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In the thesis the reason for the low breeding success of white rhinos in captivity was investigated and solutions suggested. It was also investigated how to improve management of free ranging populations. It was establish whether female white rhinoceros choose their mates and, if so, which factors influence their choice. The study also seeks to establish whether there is any relationship between androgens, environmental factors and mating activity. The study was carried between March 1997 and May 1999 on a private game farm in South Africa. The study animals enjoyed conditions similar to those enjoyed by free-ranging populations. A non-invasive endocrine monitoring technique was developed to assess the androgen concentrations in faeces of male white rhinos. The body and horn size of adult males was measured, the concentration of testosterone in their faeces determined, and the characteristics of their territories investigated. All of these factors were then set in relation to their reproductive success. The reproductive success was established by genetic analysis of fatherhood using AFLP methods. The quality of male territories was described by vegetation structure, tree and grass species composition, the availability of frequently foraged or selected grass species as well as the nutritional composition of the forage. In addition, the influence of seasonal rainfall, presence of receptive females and territorial activity on androgen metabolite concentrations was established.
Under natural conditions, most parts of northeastern Germany would be covered by forests that would be dominated by beech (Fagus sylvatica) and oak (Quercus robur and Q. petraea). However, today most of the wooded area is covered by artificial monocultures of pine forests. This form of cultivation was recognised to be the cause of instability against calamities of pests as well as severe storms therefore in the early eighties of the last century this knowledge was used to start the conversion of the forests towards more nature-like stands. The ecological effects of the forest conversion on the soil, the fauna and the flora have been investigated in a nation-wide project supported by the Federal Ministry of Education and Research (BMBF) in the project “Future-oriented forest management”. The present work has been accomplished within the scope of this project and is concerned about the effects that different aspects of forest conversion have on oribatid mites. The present work shall serve to answer a number of questions about the distribution of oribatid mites and their reaction to environmental changes. The investigation was carried out on 12 plots in two sampling areas. 7 plots were chosen in the Müritz NP and 5 in Eberswalde. In both areas plots were chosen that resemble the different stages of forest conversion: one medium aged pine plot in each area, two medium aged mixed plots with pines and beeches in the Müritz NP and one mixed plot in Eberswalde as well as one beech plot in each area. Furthermore, in the Müritz NP the chance arose to investigate the effects of different age stages of the stands on the oribatid mites. Therefore, an additional young pine plot and two old mixed plots have been sampled. In Eberswalde, on the other hand, another emphasis was laid on the effects of a different nutrient content in the soil. Here, an additional pine plot and mixed plot, respectively, of a higher trophotopic level was sampled. In Eberswalde, an additional sampling was done in three plots (a beech plot, a mixed plot and a pine plot) to investigate the horizontal distribution of the oribatid mites in these habitats. The data were used along with others to ecologically characterise the different species. The sampling took place from 2000 to 2002. Within the scope of the doctoral thesis, 392 samples were analysed. 122 samples from one year from the Müritz NP and 270 samples from three years from Eberswalde were analysed. Altogether 155,450 oribatid mites from 82 taxa were found in these samples. The ecological characterisation of the species revealed that the various species react quite differently to the investigated factors. Most species occur with different abundances in different forest types, but their abundance often varies also in comparable stands of both sampling areas. This indicates that they react to climatic effects as well as to biotic and abiotic factors. The forest conversion from pine forests to beech forests causes the abundance of oribatid mites to decrease, probably due to the change of the humus form from mor or mor-like moder in pine forests to mull in beech forests, that is accompanied by a decrease of the abundance of fungi, the main food source for most oribatid mites. Furthermore, the species composition changed. Species like Camisia spinifer, Adoristes ovatus or Acrogalumna longipluma that are typical for pine forests disappeared, while other species like Achipteria coleoptrata or Chamobates voigtsi immigrated in mixed stands after the introduction of beeches. The age of the stands proved to be another important factor. The overall abundance of oribatid mites was higher in the older stands than in the younger stands, while the percentage of juvenile oribatids decreased towards the older stands. Furthermore, the dominance structure became more uneven and shifted toward a higher percentage of fungivorous oppiid and suctobelbid mites. Especially on the old mixed plots, Oppiella nova reaches a dominance value of about 60 %. The nutrient content of the soil seems to be a relatively unimportant factor on the community level as no significant differences with regard to overall abundance and the dominance structure could be recorded. However, the Canonical Correspondence Analysis showed that the nutrient content of the soil does influence the distribution of species, at least with regard to their individual abundance. In summary, it can be said that the distribution of the oribatid species is influenced by many factors, and the stocking is only one of these factors. Nevertheless, a group of four species could be established, that can be used as indicators for the success of the forest conversion towards more nature-like deciduous forests: Achipteria coleoptrata, Autogneta longilamellata, Chamobates subglobulus and C. voigtsi.
