@book{HellerKrueger1976, author = {Heller, Otto and Kr{\"u}ger, Hans-Peter}, title = {Experimentelle Psychologie - Wahrnehmung : ein programmiertes Lehrsystem mit Selbstversuchen}, isbn = {3-456-80326-5}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-40884}, publisher = {Universit{\"a}t W{\"u}rzburg}, year = {1976}, abstract = {No abstract available}, subject = {Wahrnehmung}, language = {de} } @book{Hoffmann1993, author = {Hoffmann, Joachim}, title = {Vorhersage und Erkenntnis}, publisher = {Hogrefe}, address = {G{\"o}ttingen}, isbn = {3-8017-0705-9}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127752}, publisher = {Universit{\"a}t W{\"u}rzburg}, pages = {327}, year = {1993}, abstract = {No abstract available.}, subject = {Antizipation}, language = {de} } @incollection{Hoffmann1994, author = {Hoffmann, Joachim}, title = {Die visuelle Identifikation von Objekten}, series = {Wahrnehmung}, booktitle = {Wahrnehmung}, publisher = {Hogrefe}, address = {G{\"o}ttingen}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127745}, publisher = {Universit{\"a}t W{\"u}rzburg}, pages = {391-456}, year = {1994}, abstract = {No abstract available.}, language = {de} } @phdthesis{Kleineidam1999, author = {Kleineidam, Christoph}, title = {Sensory Ecology of Carbon Dioxide Perception in Leaf-cutting Ants}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-1562}, school = {Universit{\"a}t W{\"u}rzburg}, year = {1999}, abstract = {The study examines the sensory ecology of CO2 perception in leaf-cutting ants. It begins with the ecological role of CO2 for leaf-cutting ants. Inside the subterranean nests of Atta vollenweideri large amounts of CO2 are produced by the ants and their symbiotic fungus. Measurements in field nest at different depths revealed that CO2 concentrations do not exceed 2 per cent in mature nests. These findings indicate effective ventilation even at depths of 2 m. Small colonies often face the situation of reduced ventilation when they close their nest openings as a measure against flooding. A simulation of this situation in the field as well as in the laboratory revealed increasing CO2 concentrations causing reduced colony respiration which ultimately might limit colony success. Wind-induced ventilation is the predominant ventilation mechanism of the nests of Atta vollenweideri, shown by an analysis of external wind and airflow in the channels. The mound architecture promotes nest ventilation. Outflow channels have their openings in the upper, central region and inflow channels had their openings in the lower, peripheral region of the nest mound. Air is sucked out through the central channels, followed by a delayed inflow of air through the peripheral channels. The findings support the idea that the nest ventilation mechanism used by Atta vollenweideri resembles the use of Bernoulli's principle in Venturi Tubes and Viscous Entrainment. CO2 is important in a second context besides microclimatic control. A laboratory experiment with Atta sexdens demonstrated that leaf-cutting ants are able to orientate in a CO2 gradient. Foragers chose places with higher CO2 concentration when returning to the nest. This effect was found in all homing foragers, but it was pronounced for workers carrying leaf fragments compared to workers without leaf fragments. The findings support the hypothesis that CO2 gradients are used as orientation cue inside the (dark) nest to find suited fungus chambers for unloading of the leaf fragments. After the importance of CO2 in the natural history of the ants has thus been demonstrated, the study identifies for the first time in Hymenoptera type and location of the sensory organ for CO2 perception. In Atta sexdens a single neuron associated with the sensilla ampullacea was found to respond to CO2. Since it is the only neuron of this sensillum, the sensillum characters can be assumed to be adapted for CO2 perception. A detailed description of the morphology and the ultrastructure allows a comparison with sensilla for CO2 perception found in other insects and provides more information about sensillum characters and their functional relevance. The CO2 receptor cells respond to increased CO2 with increased neural activity. The frequency of action potentials generated by the receptor cell shows a phasic-tonic time course during CO2 stimulation and a reduced activity after stimulation. Phasic response accomplished with a reduced activity after stimulation results in contrast enhancement and the ability to track fast fluctuations in CO2 concentration. The neurons have a working range of 0 to 10 per cent CO2 and thus are able to respond to the highest concentrations the ants might encounter in their natural environment. The most exciting finding concerning the receptor cells is that the CO2 neurons of the leaf-cutting ants do not adapt to continuous stimulation. This enables the ants to continuously monitor the actual CO2 concentration of their surroundings. Thus, the sensilla ampullacea provide the ants with the information necessary to orientate in a CO2 gradient (tracking of fluctuations) as well as with the necessary information for microclimatic control (measuring of absolute concentrations).