Global ETD Search

261	Recalibration of perceived time across sensory modalities Hanson, James Vincent Michael, Heron, James, Whitaker, David J. January 2008 (has links) No / When formulating an estimate of event time, the human sensory system has been shown to possess a degree of perceptual flexibility. Specifically, the perceived relative timing of auditory and visual stimuli is, to some extent, a product of recent experience. It has been suggested that this form of sensory recalibration may be peculiar to the audiovisual domain. Here we investigate how adaptation to sensory asynchrony influences the perceived temporal order of audiovisual, audiotactile and visuotactile stimulus pairs. Our data show that a brief period of repeated exposure to asynchrony in any of these sensory pairings results in marked changes in subsequent temporal order judgments: the point of perceived simultaneity shifts toward the level of adaptation asynchrony. We find that the size and nature of this shift is very similar in all three pairings and that sensitivity to asynchrony is unaffected by the adaptation process. In light of these findings we suggest that a single supramodal mechanism may be responsible for the observed recalibration of multisensory perceived time. Adaptation Physiological Physiology Auditory perception Humans Time factors Time perception Touch Visual perception REF 2014
262	Learning to use illumination gradients as an unambiguous cue to three dimensional shape Harding, Glen, Harris, J.M., Bloj, Marina January 2012 (has links) No / The luminance and colour gradients across an image are the result of complex interactions between object shape, material and illumination. Using such variations to infer object shape or surface colour is therefore a difficult problem for the visual system. We know that changes to the shape of an object can affect its perceived colour, and that shading gradients confer a sense of shape. Here we investigate if the visual system is able to effectively utilise these gradients as a cue to shape perception, even when additional cues are not available. We tested shape perception of a folded card object that contained illumination gradients in the form of shading and more subtle effects such as inter-reflections. Our results suggest that observers are able to use the gradients to make consistent shape judgements. In order to do this, observers must be given the opportunity to learn suitable assumptions about the lighting and scene. Using a variety of different training conditions, we demonstrate that learning can occur quickly and requires only coarse information. We also establish that learning does not deliver a trivial mapping between gradient and shape; rather learning leads to the acquisition of assumptions about lighting and scene parameters that subsequently allow for gradients to be used as a shape cue. The perceived shape is shown to be consistent for convex and concave versions of the object that exhibit very different shading, and also similar to that delivered by outline, a largely unrelated cue to shape. Overall our results indicate that, although gradients are less reliable than some other cues, the relationship between gradients and shape can be quickly assessed and the gradients therefore used effectively as a visual shape cue. Adult Color perception Physiology Cues Female Form perception Humans Learning Lighting Male Photic stimulation REF 2014
263	Application of lipid biomarker analysis to evaluate the function of "slab-lined pits" in Arctic Norway Heron, Carl P., Nilsen, G., Stern, Ben, Craig, O.E., Nordby, C.C. January 2010 (has links) No / Gas chromatography–mass spectrometry (GC–MS) and bulk carbon isotope determinations have been performed on samples (‘cemented organic residues’, charcoal, sediment and fire-cracked rock) excavated from 12 slab-lined pits from various locations in Arctic Norway to test the premise that these archaeological features were used for the extraction of oil from the blubber of marine mammals, such as seal, whale and walrus. A wide range of lipid compound classes were detected especially in the cemented organic residues and in the charcoal samples. The presence of long-chain unsaturated and isoprenoid fatty acids together with oxidation and thermal alteration products of unsaturated acids such as dicarboxylic acids, dihydroxyfatty acids and ω-(o-alkylphenyl)alkanoic acids suggests that these features were used for marine oil extraction at elevated temperatures. Notably the location of the hydroxyl groups in the dihydroxyfatty acids provides a record of the positional isomer of the precursor fatty acid and allows confirmation that 11-docosenoic (cetoleic) acid, the most abundant C22:1 isomer in marine oil, was a major component of the original lipid. Further information was provided by the presence of long-chain fatty acyl moieties in surviving triacylglycerols and the presence of cholesterol. A fungal metabolite, mycose (trehalose), was found in all samples apart from a fire-cracked rock and points to microbiological activity in the pits. Bulk isotope analysis conducted on the ‘cemented organic residues’ is consistent with modern reference samples of blubber and oil from seal and whale. These data provide clear analytical evidence of the function of slab-lined pits in the archaeological record and suggest widespread exploitation of marine mammals for producing oil for heating, lighting and myriad other uses in the past. Lipids Marine oil Dihydroxyfatty acids Slab-lined pits Arctic Norway