Solifuges (Solifugae, Arachnida) are an important element of the fauna especially in arid and desert environments. Unfortunately, this animal group has only been extremely poorly studied not only in terms of morphology, but also ecology, physiology, systematics and phylogeny. The present study aimed to provide a detailed overview of their anatomy and ultrastructure. Representatives of these peculiar animals were investigated by means of light and electron microscopy in order to gain new insights in their functional morphology and also to evaluate potential characters for their systematic and future phylogenetic studies. The histology and ultrastructure of the following organ systems have been investigated: tarsal structures, sensory structures and nervous system, coxal glands, alimentary system, respiratory system, circulatory system and reproductive systems. Additionally, a camel spider in Baltic amber was described, representing the second known specimen of fossil Solifugae in Baltic amber. Further on, the entire mitochondrial genome of Nothopuga sp. was sequenced for comparison with other solifuges and chelicerates in order to reveal changes in their gene order.
Main drivers for biodiversity loss in terrestrial ecosystems are changes in land use, climate change, enhanced nitrogen deposition and biotic exchange (invasive species). These drivers also affect dry, nutrient-poor open anthropo-zoogenic inland and coastal heathlands which often harbor a high biodiversity. To counteract biodiversity loss in coastal ecosystems, a basic step is the assessment of the various threats. Therefore it is important to select suitable model organisms for analyses of biodiversity dynamics. In this thesis the three arthropod groups Orthoptera (Ensifera and Caelifera), carabid beetles (Coleoptera: Carabidae) and spiders (Araneae) were studied, as they are very useful indicators. Besides sampling of the three arthropod groups vegetation and microclimate parameters were recorded. The studies were done between 2008 and 2010 in the coastal heathland on the Baltic island of Hiddensee, Germany. The main aim of the thesis was to analyze the impact of three drivers of heathland biodiversity loss (succession, grass encroachment, moss invasion) on the selected indicator arthropod groups. Based on this multi-level and -species approach, implications for the conservation of coastal heathlands are given. The results show that successional processes and grass encroachment have strong impact on species richness and abundance, species composition and functional groups, as well as life-history traits and functional diversity of the arthropod groups. Main findings were: Orthoptera species richness was highest in the intermediate stages (heath encroached by grasses and heath with shrubs) because of higher habitat heterogeneity and higher food supply (grasses). Opposed to that, species richness of ground-dwelling carabid beetles and spiders did not differ among the five successional stages, which contradicts the ‘habitat heterogeneity hypothesis’. In contrast to species richness, functional diversity differed among successional stages. The concept of functional diversity – which integrates species life-history trait data – therefore might be particularly suitable for biodiversity research, while the explanatory power of species richness alone might not be sufficient. The species compositions of all three taxa changed remarkably along the coastal heathland gradient indicating a high species turnover. In particular, open, dynamic habitats (‘grey dunes’ and ‘dwarf-shrub heath’) could be separated. Here, several specialized, xerothermic and threatened species occurred due to the extreme habitat conditions, but are displaced during grass and shrub encroachment. On a smaller spatial scale, the invasion of Campylopus introflexus alters habitat conditions in grey dunes and therefore affects carabid beetle and spider species and the dominant Orthoptera species Myrmeleotettix maculatus. Species richness of carabid beetles and spiders, and the abundance of adult M. maculatus grasshoppers were reduced. Species compositions of carabids and spiders changed remarkably with a loss of several species. These negative impacts could be explained by the vegetation structure of the moss which is unsuitable for web-building spiders or large carabid beetles, and by reduced germination of higher plants and therefore reduced food supply for M. maculatus and phytophagous carabid species. Within the open coastal heathland, the mosaic of grey dunes and adjacent dwarf-shrubs is important since many species perform a habitat change during their development and, besides the scarcely vegetated, thermally benefited grey dunes, need denser vegetation of adjacent dwarf-shrubs for shelter, as song posts, or for foraging. As grey dunes harbor a high abundance and species richness of threatened and specialized, mainly xerothermic and geobiont species and are important as oviposition and nymphal habitat, they are regarded as a keystone habitat within the coastal heathland. Besides these ecological studies, two studies focused on the method of pitfall trapping. It could have been shown, that pitfall trapping might be a useful sampling method for Orthoptera in open habitats. The other study demonstrated that sampling interval has a strong influence on the capture efficiency of several arthropod groups (‘digging-in effect’). Conservation practices should aim at maintaining a heterogeneous heathland mosaic with open grey dunes and Calluna stands, in addition to scattered grassy and shrub-encroached heath for the survival of species-rich heathland arthropod assemblages with a high proportion of specialized and threatened species.