}, subject = {Blattschneiderameisen}, language = {en} } @phdthesis{Spaethe2001, author = {Spaethe, Johannes}, title = {Sensory Ecology of Foraging in Bumblebees}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-1179692}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2001}, abstract = {Pollinating insects exhibit a complex behavior while foraging for nectar and pollen. Many studies have focused on ultimate mechanisms of this behavior, however, the sensory-perceptual processes that constrain such behavior have rarely been considered. In the present study I used bumblebees (Bombus terrestris), an important pollinating insect, to investigate possible sensory constraints on foraging behavior. Additionally, I survey inter-individual variation in the sensory capabilities and behavior of bumblebees caused by the pronounced size polymorphism among members of a single colony. In the first chapter I have focused on the sensory-perceptual processes that constrain the search for flowers. I measured search time for artificial flowers of various sizes and colors, a key variable defining the value of a prey type in optimal foraging theory. When flowers were large, search times correlate well with the color contrast of the targets with their green foliage-type background, as predicted by a model of color opponent coding using inputs from the bee's UV, blue, and green receptors. Targets which made poor color contrast with their backdrop, such as white, UV-reflecting ones, or red flowers, take longest to detect, even though brightness contrast with the background is pronounced. When searching for small targets, bumblebees change their strategy in several ways. They fly significantly slower and closer to the ground, so increasing the minimum detectable area subtended by an object on the ground. In addition they use a different neuronal channel for flower detection: instead of color contrast, they now employ only the green receptor signal for detection. I related these findings to temporal and spatial limitations of different neuronal channels involved in stimulus detection and recognition. Bumblebees do not only possess species-specific sensory capacities but they also exhibit inter-individual differences due to size. Therefore, in the next two chapters I have examined size-related effects on the visual and olfactory system of Bombus terrestris. Chapter two deals with the effect of scaling on eye architecture and spatial resolving power of workers. Foraging efficiency in bees is strongly affected by proficiency of detecting flowers. Both floral display size and bee spatial vision limit flower detection. In chapter one I have shown that search times for flowers strongly increases with decreasing floral display size. The second factor, bee spatial vision, is mainly limited by two properties of compound eyes: (a) the interommatidial angle {\c{C}}{\aa} and (b) the ommatidial acceptance angle {\c{C}}{\´a}. When a pollinator strives to increase the resolving power of its eyes, it is forced to increase both features simultaneously. Bumblebees show a large variation in body size. I found that larger workers with larger eyes possess more ommatidia and larger facet diameters. Large workers with twice the size of small workers (thorax width) have about 50 per cent more ommatidia, and a 1.5 fold enlarged facet diameter. In a behavioral test, large and small workers were trained to detect the presence of a colored stimulus in a Y-maze apparatus. The stimulus was associated with a sucrose reward and was presented in one arm, the other arm contained neither stimulus nor reward. The minimum visual angle a bee is able to detect was estimated by testing the bee at different stimuli sizes subtending angles between 30° and 3° on the bee's eye. Minimum visual detection angles range from 3.4° to 7.0° among tested workers. Larger bumblebees are able to detect objects subtending smaller visual angles, i.e. they are able to detect smaller objects than their small conspecifics. Thus morphological and behavioral findings indicate an improved visual system in larger bees. Beside vision, olfaction is the most important sensory modality while foraging in bees. Bumblebees utilize species-specific odors for detecting and identifying nectar and pollen rich flowers. In chapter three I have investigated the olfactory system of Bombus terrestris and the effect of scaling on antennal olfactory sensilla and the first olfactory neuropil in the bumblebee brain, the antennal lobes. I found that the pronounced size polymorphism exhibited by bumblebees also effects their olfactory system. Sensilla number (I measured the most common olfactory sensilla type, s. placodea), sensilla density, volume of antennal lobe neuropil and volume of single identified glomeruli correlate significantly with worker's size. The enlarged volume of the first olfactory neuropil in large individuals is caused by an increase in glomeruli volume and coarse neuropil volume. Additionally, beside an overall increase of brain volume with scaling I found that the olfactory neuropil increases disproportionately compared to a higher order neuropil, the central body. The data predict a higher odor sensitivity in larger bumblebee workers. In the last