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    Pascoe, R J, Ngx141

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/409671Surname: PASCOE. Given Name(s) or Initials: R J. Military Service Number or Last Known Location: NGX141. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 12893.225306 Item: [2016.0049.41942] "Pascoe, R J, Ngx141

    The effect of bond-line thickness on fatigue crack growth rate in adhesively bonded joints

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    The effect of adhesive thickness on fatigue crack growth in an epoxy film adhesive (FM94) was investigated, using a combination of experiments and numerical modelling. For the range of thicknesses investigated an increased thickness led to an increased crack growth rate. It was found that the energy required per unit of crack growth did not depend on the adhesive thickness. In contrast, the energy available for crack growth does depend on the adhesive thickness. The numerical analysis confirms that the energy required per unit crack growth is not sensitive to the adhesive thickness, but that the plastic energy dissipation increases with the thickness. The experimental results imply that this increase of plasticity has an anti-shielding effect, as the crack growth rate is increased.Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Structural Integrity & Composite

    Glenea pulchella Pascoe 1858

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    Glenea pulchella Pascoe, 1858 (Figures 13–18) Glenea pulchella Pascoe, 1858: 260. TL: Malacca. TD: BMNH. Glenea vesta Pascoe, 1866: 260, pl. 28, Figure 3. [Unnecessary new name for Glenea pulchella Pascoe, 1858] Glenea pulchella: Aurivillius 1926: 111 (partim). Glenea (Glenea) pulchella: Breuning 1956a: 195 (partim). Type specimen examined Holotype (Figure 13 (a–e)), ♂, Malacca (BMNH, ex Pascoe Coll. 93–60). Other specimens examined Malaysia: 1 ♀, Bornéo Occ., Pontianak, 1899 (MNHN) (Figure 14); 1 ♀, Sarawak (MNHN, Museum Paris Coll. H.W. Bates 1952, ex Musaeo, H.W. Bates 1892); 3 ♂♂ 8 ♀♀, Sandakan Borneo, Baker (NMNH); 1 ♀, Sabah, Mt. Trus-Madi, 18 March 2011, local coll. (DHCO); 1 ♀, Sabah Crocker Range, vic. Trus Madi, 13 March 2000, local coll. (DHCO); 1 ♀, Sabah Crocker Range, April 1998, local coll. (DHCO); 1 ♂, Borneo (IRSNB, ex Coll. Nonfried); 1 ♀, Borneo (IRSNB, ex Coll. F. de Moffaris); 1 ♀, Borneo, Pontanak (NHMB, ex FREY); 2 ♀♀, Borneo Occ. Pontianak, 1899 (MNHN); 1 ♂, Borneo, 1891, W. Doherty (MNHN, ex Coll. R. Oberthür, 1952); 1 ♀, Kuching, 1902 (MHNL, ex collection P. Lepesme); 1 ♀, Borneo occ., Pontianak, 1899 (MHNG); 4 ♀♀, Borneo occ., Pontianak, 1899 (MNHN). Singapore 2 ♂♂, Singapore, coll. Wallace (MNHN, ex Musaeo James Thomson); 2 ♂♂, Singapore (MNHN); 1 ♀, Singapore (BMNH); 1 ♀, Singapore (MNHN, ex Musaeo Mniszech). Description complementary to Pascoe (1858) and Breuning (1956a). Male: length: 8.8–10.3 mm, humeral width: 2.6–3.1 mm. Female: length: 11.3–13.4 mm, humeral width: 3.6–4.3 mm. Both male and female with simple claws. Male genitalia (Figures 15–16) Tegmen length about 2.6 mm; lateral lobes long and slender, each about 1.0 mm long and less than 0.1 mm wide, apex covered with short, reddish brown setae; basal piece bifurcated distally; median lobe plus median struts slightly curved, shorter than tegmen (11:13); the median struts about 2/3 of the whole median lobe in length; dorsal plate subequal to ventral plate; ventral edge of median orifice round; median foramen hardly elongated; internal sac 2 times longer than combined length of median lobe and median struts, with 2 pairs of basal armature and 4 rods; each rod about 1.0 mm, shorter than half of tegmen. Tergite VIII trapeziform, apex truncated, with short setae. Length of ventrite IX subequal to ringed part of tegmen. Female genitalia (Figures 17–18) Spermatheca rounded, with