Decision making in everyday purchase situations requires mental processing of factors that are related to the items on display. These influencing factors – called persuasive information – can take various forms, like the price level, the design of the package or the display of certain product attributes. Despite the existence of persuasive information trying to influence our buying behavior, almost nothing is known about the underlying neural mechanisms responsible for processing this information. In this thesis functional magnetic resonance imaging was used to investigate neural activity correlated with product related persuasive information. As persuasive information organic, light and regular labeled food was chosen. The 1st experiment investigated the neural correlates of visually inspected organic and regular labeled food and the influence on willingness to pay (WTP) for the displayed items. It was hypothesized that organic compared to regular labeled food will be perceived as more rewarding which should be visible by an increased activity in the ventral striatum as a central area for reward processing and by a heightened WTP. As organic label information the national German eco emblem 'Bio-Siegel' was chosen (for stimuli details see 2.1). As there is no emblem indicating regular food, an artificially created logo was used for indicating a conventional product. 40 well- known food products (e.g. milk, bread, eggs etc.) were presented to the subjects. These products were marked with the organic emblem and the same 40 products with the regular label. We found that visual inspection of organic labeled food indeed led to an increase in neural activity in the ventral striatum and to a heightened WTP, suggesting a higher subjective value for these products. The 2nd experiment investigated the neural correlates of actually administered food stimuli labeled organic, light or regular and the influence on expected and experienced taste. For organic compared to regular labeled food we hypothesized an increase in expected and experienced taste pleasantness. Furthermore, light compared to regular labeled food should lead to a decrease in expected and perceived pleasantness and intensity ratings. During the active tasting process this should be accompanied by an increase in reward-related (e.g. organic vs. regular; regular vs. light) areas like the ventral striatum medial orbitofrontal cortex or aversion-related (e.g. regular vs. organic; light vs. regular) areas as the lateral orbitofrontal cortex (lOFC) and operculum/insula. As organic label information the national German eco emblem 'Bio-Siegel' was chosen. Light label information was issued in form of the internationally used 'Bewusst-Wählen®' ('Healthy Choice') label (for stimuli details see 2.2). However, inside the scanner the written forms 'Bio', 'Light' or 'Normal' (indicating regular food) were chosen. Subjects were randomly assigned in two groups and were either confronted with the organic or the regular label (organic group) or with the light or the regular label (light group) but otherwise identical milk drink. The results show that organic compared to regular labeling of identical food stimuli indeed led to an increase in expected and experienced taste pleasantness for organic labeled food. Light compared to regular labeling of identical food stimuli led to a decrease in expected and experienced taste pleasantness and intensity for light labeled food. Moreover, taste-related activity was found in aversion related areas like the operculum insula and the lOFC for food labeled regular compared to organic and in reward-related areas like the ventral striatum for food labeled regular compared to light. The results show that persuasive food-related information influences human cognition on the behavioral and neural level; the effects were shown during visual and gustatory evaluation of the stimuli. Taken together the results demonstrate that the same stimulus can vary dramatically in personal valuation depending on the applied information.