chapter I have addressed the question if scaling alters foraging behavior and rate in freely foraging bumblebees. I observed two freely foraging B. terrestris colonies and measured i) trip number, ii) trip time, iii) proportion of nectar trips, and iv) nectar foraging rate of different sized foragers. In all observation periods large foragers exhibit a significantly higher foraging rate than small foragers. None of the other three foraging parameters is affected by workers' size. Thus, large foragers contribute disproportionately more to the current nectar influx of their colony. To summarize, this study shows that understanding the mechanisms of visual information processing and additionally comprising inter-individual differences of sensory capabilities is crucial to interpret foraging behavior of bees.}, subject = {Hummeln}, language = {en} } @phdthesis{Anderson2011, author = {Anderson, Christina}, title = {Idiosyncratic Facial Movement in Face Perception and Recognition}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-70355}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2011}, abstract = {It has been proposed that different features of a face provide a source of information for separate perceptual and cognitive processes. Properties of a face that remain rather stable over time, so called invariant facial features, yield information about a face's identity, and changeable aspects of faces transmit information underlying social communication such as emotional expressions and speech movements. While processing of these different face properties was initially claimed to be independent, a growing body of evidence suggests that these sources of information can interact when people recognize faces with whom they are familiar. This is the case because the way a face moves can contain patterns that are characteristic for that specific person, so called idiosyncratic movements. As a face becomes familiar these idiosyncratic movements are learned and hence also provide information serving face identification. While an abundance of experiments has addressed the independence of invariant and variable facial features in face recognition, little is known about the exact nature of the impact idiosyncratic facial movements have on face recognition. Gaining knowledge about the way facial motion contributes to face recognition is, however, important for a deeper understanding of the way the brain processes and recognizes faces. In the following dissertation three experiments are reported that investigate the impact familiarity of changeable facial features has on processes of face recognition. Temporal aspects of the processing of familiar idiosyncratic facial motion were addressed in the first experiment via EEG by investigating the influence familiar facial movement exerts on event-related potentials associated to face processing and face recognition. After being familiarized with a face and its idiosyncratic movement, participants viewed familiar or unfamiliar faces with familiar or unfamiliar facial movement while their brain potentials were recorded. Results showed that familiarity of facial motion influenced later event-related potentials linked to memory processes involved in face recognition. The second experiment used fMRI to investigate the brain areas involved in processing familiar facial movement. Participants' BOLD-signal was registered while they viewed familiar and unfamiliar faces with familiar or unfamiliar idiosyncratic movement. It was found that activity of brain regions, such as the fusiform gyrus, that underlie the processing of face identity, was modulated by familiar facial movement. Together these two experiments provide valuable information about the nature of the involvement of idiosyncratic facial movement in face recognition and have important implications for cognitive and neural models of face perception and recognition. The third experiment addressed the question whether idiosyncratic facial movement could increase individuation in perceiving faces from a different ethnic group and hence reduce impaired recognition of these other-race faces compared to own-race faces, a phenomenon named the own-race bias. European participants viewed European and African faces that were each animated with an idiosyncratic smile while their attention was either directed to the form or the motion of the face. Subsequently recognition memory for these faces was tested. Results showed that the own-race bias was equally present in both attention conditions indicating that idiosyncratic facial movement was not able to reduce or diminish the own-race bias. In combination the here presented experiments provide further insight into the involvement of idiosyncratic facial motion in face recognition. It is necessary to consider the dynamic component of faces when investigating face recognition because static facial images are not able to provide the full range of information that leads to recognition of a face. In order to reflect the full process of face recognition, cognitive and neural models of face perception and recognition need to integrate dynamic facial features as a source of information which contributes to the recognition of a face.