a moderately long and curved stem at its base. Spermathecal gland originating from a distinctly sclerotised ringed plate (Figure 17). Tignum much longer than abdomen. Tignum 8.8 mm for an adult with a 5.3 mm long abdomen in ventral view. Diagnosis Glenea pulchella differs from G. vellayaniensis sp. nov. by colour and haired maculae in the following body regions: (1) scape and antennomere II dark brown to black (vs scape and antennomere II reddish brown in G. vellayaniensis sp. nov.); (2) sublateral macula on pronotum made up of yellow hairs with straight inner margin (vs sublateral macula on pronotum made of yellow hairs intermixed with creamy white hairs with proximally concave inner margin in G. vellayaniensis sp. nov.); (3) basal elytral yellow-haired maculae semicircular (vs basal elytral yellow-haired maculae bean-shaped in G. vellayaniensis sp. nov.); (4) middle elytral yellow-haired maculae oval, without small spots posteriorly (vs median maculae on elytra transversely oval with small spots posteriorly in G. vellayaniensis sp. nov.); (5) elytral apex not covered by yellow hairs, but last maculae located before apex (vs elytral apex covered with yellow haired maculae in G. vellayaniensis sp. nov.). Distribution Malaysia, Singapore. Remarks Pascoe (1866: 260) wrote ‘I have altered the specific name pulchella, it having been previously used by Hope’. And Pascoe gave the species the new name ‘ Glenea vesta ’. Pascoe (1867: 370) wrote ‘ Glenea pulchella Hope, sec. J. Thomson, Ess. & c., p. 58’ from Sarawak. We checked page 58 of Thomson (1857) and found nothing related to ‘ Glenea pulchella Hope’; then we checked page 58 of Thomson (1860), and there it was written ‘ Glenea pulchella, Hope Syn.: G. conspuncta, Melly’. However, ‘Hope’s species was not described before 1860’ (Aurivillius 1926: 111). ‘ Glenea pulchella Hope’ described by Pascoe (1867) was renamed Glenea pascoei Aurivillius, 1923, while ‘ Glenea pulchella Hope’ described by Thomson (1860) from Sylhet was renamed Glenea pulchra Aurivillius, 1926. Glenea pulchella Pascoe, 1858 is the earliest name, and therefore the new name ‘ Glenea vesta ’ is not required. Breuning (1956a) treated G. vestalis Heller, 1934 as a morph and described several morphs (infrasubspecific). However, his ‘morphs’ are good species. Mukhopadhyay and Biswas (2000) reported the distribution range of G. pulchella as India: Meghalaya, Bangladesh, Burma; while Mitra et al. (2016) mentioned India: Karnataka, Manipur, Meghalaya, Sikkim, Tamil Nadu, West Bengal. These distribution records are not reliable, based on neither specimens nor trustable identifications. The first author inquired for supportive material from the Zoological Survey of India (ZSI), Kolkata; however, there are no specimens of G . pulchella in the collection. The known localities of this species are, to our knowledge, limited to Malaysia and Singapore.Published as part of Hiremath, Sangamesh R. & Lin, Mei-Ying, 2021, Description of two new species of Glenea Newman, 1842 from southern India and reinstatement of Glenea vestalis Heller, 1934 (Coleoptera: Cerambycidae: Lamiinae: Saperdini), pp. 205-245 in Journal of Natural History 55 (3 - 4) on pages 217-221, DOI: 10.1080/00222933.2021.1900442, http://zenodo.org/record/547373

    Hyagnis fistularius PASCOE 1864

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    <i>Hyagnis fistularius</i> PASCOE 1864 <p>M a t e r i a l: 1 Ex. Arba Minch, 1440 m, 21.-30.X.2003, R. Beck leg.</p> <p>V: Côte d´Ivoire, Äthiopien, Kenya, Uganda, Zambia, Zimbabwe, RSA (ADLBAUER 1998).</p>Published as part of <i>Adlbauer, K., Ayalew, Amare, Beck, R. & Drumont, A., 2008, Cerambyciden aus Äthiopien (Coleoptera, Cerambycidae), pp. 1153-1191 in Linzer biologische Beiträge 40 (2)</i> on page 1179, DOI: <a href="http://zenodo.org/record/5430603">10.5281/zenodo.5430603</a&gt