The goal of this thesis was to study the systematic relationships within the superfamily Sylvioidea (Aves: Passeriformes) in general and within the closely related families Acrocephalidae and Locustellidae in particular, by means of DNA sequences. Sylvioidea itself and families therein were the focus of many studies based as well on morphological characters as on DNA. Due to their morphological similarity and their presumably rapid radiation most studies failed to solve relationships between sylvioidean families and also demarcations of single families and relations within are still in progress. In this study, an enlargement of previous datasets, both taxa and number of DNA sequences, and more sophisticated analysis methods were used to improve the resolution in Sylvioidea, Acrocephalidae and Locustellidae. In addition, the applicability of barcoding in Acrocephalidae was tested. The monophyly of Sylvioidea could be supported and the families Paridae and Remizidae, which were sometimes still included, clustered among the outgroup taxa. Four families, Nicatoridae, Panuridae, Alaudidae, and Macrosphenidae constitute basal splits within Sylvioidea. The division of the former sylviid/timaliid clade in five families, Sylviidae, Leiothrichidae, Pellorneidae, Timaliidae, and Zosteropidae was supported. Scotocerca, Erythrocercus, and Hylia, previously supposed to be members of Cettiidae, were shown not to belong to this family. As the three genera are also morphologically and ecologically different, they were here proposed to be elevated to family rank, Scotocercidae, Erythrocercidae and Hyliidae, respectively. The family Acrocephalidae consisted of the four genera, Nesillas, Acrocephalus, Hippolais, and Chloropeta. In the analysis for this thesis, the latter three appeared to be non-monophyletic. One Acrocephalus species, A. aedon was sister to a clade containing four species of Hippolais as well as two out of three Chloropeta species. They were all merged in the genus Iduna, based on the DNA evidence and shared morphological and ecological characters. Iduna had priority over Hippolais or Chloropeta according to the International Code of Zoological Nomenclature. The one remaining Chloropeta species (C. gracilirostris) had to be renamed to Calamonastides as Chloropeta was no longer available for this taxon. Seven genera were included in the re-analysis of the family Locustellidae: Locustella, Bradypterus, Megalurus, Dromaeocercus, Schoenicola, Cincloramphus, and Eremiornis. Apart from the monotypic genera Dromaeocercus and Eremiornis and Schoenicola, of which only one species was included, the remaining genera were found to be non-monophyletic. One clade contained all Locustella species, Megalurus pryeri and all Asian/Oriental Bradypterus species. All species in this clade were synonymized with Locustella, as the type species of Locustella was included, whereas the type species of Bradypterus fell in a different clade. Therefore, the remaining African Bradypterus species retained their genus name, and Dromaeocercus was renamed to Bradypterus as it clustered within Bradypterus. Cincloramphus, intermingling with the remaining Megalurus species, was synonymized with the latter. Barcoding, growing in popularity for delimiting species, was tested in its applicability for Acrocephalidae. Fourteen taxa currently recognized as full species would fall under the 2% threshold of sequence divergence proposed for delimiting species using the mitochondrial cytochrome b gene. It was also shown that it is important to clarify which part of a DNA sequence is used, as different parts can give different results regarding the 2% threshold. In addition, the choice of “complete deletion” or “pairwise deletion” in calculating genetic distances is important, if incomplete are sequences used.
Chaetognaths are a fascinating taxon with unique features and a great impact on marine food webs as primary predators of zooplankton. Their phylogenetic position has been subject to many speculations ever since their discovery and even contemporary phylogenomic methods have not yet been able to suggest a stable hypothesis on their phylogenetic position within the Bilateria. Neuroanatomical studies may contribute new aspects to this discussion. This study aims to provide new insights into the chaetognath nervous system using a fresh set of methods to determine characters for a phylogenetic discussion. The method of choice in this case was immunohistochemistry combined with confocal microscopy. Experiments were conducted with a host of antibodies. The most effective target antigenes were RFamides (a family of neuropeptides), synapsins (synaptic proteins), tyrosinated tubulin (a cytoskeletal element, especially in neurites) and BrdU (bromodeoxyuridin, a proliferation marker). Each of those markers was of great use in highlighting certain aspects of the nervous system. A fresh look at the development of juvenile chaetognaths shortly after hatching revealed that the ventral nerve center (VNC) is developing earlier than the brain and that the production of neurotransmitters has already started at hatching. Specifically, some neurons exhibit RFmide-like immunoreactivity (ir). Neurogenesis continues for about five days after hatching and the mode of division in the neuronal stemcells is asymmetrical. In adult chaetognaths, the brain is divided into a stomatogastric anterior and a sensory posterior neuropil domain. It contains a set of individually identifiable neurons that exhibit RFamide-like ir. The study highlights the interspecific variation of brain architecture between representatives of spadellids and sagittids. The VNC consists of two lateral bands of somata that flank a central neuropil. Within the VNC exists a serial arrangement of neurons with RFamide-like ir. A variety of other neurotransmitters and related substances are also present in both, the brain and the VNC. More interspecific differences and similarities were explored in another part of the study, comparing even more different chaetognath species and focusing on the VNC and its internal structure. The two species of Krohnitta have an unusual distribution of nuclei that is not clearly separated into two lateral bands like in other species. Many of the sagittid species exhibit a striation pattern of the neuropil that is mostly absent in other groups and some of their nerve nets show varying degrees of order as opposed to the rather disorganized nerve net in other groups. In addition, immunohistochemical methods were applied to several specimens of Gnathostomula sp. in order to test one of the many hypotheses about the chaetognaths phylogenetic position, a sister-group relationship to gnathostomulids. A comparison between the two taxa, taking into account also other gnathifera and platyhelminthes, makes a sistergroup relationship between chaetognaths and gnathostomulids very unlikely. In conclusion, chaetognaths remain in an enigmatic phylogenetic position and likely branched off close to the deuterostome/protostome split.
