@article{LeonhardtKaltenpoth2014, author = {Leonhardt, Sara D. and Kaltenpoth, Martin}, title = {Microbial Communities of Three Sympatric Australian Stingless Bee Species}, series = {PLoS ONE}, volume = {9}, journal = {PLoS ONE}, number = {8}, doi = {10.1371/journal.pone.0105718}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119341}, pages = {e105718}, year = {2014}, abstract = {Bacterial symbionts of insects have received increasing attention due to their prominent role in nutrient acquisition and defense. In social bees, symbiotic bacteria can maintain colony homeostasis and fitness, and the loss or alteration of the bacterial community may be associated with the ongoing bee decline observed worldwide. However, analyses of microbiota associated with bees have been largely confined to the social honeybees (Apis mellifera) and bumblebees (Bombus spec.), revealing - among other taxa - host-specific lactic acid bacteria (LAB, genus Lactobacillus) that are not found in solitary bees. Here, we characterized the microbiota of three Australian stingless bee species (Apidae: Meliponini) of two phylogenetically distant genera (Tetragonula and Austroplebeia). Besides common plant bacteria, we find LAB in all three species, showing that LAB are shared by honeybees, bumblebees and stingless bees across geographical regions. However, while LAB of the honeybee-associated Firm4-5 clusters were present in Tetragonula, they were lacking in Austroplebeia. Instead, we found a novel clade of likely host-specific LAB in all three Australian stingless bee species which forms a sister clade to a large cluster of Halictidae-associated lactobacilli. Our findings indicate both a phylogenetic and geographical signal of host-specific LAB in stingless bees and highlight stingless bees as an interesting group to investigate the evolutionary history of the bee-LAB association.}, language = {en} } @phdthesis{Leingaertner2013, author = {Leing{\"a}rtner, Annette}, title = {Combined effects of climate change and extreme events on plants, arthropods and their interactions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-87758}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {I. Global climate change directly and indirectly influences biotic and abiotic components of ecosystems. Changes in abiotic ecosystem components caused by climate change comprise temperature increases, precipitation changes and more frequently occurring extreme events. Mediated by these abiotic changes, biotic ecosystem components including all living organisms will also change. Expected changes of plants and animals are advanced phenologies and range shifts towards higher latitudes and altitudes which presumably induce changes in species interactions and composition. Altitudinal gradients provide an optimal opportunity for climate change studies, because they serve as natural experiments due to fast changing climatic conditions within short distances. In this dissertation two different approaches were conducted to reveal species and community responses to climate change. First, species richness and community trait analyses along an altitudinal gradient in the Bavarian Alps (chapters II, III) and second, climate change manipulation experiments under different climatic contexts (chapters IV, V, IV). II. We performed biodiversity surveys of butterfly and diurnal moth species on 34 grassland sites along an altitudinal gradient in the National Park Berchtesgaden. Additionally, we analysed the dominance structure of life-history traits in butterfly assemblages along altitude. Species richness of butterflies and diurnal moths decreased with increasing altitude. The dominance of certain life-history-traits changed along the altitudinal gradient with a higher proportion of larger-winged species and species with higher egg numbers towards higher altitudes. However, the mean egg maturation time, population density and geographic distribution within butterfly assemblages decreased with increasing altitude. Our results indicate that butterfly assemblages were mainly shaped by environmental filtering. We conclude that butterfly assemblages at higher altitudes will presumably lack adaptive capacity to future climatic conditions, because of specific trait combinations. III. In addition to butterfly and diurnal moth species richness we also studied plant species richness in combination with pollination type analyses along the altitudinal gradient. The management type of the alpine grasslands was also integrated in the analyses to detect combined effects of climate and management on plant diversity and pollination type. Plant species richness was highest at intermediate altitudes, whereby the management type influenced the plant diversity with more plant species at grazed compared to mown or non-managed grasslands. The pollination type was affected by both the changing climate along the gradient and the management type. These results suggest that extensive grazing can maintain high plant diversity along the whole altitudinal gradient. With ongoing climate change the diversity peak of plants