186 research outputs found

    Sensory Ecology: Giant Eyes for Giant Predators?

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    SummaryMathematical models suggest the enormous eyes of giant and colossal squidĀ evolved to see the bioluminescence induced by the approach of predatory whales

    Polarization sensitivity as a visual contrast enhancer in the Emperor 1 dragonfly larva,<i>Anax imperator </i>(Leach, 1815)

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    Polarization sensitivity (PS) is a common feature of invertebrate visual systems. In insects, PS is well known for its use in several different visually guided behaviours, particularly navigation and habitat search. Adult dragonflies use the polarization of light to find water but a role for PS in aquatic dragonfly larvae, a stage that inhabits a very different photic environment to the adults, has not been investigated. The optomotor response of the larvae of the Emperor dragonfly, Anax imperator, was used to determine whether these larvae use PS to enhance visual contrast underwater. Two different light scattering conditions were used to surround the larval animals: a naturalistic horizontally polarized light field and non-naturalistic weakly polarized light field. In both cases these scattering light fields obscured moving intensity stimuli that provoke an optokinetic response in the larvae. Animals were shown to track the movement of a square-wave grating more closely when it was viewed through the horizontally polarized light field, equivalent to a similar increase in tracking ability observed in response to an 8% increase in the intensity contrast of the stimuli. Our results suggest that larval PS enhances the intensity contrast of a visual scene under partially polarized lighting conditions that occur naturally in freshwater environments.</jats:p

    Recovery and Analysis of Diazepam from Dried Blood Stains

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    This study aims to determine whether it is possible to detect diazepam in bloodstains dried on a glass surface, to assess stability of diazepam in bloodstains over several days and lastly to determine whether dried bloodstains can give reliable quantitative information. One millilitre of blood fortified with different concentrations of diazepam (1, 5, 10, 50 Ī¼g/ml) was spotted on a glass surface and allowed to dry at room temperature. Liquid-liquid extraction (LLE) was completed and 100Ī¼L of internal standard (flurazepam) was added to the sample, vortexed and allowed to equilibrate for 15 min followed by the addition of 1ml of carbonate-bicarbonate buffer. Diazepam was extracted with 1ml of toluene: heptane (9:1, v/v) and centrifuged for 10min at 4500 rpm. The organic layer collected was analysed by gas chromatography mass spectrometry (GC/MS) using selective ion monitoring (SIM) mode. The method was checked for linearity, limit of detection (LOD), limit of quantitation (LOQ), precision, accuracy, extraction recovery and stability. Good linearity was obtained between 1-100 Ī¼g/ml (r2=0.9983) for diazepam in dried bloodstains. LOD and LOQ in bloodstains were 0.5-1 Ī¼g/ml and 1 Ī¼g/ml respectively. Interday precision was 2-10% and accuracy ranged from -66.3% to -39.3%. A scatter plot showed results obtained from dried bloodstains and whole blood was comparable. However, stability study conducted on five days showed that diazepam was not stable in dried bloodstains since an apparent decrease in the measured concentration of diazepam was observed on each day. It was shown that detection of diazepam in dried bloodstains was possible. Stability study showed that diazepam was not stable in dried bloodstains. Therefore, toxicological analysis of diazepam in bloodstains can assist the court based on qualitative information but not on quantitative information since measured concentration varied on different days. Toxicological analysis of dried bloodstains can be important for the police and lawyers since it can help to determine the chronology of events in a crime and helped the court to reconstruct that crime. The new ideas raised in this study compared to other studies are: glass used as a substrate, diazepam drug, stability and recovery study were assessed on 5 days

    RRS Discovery Cruise 243, 11th October to 22nd November 1999. Sensory Biology in the Deep-Sea: Anatomy, Physiology, and Molecular Biology