}, subject = {Gesicht}, language = {en} } @phdthesis{Chen2012, author = {Chen, Yi-chun}, title = {Experimental access to the content of an olfactory memory trace in larval Drosophila}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-83705}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2012}, abstract = {Animals need to evaluate their experiences in order to cope with new situations they encounter. This requires the ability of learning and memory. Drosophila melanogaster lends itself as an animal model for such research because elaborate genetic techniques are available. Drosphila larva even saves cellular redundancy in parts of its nervous system. My Thesis has two parts dealing with associative olfactory learning in larval Drosophila. Firstly, I tackle the question of odour processing in respect to odour quality and intensity. Secondly, by focusing on the evolutionarily conserved presynaptic protein Synapsin, olfactory learning on the cellular and molecular level is investigated. Part I.1. provides a behaviour-based estimate of odour similarity in larval Drosophila by using four recognition-type experiments to result in a combined, task-independent estimate of perceived difference between odour-pairs. A further comparison of these combined perceived differences to published calculations of physico-chemical difference reveals a weak correlation between perceptual and physico-chemical similarity. Part I.2. focuses on how odour intensity is interpreted in the process of olfactory learning in larval Drosophila. First, the dose-effect curves of learnability across odour intensities are described in order to choose odour intensities such that larvae are trained at intermediate odour intensity, but tested for retention either with that trained intermediate odour intensity, or with respectively HIGHer or LOWer intensities. A specificity of retention for the trained intensity is observed for all the odours used. Such intensity specificity of learning adds to appreciate the richness in 'content' of olfactory memory traces, and to define the demands on computational models of associative olfactory memory trace formation. In part II.1. of the thesis, the cellular site and molecular mode of Synapsin function is investigated- an evolutionarily conserved, presynaptic vesicular phosphoprotein. On the cellular level, the study shows a Synapsin-dependent memory trace in the mushroom bodies, a third-order "cortical" brain region of the insects; on the molecular level, Synapsin engages as a downstream element of the AC-cAMP-PKA signalling cascade.}, subject = {Taufliege}, language = {en} } @phdthesis{Bakhtiari2015, author = {Bakhtiari, Giti}, title = {The Role of Fluency in Oral Approach and Avoidance}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118666}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Names of, for instance, children or companies are often chosen very carefully. They should sound and feel good. Therefore, many companies try to choose artificially created names that can easily be pronounced in various languages. A wide range of psychological research has demonstrated that easy processing (high processing fluency) is intrinsically experienced as positive. Due to this positive feeling, easy processing can have profound influences on preferences for names. Topolinski, Maschmann, Pecher, and Winkielman (2014) have introduced a different mechanism that influences the perception of words. Across several experiments they found that words featuring consonantal inward wanderings (inward words) were preferred over words featuring consonantal outward wanderings (outward words). They argued that this was due to the fact that approach and avoidance motivations are activated by articulating inward and outward words, because the pronunciation resembles approach and avoidance behaviors of swallowing and spitting, respectively. They suggested this close link as an underlying mechanism for the so-called in-out effect, but did not test this assumption directly. In the current work, I tested an alternative fluency account of the in-out effect. Specifically, I hypothesized that processing fluency might play a critical role instead of motivational states of approach and avoidance being necessarily activated. In Chapter 1, I introduce the general topic of my dissertation, followed by a detailed introduction of the research area of approach and avoidance motivations in Chapter 2. In Chapter 3, I narrow the topic down to orally induced approach and avoidance motivations, which is the main topic of my dissertation. In Chapter 4, I introduce the research area of ecological influences on psychological processes. This chapter builds the base for the idea that human language might serve as a source of processing fluency in the in-out effect. In the following Chapter 5, I elaborate the research area of processing fluency, for which I examined whether it plays a role in the in-out effect. After an overview of my empirical work in Chapter 6, the empirical part starts with Study 1a and Study 1b (Chapter 7) that aimed to show that two languages (Eng. \& Ger.) in which the in-out effect has originally been found might feature a source of higher