264	Audiovisual time perception is spatially specific Heron, James, Roach, N.W., Hanson, James Vincent Michael, McGraw, Paul V., Whitaker, David J. January 2012 (has links) No / Our sensory systems face a daily barrage of auditory and visual signals whose arrival times form a wide range of audiovisual asynchronies. These temporal relationships constitute an important metric for the nervous system when surmising which signals originate from common external events. Internal consistency is known to be aided by sensory adaptation: repeated exposure to consistent asynchrony brings perceived arrival times closer to simultaneity. However, given the diverse nature of our audiovisual environment, functionally useful adaptation would need to be constrained to signals that were generated together. In the current study, we investigate the role of two potential constraining factors: spatial and contextual correspondence. By employing an experimental design that allows independent control of both factors, we show that observers are able to simultaneously adapt to two opposing temporal relationships, provided they are segregated in space. No such recalibration was observed when spatial segregation was replaced by contextual stimulus features (in this case, pitch and spatial frequency). These effects provide support for dedicated asynchrony mechanisms that interact with spatially selective mechanisms early in visual and auditory sensory pathways. Adaptation Auditory perception Discrimination Humans Orientation Space perception Time perception Visual erception REF 2014
265	Duration channels mediate human time perception Heron, James, Aaen-Stockdale, Craig, Hotchkiss, John, Roach, N.W., McGraw, Paul V., Whitaker, David J. January 2012 (has links) No / The task of deciding how long sensory events seem to last is one that the human nervous system appears to perform rapidly and, for sub-second intervals, seemingly without conscious effort. That these estimates can be performed within and between multiple sensory and motor domains suggest time perception forms one of the core, fundamental processes of our perception of the world around us. Given this significance, the current paucity in our understanding of how this process operates is surprising. One candidate mechanism for duration perception posits that duration may be mediated via a system of duration-selective 'channels', which are differentially activated depending on the match between afferent duration information and the channels' 'preferred' duration. However, this model awaits experimental validation. In the current study, we use the technique of sensory adaptation, and we present data that are well described by banks of duration channels that are limited in their bandwidth, sensory-specific, and appear to operate at a relatively early stage of visual and auditory sensory processing. Our results suggest that many of the computational principles the nervous system applies to coding visual spatial and auditory spectral information are common to its processing of temporal extent. Acoustic stimulation Adaptation Physiological Adult Auditory perception Humans Models Theoretical Time perception Visual perception REF 2014
266	The chromatic selectivity of visual crowding Kennedy, Graeme J., Whitaker, David J. January 2010 (has links) No / Precortical vision is mediated by three opponent mechanisms that combine receptoral outputs to form a luminance channel (L + M) and two chromatic channels, red-green (L/M) and blue-yellow (S/L + M). Here we ask the extent to which these basic color opponent mechanisms interact in the phenomenon of crowding, where nearby targets interfere with the processing of a central test target. The task was to identify the orientation of a Gabor patch while an annular plaid surrounded the patch. The radius of the annulus was varied in order to produce different separations of the test and flanker. The chromatic content of the Gabor and the annulus could be varied independently along the (L + M), (L/M), and (S/L + M) cardinal axes. For all targets, when the target and flanker shared the same chromaticity, performance decreased with decreasing separation of the target and annulus, i.e., a typical crowding effect was seen. When the test and flanker isolated different chromatic mechanisms, very little crowding was observed, even at the minimum separation of test target and annulus. In addition to this, intermediate chromaticities were found to produce intermediate levels of crowding. Finally, crowding effects using "half-wave rectified" stimuli suggest a locus for crowding effects beyond the level of color opponent mechanisms. Color perception Contrast sensitivity Humans Orientation Photic stimulation Sensory thresholds Space perception Physiology REF 2014