may shift upwards, which can cause a decrease in biodiversity due to reduced grassland area but also changes in species composition and adaptive potential of pollination types. IV. We set up manipulation experiments on 15 grassland sites along the altitudinal gradient in order to determine the combined effects of extreme climatic events (extreme drought, advanced and delayed snowmelt) and elevation on the nutritional quality and herbivory rates of alpine plants. The leaf CN (carbon to nitrogen) ratio and the plant damage through herbivores were not significantly affected by the simulated extreme events. However, elevation influenced the CN ratios and herbivory rates of alpine plants with contrasting responses between plant guilds. Furthermore, we found differences in nitrogen concentrations and herbivory rates between grasses, legumes and forbs, whereas legumes had the highest nitrogen concentrations and were damaged most. Additionally, CN ratios and herbivory rates increased during the growing season, indicating a decrease of food plant quality during the growing season. Contrasting altitudinal responses of grasses, legumes and forbs presumably can change the dominance structure among these plant guilds with ongoing climate change. V. In this study we analysed the phenological responses of grassland species to an extreme drought event, advanced and delayed snowmelt along the altitudinal gradient. Advanced snowmelt caused an advanced beginning of flowering, whereas this effect was more pronounced at higher than at lower altitudes. Extreme drought and delayed snowmelt had rather low effects on the flower phenology and the responses did not differ between higher and lower sites. The strongest effect influencing flower phenology was altitude, with a declining effect through the season. The length of flowering duration was not significantly influenced by treatments. Our data suggest that plant species at higher altitudes may be more affected by changes in snowmelt timing in contrast to lowland species, as at higher altitudes more severe changes are expected. However, the risk of extreme drought events on flowering phenology seems to be low. VI. We established soil-emergence traps on the advanced snowmelt and control treatment plots in order to detect possible changes in abundances and emergence phenologies of five arthropod orders due to elevation and treatment. Additionally, we analysed the responses of Coleoptera species richness to elevation and treatment. We found that the abundance and species richness of Coleoptera increased with elevation as well as the abundance of Diptera. However, the abundance of Hemiptera decreased with elevation and the abundances of Araneae and Hymenoptera showed no elevational patterns. The advanced snowmelt treatment increased the abundances of Araneae and Hymenoptera. The emergence of soil-hibernating arthropods was delayed up to seven weeks at higher elevations, whereas advanced snowmelt did not influence the emergence phenology of arthropods immediately after snowmelt. With climate change earlier snowmelt will occur more often, which especially will affect soil-hibernating arthropods in alpine regions and may cause desynchronisations between species interactions. VII. In conclusion, we showed that alpine ecosystems are sensitive towards changing climate conditions and extreme events and that many alpine species in the Bavarian Alps are endangered. Many alpine species could exist under warmer climatic conditions, however they are expected to be outcompeted by more competitive lowland species. Furthermore, host-parasite or predator-prey interactions can be disrupted due to different responses of certain guilds to climate change. Understanding and predicting the complex dynamics and potential risks of future climate change remains a great challenge and therefore further studies analysing species and community responses to climate change are needed.}, subject = {Insekten}, language = {en} } @article{StiebKelberWehneretal.2011, author = {Stieb, Sara Mae and Kelber, Christina and Wehner, R{\"u}diger and R{\"o}ssler, Wolfgang}, title = {Antennal-Lobe Organization in Desert Ants of the Genus Cataglyphis}, series = {Brain, Behavior and Evolution}, volume = {77}, journal = {Brain, Behavior and Evolution}, number = {3}, issn = {0006-8977}, doi = {10.1159/000326211}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-196815}, pages = {136-146}, year = {2011}, abstract = {Desert ants of the genus Cataglyphis possess remarkable visual navigation capabilities. Although Cataglyphis species lack a trail pheromone system, Cataglyphis fortis employs olfactory cues for detecting nest and food sites. To investigate potential adaptations in primary olfactory centers of the brain of C. fortis, we analyzed olfactory glomeruli (odor processing units) in their antennal lobes and compared them to glomeruli in different Cataglyphis species. Using confocal imaging and 3D reconstruction, we analyzed the number, size and spatial arrangement of olfactory glomeruli in C. fortis, C.albicans, C.bicolor, C.rubra, and C.noda. Workers