processing fluency for inward over outward words. The results showed that higher frequencies of inward dynamics compared to outward dynamics were found in both languages. This can lead to higher pronunciation fluency for inward compared to outward words which might in turn lay the ground for higher preferences found for inward over outward words. In Chapter 8, the assumption that inward compared to outward dynamics might be more efficient to process was tested directly in experiments that examined objective as well as subjective processing fluency of artificially constructed non-words featuring pure inward or outward dynamics. Studies 2a-4b found an objective as well as subjective processing advantage for inward over outward words. In Chapter 9, the causal role of objective and subjective pronunciation fluency in the in-out effect was examined. In Study 5 mediational analyses on item-level and across studies were conducted using objective and subjective fluency as possible mediating variables. In Study 6 mediation analyses were conducted with data on subject- and trial-level from a within-subject design. Overall, the data of the item-based, subject-based and trial-based mediation analyses provide rather mixed results. Therefore, an experimental manipulation of fluency was implemented in the last two studies. In Chapter 10, Study 7 and Study 8 demonstrate that manipulating fluency experimentally does indeed modulate the attitudinal impact of consonantal articulation direction. Articulation ease was induced by letting participants train inward or outward kinematics before the actual evaluation phase. Additionally, the simulation training was intensified in Study 8 in order to examine whether a stronger modulation of the in-out effect could be found. Training outward words led to an attenuation and, after more extensive training, even to a reversal of the in-out effect, whereas training inward words led to an enhancement of the in-out effect. This hints at my overall hypothesis that the explicit preferences of inward and outward words are, at least partially, driven by processing fluency. Almost all studies of my dissertation, except for one analysis of the item-based mediation study, speak in favor of the hypothesis that inward words compared to outward words are objectively and subjectively easier to articulate. This possibly contributes partially to a higher preference of inward over outward words. The results are discussed in Chapter 11 with respect to processing fluency and to the role of language as an ecological factor. Finally, future research ideas are elaborated.}, subject = {Sozialpsychologie}, language = {en} } @phdthesis{Hemmerich2016, author = {Hemmerich, Kristina Susanne}, title = {Der Einfluss von Steuern auf riskante Investitionsentscheidungen, Rationale Steuereffekte oder steuerbedingte Perzeptionseffekte?}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136579}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Die vorliegende Arbeit untersucht empirisch, inwieweit neoklassische Theorien wie die Erwartungsnutzentheorie, die individuellen Reaktionen auf die Einf{\"u}hrung einer proportionalen Einkommensteuer und die Ver{\"a}nderung der steuerlichen Verlustausgleichsm{\"o}glichkeiten erkl{\"a}ren. Dar{\"u}ber hinaus soll auch eine m{\"o}glicherweise verzerrte Wahrnehmung der steuerlichen Regelungen aufgedeckt und in die Analyse des beobachteten Investitionsverhaltens einbezogen werden. Die Umsetzung erfolgt mittels eines kontrollierten Labor-Experimentes. Die gew{\"a}hlte Forschungsmethode erlaubt die Unterscheidung von Rationalen Steuereffekten, d.h. Effekte, die neoklassische Theorien erwarten lassen und steuerbedingten Perzeptionseffekten, d.h. Effekte, die auf steuerbedingte Wahrnehmungsverzerrungen zur{\"u}ckzuf{\"u}hren sind. Wird f{\"u}r den Perzeptionseffekt kontrolliert, kann sowohl die theoretisch ermittelte Wirkung einer proportionalen Einkommensteuer mit vollst{\"a}ndigem als auch ohne steuerlichem Verlustausgleich auf riskante Investitionen empirisch best{\"a}tigt werden. Dagegen stehen die beobachteten Investitionsentscheidungen teilweise im Widerspruch zu den Ergebnissen der theoretischen Arbeiten, wenn auf eine Kontrolle f{\"u}r den Perzeptionseffekt verzichtet wird. Hieran ankn{\"u}pfend, werden im Rahmen eines zweiten Experimentes Ursachen steuerbedingter Wahrnehmungsverzerrungen und deren Wirkung auf die Bereitschaft, riskant zu investieren, n{\"a}her beleuchtet. F{\"u}r eine tiefgreifende Analyse des m{\"o}glichen Perzeptionseffekts einer proportionalen Steuer mit vollst{\"a}ndigem Verlustausgleich wird die bestehende verhaltenswissenschaftliche Steuerforschung erweitert und zwischen extrinsischen und intrinsischen Faktoren differenziert. Das durchgef{\"u}hrte Experiment verdeutlicht, dass die betrachtete proportionale Steuer das riskante Investitionsverhalten verzerrt. Jedoch ist die steuerbedingte Verzerrung, der Perzeptionseffekt, umso geringer, je niedriger das Niveau an kognitiver Belastung ist. Die abnehmende Verzerrung des Entscheidungsverhaltens scheint auf eine ebenfalls abnehmende Verwendung ungenauer Entscheidungs-Heuristiken zur{\"u}ckzuf{\"u}hren zu sein. Die dagegen unabh{\"a}ngig von dem Niveau