Abstract
Emperor penguins breed during the Antarctic winter and have to endure temperatures as low as −50 °C and wind speeds of up to 200 km h−1. To conserve energy, they form densely packed huddles with a triangular lattice structure. Video recordings from previous studies revealed coordinated movements in regular wave-like patterns within these huddles. It is thought that these waves are triggered by individual penguins that locally disturb the huddle structure, and that the traveling wave serves to remove the lattice defects and restore order. The mechanisms that govern wave propagation are currently unknown, however. Moreover, it is unknown if the waves are always triggered by the same penguin in a huddle. Here, we present a model in which the observed wave patterns emerge from simple rules involving only the interactions between directly neighboring individuals, similar to the interaction rules found in other jammed systems, e.g. between cars in a traffic jam. Our model predicts that a traveling wave can be triggered by a forward step of any individual penguin located within a densely packed huddle. This prediction is confirmed by optical flow velocimetry of the video recordings of emperor penguins in their natural habitat.
The impact of inbreeding under different environmental conditions and of artificial selection on cold tolerance was investigated in laboratory populations of the tropical butterfly Bicyclus anynana. The investigation focused on (1) the effects of inbreeding on several fitness-related traits and whether inbred individuals are more susceptible to stress, (2) interactions between inbreeding, genetic adaptation to cold stress and environmental conditions, (3) the effects of artificial selection and inbreeding in the adult stage in other developmental stages, and (4) the effect of inbreeding depression on the heat shock response. Environmental conditions are not constant over time; consequently organisms have to deal with environmental changes. Besides naturally fluctuating conditions, human-induced climate change may increase temperature changes as well as the severity of heat or cold waves. Temperature-stress resistance describes an organism’s ability to cope with stressful temperatures. Enhanced resistance to temperature stress can be reached by phenotypic plasticity or genetic adaptation. Plastic organisms are able to react fast to changing environmental conditions, whereas genetic adaptation is more important for long-term adaptation. Natural habitats may also be affected by human impact, causing habitat loss or fragmentation and changes in population structure. A decrease in the population size may result in inbreeding and inbreeding depression (ID). Consequences of inbreeding are well documented, and inbred individuals are predicted to be more sensitive to environmental stress than outbred individuals. The long term persistence of species and populations depends on their ability to adapt to novel conditions which in turn depends on genetic diversity. Therefore, studies of temperature resistance and its evolution in relation to inbreeding are very important. First a higher susceptibility of inbred individuals to environmental stress was determined in different populations of B. anynana. Inbreeding depression was revealed for several fitness-related traits, but not for immunity traits or heat tolerance. Temperature affected most traits, revealing the importance of temperature on ectotherms; just two hours of thermal stress affected important reproductive, life-history and immunity traits already. Importantly though, no evidence were found that inbred individuals are more susceptible to stressful temperatures than outbred individuals. Genetic adaptation and phenotypic plasticity can interact with one another, resulting in genotype-environmental interactions (G x E). The hypotheses tested here were that some genotypes are more plastic than others and that lines with increased cold stress resistance are less plastic with regard to cold resistance than control lines. To induce plastic responses the exposed lines differed in cold tolerance and inbreeding to different temperatures as well as different feeding regimes and measured fitness-related traits. Several interactions were detected in which a selection regime was involved, but these interactions did not show a clear overall pattern. In summary though, findings were that marginal impacts of directional selection and inbreeding on plastic responses and suggest that, at least for my study organism, the genetic architecture of fitness-related traits is not connected with the architecture of plastic responses. The next investigation concerned with the manifestation of genetic adaptation to produce one specific phenotype across development stages and possible trade-offs. The assumption tested was that there is a genetic link between different developmental stages to produce one definite phenotype by imposing selection in the adult stage only. Lines selected for increased cold resistance in the adult stage were used and increased cold resistance throughout all developmental stages was expected. However, higher cold resistance was found only in the adult stage and not in developmental stages. This could be either the result of a resource allocation trade-off between different stages or that there is no cold resistance phenotype. Thus, if selection takes place in the adult stage it does not affect the others. In the last experiment investigation was directed to determine whether there are negative inbreeding effects on the heat shock protein (HSP) response. Under stressful conditions, organisms produce the HSPs and they act as chaperons required for refolding and repairing of stress degraded proteins. Testing was oriented to find if inbreeding as a genetic stressor´ provokes a higher HSP expression and if there is evidence for higher temperature stress susceptibility on inbred individuals. Findings indeed showed a stronger HSP up-regulation in control compared to inbred lines with a negative inbreeding impact occurrence, which may causally underlie inbreeding depression.
