Charles M. Breder, Jr.: Bahamas and Florida

Dr. Charles M. Breder, a well known ichthyologist, kept meticulous field diaries throughout his career. This publication is a transcription of field notes recorded during the Bacon Andros Expeditions, and trips to Florida, Ohio and Illinois during the 1930s. Breder's work in Andros included exploration of a "blue hole", inland ecosystems, and collection of marine and terrestrial specimens. Anecdotes include descriptions of camping on the beach, the "filly-mingoes" (flamingos) of Andros Island, the Marine Studios of Jacksonville, FL, a trip to Havana, and the birth of seahorses. This publication is part of a series of transcriptions of Dr. Breder's diaries. (PDF contains 55 pages

Scalable scheme for entangling multiple ququarts using linear optical elements

We report a scalable linear optical scheme for generating entangled states of multiple ququarts in which the individual single-ququart state is prepared with the biphoton polarization state of frequency-nondegenerate spontaneous parametric down-conversion. The output state is calculated with the full consideration of the higher order effect (double-pair events) of spontaneous parametric down-conversion. Scalability to multiple-ququart entanglement is demonstrated with examples: linear optical entanglement of three and four individual biphoton ququarts

Hypernormal science and its significance

‘Hypernormal science’ has minimal potential for contestation on matters of principle and practice so that information exchange can be unproblematic. Sciences comprise hypernormal domains and more contestable ‘normal’ domains where knowledge diffusion, like acquiring linguistic fluency, depends on face-to-face interaction. Hypernormal domains belonging to molecular biology are contrasted with normal domains in gravitational wave detection physics. Sciences as a whole should not be confused with their typical domains. The analysis has immediate implications for proposed transitions out of the Covid-19 lockdown, proposed solutions to the replication crisis, and, perhaps, our understanding of the early development of social studies of science

The effect of target properties on crater morphology: Comparison of central peak craters on the Moon and Ganymede

We examine the morphology of central peak craters on the Moon and Ganymede in order to investigate differences in the near-surface properties of these bodies. We have extracted topographic profiles across craters on Ganymede using Galileo images, and use these data to compile scaling trends. Comparisons between lunar and Ganymede craters show that crater depth, wall slope and amount of central uplift are all affected by material properties. We observe no major differences between similar-sized craters in the dark and bright terrain of Ganymede, suggesting that dark terrain does not contain enough silicate material to significantly increase the strength of the surface ice. Below crater diameters of ~12 km, central peak craters on Ganymede and simple craters on the Moon have similar rim heights, indicating comparable amounts of rim collapse. This suggests that the formation of central peaks at smaller crater diameters on Ganymede than the Moon is dominated by enhanced central floor uplift rather than rim collapse. Crater wall slope trends are similar on the Moon and Ganymede, indicating that there is a similar trend in material weakening with increasing crater size, and possibly that the mechanism of weakening during impact is analogous in icy and rocky targets. We have run a suite of numerical models to simulate the formation of central peak craters on Ganymede and the Moon. Our modeling shows that the same styles of strength model can be applied to ice and rock, and that the strength model parameters do not differ significantly between materials.The Meteoritics & Planetary Science archives are made available by the Meteoritical Society and the University of Arizona Libraries. Contact [email protected] for further information.Migrated from OJS platform February 202

A multi-centre study of interactional style in nurse specialist- and physician-led Rheumatology clinics in the UK

Background: Nurse-led care is well established in Rheumatology in the UK and provides follow-up care to people with inflammatory arthritis including treatment, monitoring, patient education and psychosocial support. Aim: The aim of this study is to compare and contrast interactional style with patients in physician-led and nurse-led Rheumatology clinics. Design: A multi-centre mixed methods approach was adopted. Settings: Nine UK Rheumatology out-patient clinics were observed and audio-recorded May 2009-April 2010. Participants: Eighteen practitioners agreed to participate in clinic audio-recordings, researcher observations, and note-taking. Of 9 nurse specialists, 8 were female and 5 of 9 physicians were female. Eight practitioners in each group took part in audio-recorded post-clinic interviews. All patients on the clinic list for those practitioners were invited to participate and 107 were consented and observed. In the nurse specialist cohort 46% were female 71% had a diagnosis of Rheumatoid Arthritis (RA). The physician cohort comprised 31% female 40% with RA and 16% unconfirmed diagnosis. Nineteen (18%) of the patients observed were approached for an audio-recorded telephone interview and 15 participated (4 male, 11 female). Methods: Forty-four nurse specialist and 63 physician consultations with patients were recorded. Roter's Interactional Analysis System (RIAS) was used to code this data. Thirty-one semi-structured interviews were conducted (16 practitioner, 15 patients) within 24 h of observed consultations and were analyzed using thematic analysis. Results: RIAS results illuminated differences between practitioners that can be classified as 'socio-emotional' versus 'task-focussed'. Specifically, nurse specialists and their patients engaged significantly more in the socio-emotional activity of 'building a relationship'. Across practitioners, the greatest proportion of 'patient initiations' were in 'giving medical information' and reflected what patients wanted the practitioner to know rather than giving insight into what patients wanted to know from practitioners. Interviews revealed that continuity of practitioner was highly valued by patients as offering the benefits of an established relationship and of emotional support beyond that of the clinical encounter. This fostered familiarity not only with their particular medical history, but also their individual personal circumstances, and this encouraged patient participation. In contrast, practitioners (mis)perceived waiting times to have a greater impact on patient satisfaction. However, practitioner interviews also revealed that clinic structure is often outside of the practitioner control and can undermine the possibility of maintaining patient-practitioner continuity. Conclusions: This research enhances understanding of nurse specialist consultation styles in Rheumatology, specifically the value of their socio-emotional communication skills to enhance patient participation

Syntax

© 2014 The Authors. WIREs Cognitive Science published by John Wiley & Sons, Ltd. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited

Magnetohydrodynamic experiments on cosmic magnetic fields

It is widely known that cosmic magnetic fields, i.e. the fields of planets, stars, and galaxies, are produced by the hydromagnetic dynamo effect in moving electrically conducting fluids. It is less well known that cosmic magnetic fields play also an active role in cosmic structure formation by enabling outward transport of angular momentum in accretion disks via the magnetorotational instability (MRI). Considerable theoretical and computational progress has been made in understanding both processes. In addition to this, the last ten years have seen tremendous efforts in studying both effects in liquid metal experiments. In 1999, magnetic field self-excitation was observed in the large scale liquid sodium facilities in Riga and Karlsruhe. Recently, self-excitation was also obtained in the French "von Karman sodium" (VKS) experiment. An MRI-like mode was found on the background of a turbulent spherical Couette flow at the University of Maryland. Evidence for MRI as the first instability of an hydrodynamically stable flow was obtained in the "Potsdam Rossendorf Magnetic Instability Experiment" (PROMISE). In this review, the history of dynamo and MRI related experiments is delineated, and some directions of future work are discussed.Comment: 25 pages, 26 figures, to appear in ZAM