an Steuer-Komplexit{\"a}t bzw. Steuer-Salienz beobachtete Zunahme der riskanten Investitionsbereitschaft nach Erhebung der proportionalen Steuer spiegelt sich in der steuerbedingten Ver{\"a}nderung der affektiven und kognitiven Wahrnehmung wider. In den zwei experimental{\"o}konomischen Analysen wird die Allokation gegebener Mittel auf riskante und sichere Anlagen betrachtet. Daneben werden aber sowohl Unternehmen als auch Privatpersonen mit sich ausschließenden Investitionsalternativen konfrontiert. Beide F{\"a}lle haben gemeinsam, dass im maßgeblichen Entscheidungskalk{\"u}l die geltenden steuerlichen Regelungen grunds{\"a}tzlich zu ber{\"u}cksichtigen sind. Jedoch postuliert die betriebswirtschaftliche Steuerforschung, dass bei einer Entscheidung zwischen sich ausschließenden Investitionsalternativen die Besteuerung vernachl{\"a}ssigt werden kann, wenn diese keine Wirkung entfaltet. Hieran ankn{\"u}pfend, wird ein Konzept entscheidungsneutraler und gleichm{\"a}ßiger Gewinnbesteuerung entwickelt, das auch bei unvollkommener Voraussicht praktikabel, rechtssicher und mit einer Gewinnermittlung durch nominalen Verm{\"o}gensvergleich vereinbar sein soll. In Anlehnung an K{\"o}nig (1997 a), l{\"a}sst sich zeigen, dass ein Verfahren revolvierender Ertragswertkorrektur bei zus{\"a}tzlicher Erfassung des Kapitalwertes diese Anforderungen erf{\"u}llt. Das rechnerisch komplexe Vorgehen kommt dabei - unter bestimmten Annahmen - im Ergebnis der Gewinnermittlung durch Verm{\"o}gensvergleich nach geltendem Steuerrecht sehr nahe. Infolgedessen wird auch das theoretisch bislang ungel{\"o}ste Problem des zeitlichen Bezugspunktes der Besteuerung vernachl{\"a}ssigbar.}, subject = {Deutschland}, language = {de} } @phdthesis{Brych2022, author = {Brych, Mareike Kimberly}, title = {How movements and cognition interact: An investigation of spontaneous blinks}, doi = {10.25972/OPUS-26737}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-267376}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {During natural behavior, cognitive processes constantly coincide with body movements such as head or eye movements or blinks. However, during experimental investigations of cognitive processes, movements are often highly restricted which is rather unnatural. In order to improve our understanding of natural behavior, this thesis investigates the interaction between cognition and movements by focusing on spontaneous blinks, which naturally interact with other body movements. Spontaneous blinks are inevitably connected to vision as they shut out incoming visual information. Both sensory-based and cognitive factors, for example, stimulus occurrence and evaluation, were reported to influence blink behavior. Our first study investigated if such influences are comparable for visual and non-visual input. The chosen experimental design allowed dissociating sensory-driven and cognitive influences, which then could be compared between the visual and auditory domain. Our results show that blinks are more strongly modulated during passive observation of visual input compared to auditory input. This modulation is however enhanced for both input modalities by an increased attentional demand. In addition, the cognitively defined meaning of a stimulus changes blink latency independent of the sensory domain. Overall, our findings show that spontaneous blinks and cognitive processes are linked beyond vision. Moreover, the underlying cognitive processes that influence blinks are largely the same across different sensory input indicating that blinks are profoundly integrated into our system. When investigating natural behavior, it is important to consider that movements rarely occur in isolation, but are executed side by side. As these movements interact and have a link to cognitive processes, the complexity of our system increases. In order to take this complexity into account, the second part of the experimental research focused on movement interactions, more specifically on the interactions between blinks, pupil size and speaking. Our results reveal that speech-related motor activity increases blink rate and pupil size as well as modulates blink timing. This is in line with previous research that described a relation between different body and eye movements. Importantly, each bodily-induced change in eye movements affects visual information intake. Therefore, different movements can be tightly linked to perceptual processes through complex interactions. Altogether, the work of this thesis provides rich evidence that movements and cognitive processes are deeply intertwined. Therefore, movements should be seen as an integral part of our system. Taking the relevance of movements and their interactions into account during experimental investigations is necessary in order to reveal a more realistic and complete picture of human natural behavior.