of all Cataglyphis species have smaller numbers of glomeruli (198-249) compared to those previously found in olfactory-guided ants. Analyses in 2 species of Formica - a genus closely related to Cataglyphis - revealed substantially higher numbers of olfactory glomeruli (c. 370), which is likely to reflect the importance of olfaction in these wood ant species. Comparisons between Cataglyphis species revealed 2 special features in C. fortis. First, with c. 198 C. fortis has the lowest number of glomeruli compared to all other species. Second, a conspicuously enlarged glomerulus is located close to the antennal nerve entrance. Males of C. fortis possess a significantly smaller number of glomeruli (c. 150) compared to female workers and queens. A prominent male-specific macroglomerulus likely to be involved in sex pheromone communication occupies a position different from that of the enlarged glomerulus in females. The behavioral significance of the enlarged glomerulus in female workers remains elusive. The fact that C. fortis inhabits microhabitats (salt pans) that are avoided by all other Cataglyphis species suggests that extreme ecological conditions may not only have resulted in adaptations of visual capabilities, but also in specializations of the olfactory system.}, language = {en} } @phdthesis{Hein2004, author = {Hein, Silke}, title = {The survival of grasshoppers and bush crickets in habitats variable in space and time}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9140}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2004}, abstract = {Die zunehmende Nutzung von Landschaften f{\"u}hrt zu einer steigenden Fragmentierung sch{\"u}tzenswerter Fl{\"a}chen. Damit verbunden ist eine Zerschneidung von großen Populationen in Metapopulationen. In solchen F{\"a}llen bestimmt das Gleichgewicht zwischen Aussterben und Besiedlung von Habitaten die regionale {\"U}berlebenswahrscheinlichkeit von Arten. Um diese bestimmen, braucht man ein gutes Verst{\"a}ndnis der Habitatanspr{\"u}che der Arten, sowie Informationen {\"u}ber ihr Ausbreitungsverhalten. Ziel dieser Arbeit war es, geeignete Fl{\"a}chen f{\"u}r Heuschrecken in einer Landschaft identifizieren zu k{\"o}nnen, sowie einen Beitrag zur Quantifizierung der Erreichbarkeit einzelner Fl{\"a}chen durch Individuen zu leisten. Der erste Teil dieser Arbeit besch{\"a}ftigt sich mit der Quantifizierung der Habitateignung von Fl{\"a}chen f{\"u}r Heuschrecken. Dazu habe ich statistische Habitateignungsmodelle mittels logistischer Regression erstellt, evaluiert und validiert. Es zeigte sich, dass die Habitatwahl der Heuschrecken auf einer mittleren r{\"a}umlichen Skalenebene erfolgt. Dies steht mit der beobachteten Ausbreitungsdistanz der Tiere im Einklang. Neben dem nur grob klassifizierten Landschaftsfaktor „Biotoptyp" korrelieren vor allem strukturelle Faktoren sowie abiotische Faktoren mit dem Vorkommen der Heuschreckenarten. Bei der Bestimmung eines gemeinsamen Models f{\"u}r alle drei Heuschreckenarten erwies sich das Model der Art S. lineatus mit den Parametern Biotoptyp und Vegetationsh{\"o}he als am besten geeignet zur Vorhersage der Vorkommen der anderen Heuschreckenarten. Um zu testen, ob auch die Vorkommen von Arten unterschiedlicher Tiergruppen mittels eines gemeinsamen Modells vorhergesagt werden k{\"o}nnen, habe ich sowohl die Heuschreckenmodelle zur Prognose von Faltervorkommen getestet, als auch Modelle f{\"u}r Falter auf Heuschrecken {\"u}bertragen. Dabei erwiesen sich die Heuschreckenmodelle zur Prognose der anderen Arten weniger geeignet als das Modell f{\"u}r das Widderchen Z. carniolica in das der Anteil an geeignetem Habitat sowie die Vorkommen der beiden Saugpflanzen C. jacea und S. columbaria einfließen. Diese Art wird als standorttreu eingestuft und repr{\"a}sentiert damit auch die anderen Arten, die typisch f{\"u}r S{\"a}ume und Halbtrockenrasen sind. Die erh{\"o}hte Mobilit{\"a}t von Z. carniolica im Vergleich zu den Heuschrecken garantiert gleichzeitig auch die Erreichbarkeit aller geeigneten Fl{\"a}chen im Gebiet und damit ein Modell, das nur unwesentlich durch Zufallseffekte bei der Besiedlung beeinflusst wird. Neben der Habitatqualit{\"a}t/-quantit{\"a}t spielt vor allem der Austausch zwischen Fl{\"a}chen eine entscheidende Rolle f{\"u}r das {\"U}berleben der Metapopulation. Im zweiten Teil meiner Arbeit habe ich mich sowohl theoretisch als auch empirisch, mit dem Ausbreitungsverhalten von Heuschrecken besch{\"a}ftigt. In Freilandexperimenten konnte ich zeigen, dass die Annahme eines dichotomen Bewegungsverhaltens f{\"u}r Heuschrecken in einer realen Landschaft nicht zutrifft. Vielmehr wird die Bewegung in einer Fl{\"a}che besser als Kontinuum beschrieben das durch strukturelle Resistenz, Temperatur, Mortalit{\"a}tsrisiko und Ressourcenverf{\"u}gbarkeit bestimmt wird. Die jeweilige Kombination dieser Parameter veranlasst die Tiere dann zu einem entsprechenden Bewegungsmuster, das sich zwischen den beiden Extremen gerichteter und zuf{\"a}lliger Lauf bewegt. In Experimenten zum Grenzverhalten von Heuschrecken best{\"a}tigte sich dieses Ergebnis. F{\"u}r