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    RRS Discovery cruise 243 had two principal objectives: to collect deep-sea animals for a variety of biological studies ranging from physiology to molecular biology, and to deploy benthic landers. The landers are described in Section 9.1, and the midwater and benthic trawling in Section 9.2. A complete list of the stations worked, with times, latitudes and longitudes, is given in Section 10, and a track chart for the whole cruise is shown in Section 11. Trawling was conducted first and foremost in order to provide specimens required for work associated with NERC grant GR3/B1212 ā€œAnalysis of light-induced interactions in the deep-sea: bioluminescence and its relation to vision, reflectance and fluorescenceā€ to Professor Peter Herring, Dr Julian Partridge, and Dr Peter Shelton. Of equal importance to the success of the cruise, however, was the provision of biological samples for a range of inter-related studies. Descriptions of these studies are given in Section 9.3. Throughout the cruise a narrative (Section 6) was compiled to document, in diary format, the main scientific activities on board ship. It also records information about factors which affected work, such as the weather, and problems with equipment. The narrative is more or less a list of notes rather than proper prose, and was written during the cruise, documenting events as they were planned, as they unfolded, or after they had happened. In consequence, the tenses of verbs tend to vary in a haphazard way, for which I apologise. During the cruise, the Discovery ā€œRough Logā€ of biological specimens was maintained by Professor Peter Herring. A prĆ©cis of some of the information from the Rough Log is incorporated into the narrative as a record of some of the most common, and some of the most unusual, animals that were collected. This is necessarily a biased record. Nevertheless, it may be useful to others planning or conducting similar cruises to the areas worked during D243, particularly those targeting the pelagic macrofauna. As the narrative shows, D243 was plagued by problems with the main winch. At one stage, early in the cruise, the severity of these problems made it likely that the cruise would have to be terminated prematurely, without any trawling having been undertaken. That this situation was reversed is due to the determination and hard work of the RVS technicians who were on board the ship. To them, Phil Taylor (RVS Technical Liaison Officer/TLO), Kevin Smith (RVS Mobilisation Officer/MO), Paul Duncan, and Rhys Roberts, we are much indebted: without their labours the cruise would not have succeeded in the way it ultimately did. Inevitably, the ā€œscience timeā€ of the cruise was affected by the winch problems (see Section 8) and was contributory to a decision not to work the slope of the African continent, which had been part of the original cruise directive. This was, however, to some extent compensated by the generally stable weather conditions in the work area. Although we encountered conditions more extreme than are indicated in the ā€˜Africa Pilotā€™ for the region during October/November (anticipated average wind force 3), at no time was work stopped by poor weather. This in itself partly justifies the relatively long passage time to the work area. The main reason for working in the region, however, was the high diversity and abundance of midwater and benthic macrofauna in this region of upwelling and high surface water productivity. This, in combination with the trawling methods used, which included the use of the relatively large RMT25 net and a closing cod end on the RMT8 net, ensured that the requirements of the scientific personnel for specimens were well met. The scientific complement of the cruise consisted of 23 people, ranging from graduate students to professors, from five countries and eleven institutions. In addition, the cruise also hosted a team from the BBC Natural History Unit, who were on board to film for the ā€œThe Blue Planetā€, a television series about the seas which is due for release in 2001. That this diverse group (who are listed, with their contact details, in Section 2) worked so well together, and were steadfastly cheerful firstly in the face of the winch problems, and later in the face of the relentlessness of trawling and catch processing, is very much to their credit. As Principal Scientist on D243 I am extremely grateful for their hard work and support in the run-up to the cruise, during the time at sea, and in its aftermath. In particular I would like to single out for thanks Ben Boorman and Nigel Merrett who, as scientific day and night watch leaders, ensured that the fishing and the supply of specimens continued without a break. D243 was also notable for one other event: it was Peter Herringā€™ last cruise before his retirement from the Southampton Oceanography Centre. Without a doubt, none of the participants on D243 would have been there but for Peter, such has been his impact on ocean going biology. Indeed, the format of D243 very much follows the successful formula developed by him on numerous previous cruises, including some to the Cape Verde region of the West African upwelling. If a cruise report can be dedicated, this is dedicated to him

    The independence of eye movements in a stomatopod crustacean is task dependent

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    ABSTRACT Stomatopods have an extraordinary visual system, incorporating independent movement of their eyes in all three degrees of rotational freedom. In this work, we demonstrate that in the peacock mantis shrimp, Odontodactylus scyllarus, the level of ocular independence is task dependent. During gaze stabilization in the context of optokinesis, there is weak but significant correlation between the left and right eyes in the yaw degree of rotational freedom, but not in pitch and torsion. When one eye is completely occluded, the uncovered eye does not drive the covered eye during gaze stabilization. However, occluding one eye does significantly affect the uncovered eye, lowering its gaze stabilization performance. There is a lateral asymmetry, with the magnitude of the effect depending on the eye (left or right) combined with the direction of motion of the visual field. In contrast, during a startle saccade, the uncovered eye does drive a covered eye. Such disparate levels of independence between the two eyes suggest that responses to individual visual tasks are likely to follow different neural pathways.</jats:p

