus Fokinia cryptica”, “Candidatus Bealeia paramacronuclearis” und “Candidatus Jurandia parameciophila” und lieferte detaillierte Artbeschreibungen. Somit erfasste ich nicht nur verschiedene Symbionten in unterschiedlichen Paramecium-Arten der beiden Kontinente, sondern identifizierte auch Bakterien, welche nahe mit relevanten Pathogenen verwandt sind. Die phylogenetischen Informationen, die mir diese vier neuen Bakterienarten lieferten, halfen mir die taxonomische Organisation der Ordnung Rickettsiales zu revidieren, welche ich in die zwei Ordnungen Rickettsiales sensu stricto und Holosporales ord. nov. aufspaltete. Die Bedeutung einer Symbiose für seinen Wirt kann unter anderem durch die Erforschung der Übertragungswege abgeschätzt werden. Die meisten natürlichen Wirt-Symbionten-Systeme zeigen gemischte Übertragungswege, auch wenn eine der Übertragungsarten nur wenig genutzt wird. Ferner tritt eine Evolution hin zu sich ausschließlich vertikal oder horizontal übertragenden Symbionten selten auf. Die Bedingungen, unter denen eine horizontale Übertragung der meisten sich als vertikal übertragend beschriebenen Symbionten stattfindet, sind unbekannt und müssen nach wie vor untersucht werden. Deshalb legte ich meiner Arbeit die Annahme zugrunde, dass sowohl Vektororganisen als auch Umweltstress eine horizontale Übertragung begünstigen können. Ich führte verschiedene Infektionsexperimente durch, in denen ich die Effekte von Vektororganismen und verschiedener abiotischer Stressfaktoren als potenzielle Auslöser für eine horizontale Übertragung untersuchte. In den Experimenten, die sich mit einer Vektor-induzierten Übertragung beschäftigten, konnte ich keine möglichen Vektoreigenschaften von Holospora gegenüber Caedibacter nachweisen, wie sie gegenüber Futterbakterien bekannt sind. In seltenen Fällen beobachtete ich jedoch eine Vektor-unabhängige, horizontale Übertragung von Caedibacter taeniospiralis auf Symbionten-freie Paramecium-Arten. Die hier getesteten C. taeniospiralis-Genotypen sind möglicherweise immer noch dazu in der Lage, die Vorteile einer zusätzlichen horizontalen Übertragung zu nutzen. Zusätzlich testete ich die Effekte von Salz- und Temperaturstress auf die Übertragung der kürzlich beschriebenen, bakteriellen Symbionten “Candidatus Megaira polyxenophila” und “Ca. Bealeia paramacronuclearis” als potentiell interessante Vertreter. Die getesteten Symbionten- und Wirtsgenotypen unterschieden sich hinsichtlich ihrer Reaktion auf den ausgelösten abiotischen Stress. Die erzielten Ergebnisse zur horizontalen Übertragung erscheinen jedoch nicht eindeutig. Während Temperaturstress keine Effekte auf die Übertragung hatte, führte leichter Salzstress zu einer möglichen horizontalen Übertragung von “Ca. Megaira polyxenophila”, was auf die Bedeutung abiotischer Stressfaktoren bei der Wahl des bevorzugten Übertragungsweges hinweist. / Le simbiosi fra batteri ed eucarioti unicellulari, come i ciliati e le amebe, è un fenomeno molto diffuso. Negli anni passati, il numero di descrizioni di specie di batteri simbionti è cresciuto costantemente. In particolare, sono venuti alla ribalta i membri dell’ordine Rickettsiales (Alphaproteobacteria), che comprende patogeni intracellulari obbligati umani e di animali, oltre ad altre specie di batteri intracellulari non patogeni. Comunque, la biodiversità dei protisti e dei batteri simbionti a loro associati è ancora largamente sottostimata. Perciò, è stato ipotizzato che ci siano diversi tipi di batteri che vivono in associatione con il ciliato Paramecium in natura, che I parameci possano fungere da possibili serbatoi naturali per patogeni umani e animali, e che la distribuzione delle specie di Paramecium e dei suoi simbionti presenti dei pattern geografici. Nel presente lavoro di tesi, sono