}, subject = {Kognition}, language = {en} } @phdthesis{Murali2023, author = {Murali, Supriya}, title = {Understanding the function of spontaneous blinks by investigating internally and externally directed processes}, doi = {10.25972/OPUS-28747}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287473}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Humans spontaneously blink several times a minute. These blinks are strongly modulated during various cognitive task. However, the precise function of blinking and the reason for their modulation has not been fully understood. In the present work, I investigated the function of spontaneous blinks through various perceptual and cognitive tasks. Previous research has revealed that blinks rates decrease during some tasks but increase during others. When trying to understand these seemingly contradictory results, I observed that blink reduction occurs when one engages with an external input. For instance, a decrease has been observed due to the onset of a stimulus, sensory input processing and attention towards sensory input. However, for activities that do not involve such an engagement, e.g. imagination, daydreaming or creativity, the blink rate has been shown to increase. To follow up on the proposed hypothesis, I distinguished tasks that involve the processing of an external stimulus and tasks that involve disengagement. In the first part of the project, I explored blinking during stimulus engagement. If the probability of blinking is low when engaging with the stimulus, then one should find a reduction in blinks specifically during the time period of processing but not during sensory input per se. To this end, in study 1, I tested the influence of task-relevant information duration on blink timing and additionally manipulated the overall sensory input using a visual and an auditory temporal simultaneity judgement task. The results showed that blinks were suppressed longer for longer periods of relevant information or in other words, blinks occurred at the end of relevant information processing for both the visual and the auditory modality. Since relevance is mediated through top-down processes, I argue that the reduction in blinks is a top-down driven suppression. In studies 2 and 3, I again investigated stimulus processing, but in this case, processing was triggered internally and not based on specific changes in the external input. To this end, I used bistable stimuli, in which the actual physical stimulus remains constant but their perception switches between different interpretations. Studies on the involvement of attention in such bistable perceptual changes indicate that the sensory input is reprocessed before the perceptual switch. The results revealed a reduction in eye blink rates before the report of perceptual switches. Importantly, I was able to decipher that the decrease was not caused by the perceptual switch or the behavioral response but likely started before the internal switch. Additionally, periods between a blink and a switch were longer than interblink intervals, indicating that blinks were followed by a period of stable percept. To conclude, the first part of the project revealed that there is a top-down driven blink suppression during the processing of an external stimulus. In the second part of the project, I extended the idea of blinks marking the disengagement from external processing and tested if blinking is associated with better performance during internally directed processes. Specifically, I investigated divergent thinking, an aspect of creativity, and the link between performance and blink rates as well as the effect of motor restriction. While I could show that motor restriction was the main factor influencing divergent thinking, the relationship between eye blink rates and creative output also depended on restriction. Results showed that higher blink rates were associated with better performance during free movement, but only between subjects. In other words, subjects who had overall higher blink rates scored better in the task, but when they were allowed to sit or walk freely. Within a single subject, trial with higher blink rates were not associated with better performance. Therefore, possibly, people who are able to disengage easily, as indicated by an overall high blink rate, perform better in divergent thinking tasks. However, the link between blink rate and internal tasks is not clear at this point. Indeed, a more complex measurement of blink behavior might be necessary to understand the relationship. In the final part of the project, I aimed to further understand the function of blinks through their neural correlates. I extracted the blink-related neural activity in the primary visual cortex (V1) of existing recordings of three rhesus monkeys during different sensory processing states. I analyzed spike related multi-unit responses, frequency dependent power changes, local field potentials and laminar distribution of activity while the animal watched a movie compared to when it was shown a blank screen. The results showed a difference in blink-related neural activity dependent on the processing state. This difference suggests a state dependent function of blinks. Taken altogether, the work presented in this thesis suggests that eye blinks have an important function during cognitive and perceptual processes. Blinks seem to facilitate a disengagement from the external world and are therefore suppressed during intended processing of external stimuli.}, subject = {Lidschlag}, language = {en} }