    Hawthorn Crater Project Report 1

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    This project report and presentation outline the research outcomes from the first field study at Hawthorn Ridge Crater at Beaumont Hamel in France. It is co edited by Associate Professor Fiona Graham and Professor John Cassella. Authors include both academic partner Keele University and industry partners including Stoke on Trent City Council, UAV Dynamics, and FARO and analyse the findings relating to the inter disciplinary project including: film, forensic science, history, and archaeology. The crater is one of the largest in France, blown to mark the beginning of the Battle of the Somme on July 1st 1916. Exclusive access has been given to the site for research. The site is of particular significance to film history marking one of the first examples of battlefield film by Geoffrey Malins

    The effects of surface structure mutations in <i>Arabidopsis thaliana</i> on the polarization of reflections from virus-infected leaves

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    <div><p>The way in which light is polarized when reflected from leaves can be affected by infection with plant viruses. This has the potential to influence viral transmission by insect vectors due to altered visual attractiveness of infected plants. The optical and topological properties of cuticular waxes and trichomes are important determinants of how light is polarized upon reflection. Changes in expression of genes involved in the formation of surface structures have also been reported following viral infection. This paper investigates the role of altered surface structures in virus-induced changes to polarization reflection from leaves. The percentage polarization of reflections from <i>Arabidopsis thaliana cer5</i>, <i>cer6</i> and <i>cer8</i> wax synthesis mutants, and the <i>gl1</i> leaf hair mutant, was compared to those from wild-type (WT) leaves. The <i>cer5</i> mutant leaves were less polarizing than WT on the adaxial and abaxial surfaces; <i>gl1</i> leaves were more polarizing than WT on the adaxial surfaces. The <i>cer6</i> and <i>cer8</i> mutations did not significantly affect polarization reflection. The impacts of <i>Turnip vein clearing virus</i> (TVCV) infection on the polarization of reflected light were significantly affected by <i>cer5</i> mutation, with the reflections from <i>cer5</i> mutants being higher than those from WT leaves, suggesting that changes in <i>CER5</i> expression following infection could influence the polarization of the reflections. There was, however, no significant effect of the <i>gl1</i> mutation on polarization following TVCV infection. The <i>cer5</i> and <i>gl1</i> mutations did not affect the changes in polarization following <i>Cucumber mosaic virus</i> (CMV) infection. The accumulation of TVCV and CMV did not differ significantly between mutant and WT leaves, suggesting that altered expression of surface structure genes does not significantly affect viral titres, raising the possibility that if such regulatory changes have any adaptive value it may possibly be through impacts on viral transmission.</p></div

    Adaptive mechanisms in the ecology of vision

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    A Novel Vertebrate Eye Using Both Refractive and Reflective Optics

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    SummarySunlight is attenuated rapidly in the ocean, resulting in little visually useful light reaching deeper than āˆ¼1000 m in even the clearest water [1]. To maximize sensitivity to the relatively brighter downwelling sunlight, to view the silhouette of animals above them, and to increase the binocular overlap of their eyes, many mesopelagic animals have developed upward-pointing tubular eyes [2ā€“4]. However, these sacrifice the ability to detect bioluminescent [5] and reflective objects in other directions. Thus, some mesopelagic fish with tubular eyes extend their visual fields laterally and/or ventrally by lensless ocular diverticula, which are thought to provide unfocused images, allowing only simple detection of objects, with little spatial resolution [2ā€“4]. Here, we show that a medial mirror within the ventrally facing ocular diverticulum of the spookfish, Dolichopteryx longipes, consisting of a multilayer stack derived from a retinal tapetum, is used to reflect light onto a lateral retina. The reflective plates are not orientated parallel to the surface of the mirror. Instead, plate angles change progressively around the mirror, and computer modeling indicates that this provides a well-focused image. This is the first report of an ocular image being formed in a vertebrate eye by a mirror
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