    Golsinda Pascoe 1857

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    Genus <i>Golsinda</i> Pascoe, 1857 <p> <i>Golsinda</i> Pascoe, 1857: 49; Thomson, 1861: 343; 1864: 369; Pascoe, 1864 /65: 96, 133; Lacordaire, 1869: 368, 370; Aurivillius, 1922: 135; Breuning, 1938: 388; 1959: 49; Rondon & Breuning, 1970: 318, 319.</p> <p> Type species: <i>Golsinda corallina</i> Pascoe, 1857.</p> <p> <b>Nomenclatural notes.</b> The authorship of the genus <i>Golsinda</i> and <i>G. corallina</i> has been credited to Thomson (1860) by succeeding researchers (<i>e.g.</i> Pascoe 1862, Breuning 1939, 1959, Rondon & Breuning 1970). However, this genus was first established by Pascoe (1857) with the descriptions of <i>G. tessellata</i>, <i>G. reticulata</i> and <i>G. c o r a l - lina</i> prior to Thomson (1860, 1861), though <i>G. reticulata</i> and <i>G. corallina</i> were put in the note with a short and austere description referred to White’s unpublished manuscript. These descriptions can be regarded as fulfilling the provision of article 12 of ICZN (1999). Therefore, <i>G. reticulata</i> and <i>G. corallina</i> should be available species names under the authorship of Pascoe (1857). The authorship of the genus also should be attributed to Pascoe (1857) (ICZN 1999, Art. 11.5 and 12.2.5).</p> <p> Thomson (1861) redescribed “ <i>Golsinda</i> White?” and “ <i>Golsinda corallina</i> White?” and listed “ <i>G</i>. <i>tessellata</i>, Pascoe ” in his note. Later, Pascoe (1862) established the genus <i>Palimna</i> for <i>G. tessellata</i> and <i>G. reticulata</i>, and remarked that Thomson (1861) designated the type species of <i>Golsinda</i> as <i>G. corallina</i>. However, the type species of the genus was fixed neither by Pascoe (1857) nor by Thomson (1861). It should be noted that Pascoe (1862) subsequently designated the type species of <i>Golsinda</i> as <i>G. corallina</i>, even if it was unintentional (ICZN 1999, Art. 69.1.1). As a result, the authorship of the genus <i>Golsinda</i> should be attributed to Pascoe (1857), and the type species of this genus is <i>G. corallina</i> Pascoe, 1857, subsequently designated by Pascoe (1862).</p>Published as part of <i>Yamasako, Junsuke & Makihara, Hiroshi, 2011, A new species of the genus Golsinda Pascoe, 1857 (Coleoptera, Cerambycidae, Lamiinae, Mesosini) from the Malay Peninsula, with a nomenclatural note of the genus, pp. 63-68 in Zootaxa 3047</i> on pages 63-64, DOI: <a href="http://zenodo.org/record/201612">10.5281/zenodo.201612</a&gt

    Damping of kink waves by mode coupling. II. Parametric study and seismology

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    Context: Recent observations of the corona reveal ubiquitous transverse velocity perturbations that undergo strong damping as they propagate. These can be understood in terms of propagating kink waves that undergo mode coupling in inhomogeneous regions. Aims: The use of these propagating waves as a seismological tool for the investigation of the solar corona depends upon an accurate understanding of how the mode coupling behaviour is determined by local plasma parameters. Our previous work suggests the exponential spatial damping profile provides a poor description of the behaviour of strongly damped kink waves. We aim to investigate the spatial damping profile in detail and provide a guide to the approximations most suitable for performing seismological inversions. Methods: We propose a general spatial damping profile based on analytical results that accounts for the initial Gaussian stage of damped kink waves as well as the asymptotic exponential stage considered by previous authors. The applicability of this profile is demonstrated by a full parametric study of the relevant physical parameters. The implication of this profile for seismological inversions is investigated. Results: The Gaussian damping profile is found to be most suitable for application as a seismological tool for observations of oscillations in loops with a low density contrast. This profile also provides accurate estimates for data in which only a few wavelengths or periods are observed.Peer reviewe