267	The Dutch whalers: a test of a human migration in the oxygen, carbon and nitrogen isotopes of cortical bone collagen Koon, Hannah E.C., Tuross, N. January 2013 (has links) No / Human migration is a hallmark of the species and there is significant interest in methods that can determine the past migrations of humans and associated fauna. We present a new method that utilizes collagen oxygen, carbon and nitrogen isotopes from histologically informed samples of cortical bone. The utility of this multi-isotopic, life history approach is demonstrated in migrating Dutch whalers, and both the possibilities and limitations of the method are described. Migration Oxygen isotopes Collagen Dutch whalers Diet Cortical bone Svalbard archipelago Spitsbergen REF 2014
268	Sorting the butchered from the boiled Koon, Hannah E.C., O'Connor, T.P., Collins, M.J. January 2010 (has links) No / Is it possible to identify cooked, rather than burnt, bone? Mild heating (≤100 °C,1 h) – typical of cooking – does not lead to detectable changes in any biochemical parameter of bone yet measured. If it is only possible to detect charred bone, how is it possible to detect cooking in the archaeological record? In a previous paper (Koon et al., 2003, J. Arch. Sci.), we used a Transmission Electron Microscopy (TEM) based approach to investigate changes in the organization of the bone protein, collagen, as it is heated, using bone from heating experiments and short term burials. The work revealed that mineralized collagen, despite requiring aggressive treatment to gelatinise the protein (e.g. 90 °C, 240+ h), readily accumulates minor damage. We believe that the presence of mineral matrix stabilises the collagen enabling the damage to accumulate, but preventing it from causing immediate gelatinisation. Once the mineral is removed, the damage can be observed using appropriate visualization methods. In this paper the visualization technique was tested in a blind study of bovine bone from the Anglo-Scandinavian site of Coppergate, York. The purpose of the study was to determine if the method could discriminate between bones thought likely, on the basis of zoo-archaeological and spatial evidence, to have been cooked (high meat yield bones from a domestic context) and those which were butchered but unlikely to have been cooked (low yield bones from a butchery site). The results of the TEM analysis identified two clear groups of bones, one set more damaged than the other. This finding was consistent with archaeozoological interpretation, with the exception of one bone from the domestic context, which was not identified as having been cooked. Cooked bone Bone collagen fibrils Butchery TEM Coppergate York REF 2014
269	Micro-RNA-31 controls hair cycle-associated changes in gene expression programs of the skin and hair follicle Mardaryev, Andrei N., Ahmed, Mohammed I., Vlahov, Nikola V., Fessing, Michael Y., Gill, Jason H., Sharov, A.A., Botchkareva, Natalia V. January 2010 (has links) No / The hair follicle is a cyclic biological system that progresses through stages of growth, regression, and quiescence, which involves dynamic changes in a program of gene regulation. Micro-RNAs (miRNAs) are critically important for the control of gene expression and silencing. Here, we show that global miRNA expression in the skin markedly changes during distinct stages of the hair cycle in mice. Furthermore, we show that expression of miR-31 markedly increases during anagen and decreases during catagen and telogen. Administration of antisense miR-31 inhibitor into mouse skin during the early- and midanagen phases of the hair cycle results in accelerated anagen development, and altered differentiation of hair matrix keratinocytes and hair shaft formation. Microarray, qRT-PCR and Western blot analyses revealed that miR-31 negatively regulates expression of Fgf10, the components of Wnt and BMP signaling pathways Sclerostin and BAMBI, and Dlx3 transcription factor, as well as selected keratin genes, both in vitro and in vivo. Using luciferase reporter assay, we show that Krt16, Krt17, Dlx3, and Fgf10 serve as direct miR-31 targets. Thus, by targeting a number of growth regulatory molecules and cytoskeletal proteins, miR-31 is involved in establishing an optimal balance of gene expression in the hair follicle required for its proper growth and hair fiber formation. Hair follicles Micro-RNAs miRNAs Gene expression and silencing Hair cycle REF 2014
270	Gristhorpe man: an early bronze age log-coffin burial scientifically defined Melton, Nigel D., Montgomery, Janet, Knüsel, Christopher J., Batt, Catherine M., Needham, S., Parker Pearson, M., Sheridan, A., Heron, Carl P., Horsley, T., Schmidt, Armin R., Evans, Adrian A., Carter, E.A., Edwards, Howell G.M., Hargreaves, Michael D., Janaway, Robert C., Lynnerup, N., Northover, P., O'Connor, Sonia A., Ogden, Alan R., Taylor, Timothy F., Wastling, Vaughan, Wilson, Andrew S. January 2010 (has links) No / A log-coffin excavated in the early nineteenth century proved to be well enough preserved in the early twenty-first century for the full armoury of modern scientific investigation to give its occupants and contents new identity, new origins and a new date. In many ways the interpretation is much the same as before: a local big man buried looking out to sea. Modern analytical techniques can create a person more real, more human and more securely anchored in history. This research team shows how. Gristhorpe Early Bronze Age Log-coffin burials Elite status Radiocarbon dating Stable isotope Metallurgy REF 2014

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