presentati dati sulla distribuzione e diversità di specie del genere Paramecium e dei loro batteri endosimbionti, isolate da ambienti dulciacquicoli e salmastri dal nordamerica e sudamerica. Le specie più frequenti sono state Paramecium biaurelia, Paramecium caudatum e Paramecium multimicronucleatum per i campioni nordamericani, e P. multimicronucleatum e Paramecium calkinsi per i campioni sudamericani, il che indica differenze geografiche nella distribuzione della specie di Paramecium fra I gue continenti. Colture monoclonali sono state saminate per la presenza di endosimbionti tramite ibridazione in situ a fluorescenza (FISH), impiegando sonde universali e specifiche. Sono stati rilevati batteri endosimbionti appartenenti a diversi taxa di Rickettsiales sensu lato in colture di paramecio isolate da otto diversi habitat. Inoltre, sono state caratterizzate quattro nuove specie di endosimbionti, rispettivamente, “Candidatus Fokinia solitaria”, “Candidatus Fokinia cryptica”, “Candidatus Bealeia paramacronuclearis” e “Candidatus Jurandia parameciophila”), fornendo descrizioni dettagliate. Perciò non solo sono stati caratterizzati diversi batteri simbionti in differenti specie di ospiti da due continenti, ma sono anche stati identificati batteri affini a patogeni umani e animali. I dati filogenetici forniti dalle quattro nuove specie mi hanno permesso di revisionare l’organizzazione tassonomica dell’ordine Rickettsiales, che è stato diviso nei due ordini Rickettsiales sensu stricto e Holosporales ord. nov. L’importanza e la severità di una simbiosi per l’ospite può essere stimata studiando le modalità di trasmissione del simbionte. La maggior parte dei sistemi ospite-simbionte in natura presentano una modalità mista di trasmissione, anche se una tipo di trasmissione avviene solo occasionalmente. Inoltre, l’evoluzione di simbionti trasmessi eclusivamente per via verticale o orizzontale è scarsa. Comunque, le circostanze per la trasmissione orizzontale di molti simbionti finora descritti come trasmessi orizzontalmente sono completamente sconosciute, e necessitano di essere rivelate. Perciò, è stato ipotizzato che sia organismi vettori che stress ambientali possano indurre la trasmissione orizzontali. Sono stati eseguiti diversi set di esperimenti di infezione, impiegando organismi vettori e fattori di stress ambientali come agenti che potessero indurre tramissione orizzontale. In esperimenti incentrati sulla trasmissione indotta da vettori, non è stato possibile confermare capacità di vettore da parte di Holospora nei confronti di Caedibacter, come invece descritto nei confronti di batteri a vita libera. Comunque, in rari casi è stata osservata trasmissione orizzontale di Caedibacter taeniospiralis verso specie di Paramecium indipendente dal vettore. I genotipi testati di C. taeniospiralis potrebbero comunque trarre un vantaggio dalla possibilità alternativa di trasmissione orizzontale, anche se questa avviene solo di rado. Inoltre, è stato testato l’effetto dello stress da salinità e temperatura sulla trasmissione dei batteri simbionti recentemente descritti “Candidatus Megaira polyxenophila” e “Ca. Bealeia paramacronuclearis” come rappresentanti potenzialmente interessanti. I genotipi coinvolti di ospiti e simbionti hanno risposto diversamente a fattori indotti di stress ambientale. I risultati sono stati ambigui in termini di trasmissione orizzontale. Mentre lo stress da temperatura non ha mostrato un effetto sulla trasmissione, è stata rilevata una possibile induzione della trasmissione di “Ca. Megaira polyxenophila” in presenza di basso stress salino rispetto alle condizioni normali, indicando l’importanza degli stress ambientali per la selezione della modalità di trasmissione.

info:eu-repo/classification/ddc/570

ddc:570