    Data sharing using the X.500 directory

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    Part of the GeoComputation '96 Special Issue 96/25; follow the "related link" to download the entire collection as a single document.Sharing geographical data sets is highly desirable for economical and technical reasons. In this paper the author describes the development of an agency for sharing geographical data which is based on the use of the ISODE implementation of the X.500 Directory Service and a collection of software agents which collaborate with each other to perform the various task associated with sharing data.UnpublishedAnderson, J. S. 1995, ‘Building a Useful GIS Directory: Snohomish County, Washington’, URISA Journal pp. 45-52. ANZLIC 1996, Anzlic guidlines: Core metadata elements version 1, Technical report, Autralia and New Zealand Land Information Council: Working Group on Metadata. Baker, H. 1996, ‘Data Blazes Trail for Metadata Standards’, The Australasian Geographic Information Systems Applications Journal, GIS User (15). CSIRONET 1986, Command Driven Colormap, User’s Guide, 1st edn, CSIRONET Graphics System Section, Canberra. Geo Vision 1986. Data Translation Guide, GeoVision. Ottawa. Geological Survey, U. S. 1990, Digital Line Graphs from 1:2,000,000-Scale Maps, in ‘Data Users Guide’, Vol. 3 of National Mapping Program Technical Instructions, Department of Interior, U. S. Geological Survey. ISODE Volume 8 User’s Guide Directory Services 1994, Technical report, The Dome The Square Richmond TW9 1DT UK. Johnson, B. D., Shelley, P., Taylor, M. M. & Callahan, S. 1996, The findar directory system: a meta-model for meta-data. *http://www.nric.gov.au/nric/publishing/papers/metadata.html Newsome, P. F. J. 1995, Directory of Geographic Databases within Manaaki Whenua Landcare Research, Technical report, Whenua - Landcare Research New Zealand Ltd., Private Bag 11052, Palmerston North New Zealand. Pascoe, R. T. & Penny, J. P. 1990, ‘Construction of interfaces for the exchange of geographic data’, International Journal of Geographical Information Systems 4(2), 147-156. Pascoe, R. T. & Penny, J. P. 1993, Transforming geographic data between different concrete representations, in G. Gupta, G. Mohay & R. Topor, eds, ‘Proceedings of the Sixteenth Australian Computer Science Conference’, pp. 653-663. Pascoe, R. T. & Penny, J. P. 1995, ‘Constructing interfaces between (and within) geographical information systems’, International Journal of Geographical Information Systems 9(3), 275-291. StoneBraker, M. 1992, Postgres Reference Manual, Version 4.0, University of California, Berkeley. This manual is distributed with the Postgres source code. van Roessel, J., Bankers, D., Connochioli, V., Doescher, S., Fosnight, G., Wehde, M. & Tyler, D. 1986, vector data structure conversion at the EROS data center, final report, phase 1, Technical report, EROS Data Center, Sioux Falls, South Dakota 57198

    Lyctoxylon dentatum Pascoe

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    <i>Lyctoxylon dentatum (</i> Pascoe <i>)</i> <p> Taihoku [Taipei], 1, 24 ­V­1917, F. Ogata (misdetermined by Y. Miwa as <i>L. brunneus</i>). [Hualien port], 10, 8 ­III­1948, Derris, (no collector) (misdetermined as <i>L. brunneus</i>) (TARI).</p>Published as part of <i>Liu, L. Y., Beaver, R. A. & Yang, J. T., 2006, The Bostrichidae (Coleoptera) of Taiwan: a key to species, new records, and a lectotype designation for Sinoxylon mangiferae Chujo, pp. 1-33 in Zootaxa 1307</i> on page 7, DOI: <a href="http://zenodo.org/record/173755">10.5281/zenodo.173755</a&gt

    Balancing, walking, running, jumping, leaping, skipping, galloping and standing still: Fundamental Movement Skills as metaphor for teaching drama

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    Robin Pascoe considers how fundamental movement skills are apt metaphors for the teaching of drama. From striking the perfect balance to find equilibrium in a world of apparent contextual churn to jumping through hoops of compliance, curriculum and change, he invites us to reflect as drama educators on our experiences in order to envision where we might go next as a community
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