Dwarf spiders (Linyphiidae, Erigoninae) are especially suitable for sexual selection research as many of them exhibit sexual dimorphism, with males possessing modified prosomata. In those species that have been investigated in detail the modified structures are equipped with a glandular tissue that produces secretions, which the females contact and take up during courtship/copulation. The time of secretion release, and refilling of the reservoirs was analysed on an ultrastructural level in male Oedothorax retusus. The results suggest that the main function of the secretions is gustatorial courtship and not the emission of volatile pheromones for mate attraction. Mating decisions and reproductive success are influenced by secondary sexual traits that evolved under sexual selection. However, an individual´s nutritional status is also important for mate choice. Since spiders are regularly exposed to limited prey availability, adult feeding status can be considered an important component of spider mating behaviour. In order to test for the effects of dietary restriction, females of the closely related species O. retusus and O. apicatus were subject to a short period of food shortage. The effects of low- (LD) vs. high-diet (HD) treatment on courtship, mating probability and behaviour, and reproduction were analysed. We found that short phases of diet restriction as adults have a high impact on copulation and reproduction in the two dwarf spider species. Whenever females mate with more than one male, and sperm is stored prior to fertilization, males may suffer from sperm competition. Mating plugs that block the female genital openings after mating are a male strategy to avoid sperm competition. Although mating plugs occur in many species, their function and origin has hardly been investigated. O. retusus males transfer amorphous material onto the female genitalia during mating. We investigated the location of plug production using x-ray microtomography (μCT) as well as light and transmission electron microscopy (TEM). Furthermore, we asked whether males are limited in the production of the amorphous plug material in successive matings. The plug material is produced in a gland inside the male pedipalp and stored close to the blind end of the sperm storage compartment. The size of the first plug a male produced significantly influenced the size of subsequent plugs. Obviously, males do not possess unlimited amounts of plug material in a certain period, which may severely limit their ability to secure paternity through subsequent mating plugs. Even though mating plugs seem to be an obvious means to secure paternity, their potential in securing paternity depends on their mechanical efficacy and persistence. Consequently, the influence of the size of the plug material (mating duration as a proxy) and the age of the mating plug (time interval between successive copulations) on its efficacy was investigated. Small and fresh plugs were least effective, whereas large plugs were highly effective. We were able to show that mating plugs in O. retusus are a powerful mechanical safeguard whose efficacy varies with plug size and age. Genitalia in animals with internal fertilization are complex, species-specific, and underlie rapid evolution. In spiders, male and female genitalia are paired, and have to interact during mating, which results in an even higher complexity. Pedipalps (transformed pair of legs) in male spiders are used as secondary sperm transfer organs that are not directly connected to the gonads. Due to the high complexity of male pedipalps, it has been taken for granted that pedipalps are side specific and cannot be used flexibly into either female copulatory opening. We investigated potential flexible pedipalp use in O. retusus. Our findings demonstrate a flexible insertion mode in a dwarf spider with complex pedipalps but relatively simple female genitalia. Our findings corroborate sexual selection as the selective regime for the evolution of complex and diverse genitalia. The results of this thesis show how complex sexual selection acts in the dwarf spiders O. retusus and O. apicatus. It shapes the evolution of male and female genitalia, affects mate choice (pre- and postcopulatory), mating behaviour, and influences mating success and reproduction. All these factors and traits affect an individual´s evolutionary fitness, and their interactions help to understand how sexual selection acts.