verschiedene Grenzstrukturen konnte ich unterschiedliche {\"U}bertrittswahrscheinlichkeiten nachweisen. Weiterhin konnte ich feststellen, dass Heuschrecken geeignete Habitate aus einer gewissen Entfernung detektieren k{\"o}nnen. Da das Ausbreitungsverhalten von Tieren in theoretischen Modellen eine wichtige Rolle spielt, k{\"o}nnen diese empirischen Daten zur Parametrisierung dieser Modelle verwendet werden. Zus{\"a}tzlich zum Einfluss des Laufmusters der Tiere auf die Erreichbarkeit geeigneter Habitate, zeigte sich in den von mir durchgef{\"u}hrten Simulationsstudien deutlich, dass der landschaftliche Kontext, in dem die Ausbreitung stattfindet, die Erreichbarkeit einzelner Habitate beeinflusst. Dieser Effekt ist zus{\"a}tzlich abh{\"a}ngig von der Mortalit{\"a}tsrate beim Ausbreitungsvorgang. Mit den Ergebnissen aus den Untersuchungen zur Habitateignung lassen sich die f{\"u}r Heuschrecken geeigneten Habitate in einer Landschaft identifizieren. Somit l{\"a}sst sich die potentielle Eignung einer Fl{\"a}che als Habitat, basierend auf Vorhersagen {\"u}ber die {\"A}nderung des Biotoptyps durch ein Managementverfahren, vorhersagen. Diese Information allein reicht aber nicht aus, um die regionale {\"U}berlebenswahrscheinlichkeit einer Art bestimmen zu k{\"o}nnen. Meine Untersuchungen zum Ausbreitungsverhalten zeigen deutlich, dass die Erreichbarkeit geeigneter Fl{\"a}chen von der r{\"a}umlichen Anordnung der Habitate und der Struktur der Fl{\"a}chen, die zwischen Habitaten liegen, abh{\"a}ngt. Zus{\"a}tzlich spielen individuenspezifische Faktoren wie Motivation und physiologische Faktoren eine ausschlaggebende Rolle f{\"u}r die Erreichbarkeit von geeigneten Fl{\"a}chen.}, subject = {Naturschutzgebiet Hohe Wann}, language = {en} } @phdthesis{Paul2001, author = {Paul, J{\"u}rgen}, title = {The Mouthparts of Ants}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-1179130}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2001}, abstract = {Ant mandible movements cover a wide range of forces, velocities and precision. The key to the versatility of mandible functions is the mandible closer muscle. In ants, this muscle is generally composed of distinct muscle fiber types that differ in morphology and contractile properties. Volume proportions of the fiber types are species-specific and correlate with feeding habits. Two biomechanical models explain how the attachment angles are optimized with respect to force and velocity output and how filament-attached fibers help to generate the largest force output from the available head capsule volume. In general, the entire mandible closer muscle is controlled by 10-12 motor neurons, some of which exclusively supply specific muscle fiber groups. Simultaneous recordings of muscle activity and mandible movement reveal that fast movements require rapid contractions of fast muscle fibers. Slow and accurate movements result from the activation of slow muscle fibers. Forceful movements are generated by simultaneous co-activation of all muscle fiber types. For fine control, distinct fiber bundles can be activated independently of each other. Retrograde tracing shows that most dendritic arborizations of the different sets of motor neurons share the same neuropil in the suboesophageal ganglion. In addition, some motor neurons invade specific parts of the neuropil. The labiomaxillary complex of ants is essential for food intake. I investigated the anatomical design of the labiomaxillary complex in various ant species focusing on movement mechanisms. The protraction of the glossa is a non muscular movement. Upon relaxation of the glossa retractor muscles, the glossa protracts elastically. I compared the design of the labiomaxillary complex of ants with that of the honey bee, and suggest an elastic mechanism for glossa protraction in honey bees as well. Ants employ two different techniques for liquid food intake, in which the glossa works either as a passive duct (sucking), or as an up- and downwards moving shovel (licking). For collecting fluids at ad libitum food sources, workers of a given species always use only one of both techniques. The species-specific feeding technique depends on the existence of a well developed crop and on the resulting mode of transporting the fluid food. In order to evaluate the performance of collecting liquids during foraging, I measured fluid intake rates of four ant species adapted to different ecological niches. Fluid intake rate depends on sugar concentration and the associated fluid viscosity, on the species-specific feeding technique, and on the extent of specialization on collecting liquid food. Furthermore, I compared the four ant species in terms of glossa surface characteristics and relative volumes of the muscles that control licking and sucking. Both probably reflect adaptations to the species-specific ecological niche and determine the physiological performance of liquid feeding. Despite species-specific differences, single components of the whole system are closely adjusted to each other according to a general rule.}, subject = {Ameisen}, language = {en} }