327,470 research outputs found

    S-04 Geologic map of Minnesota, Quaternary geology

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    Scale 1:3,168,000.Goebel, J.E.; Walton, M.. (1979). S-04 Geologic map of Minnesota, Quaternary geology. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/60073

    S-01 Geologic map of Minnesota, Quaternary geology

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    Scale 1:500,000.Hobbs, H.C.; Goebel, J.E.. (1982). S-01 Geologic map of Minnesota, Quaternary geology. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/60085

    Goebel, P A, NX1221

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete.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/387942Surname: GOEBEL. Given Name(s) or Initials: P A. Military Service Number or Last Known Location: NX1221. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 34293.210712 Item: [2016.0049.20235] "Goebel, P A, NX1221

    UNDERSTANDING SHIFTING LANGUAGES ON INDONESIAN TELEVISION: UNDERSTANDING SOCIAL VALUE IN LATE CAPITALISM

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    The work of Bourdieu (1991), Hobsbawm (1990), Wallerstein (2004), and Bahktin (1981), among others, have become a cornerstone for understanding valuation processes attached to language as well as their relationships with political economy and processes of globalization in a period referred to as “late capitalism” (e.g. Blommaert, 2010; Goebel, 2010, In press; Heller, 2011; Heller & Duchene, 2012b). In this paper, I draw upon this work to offer an interpretation of the ongoing revaluation of languages in Indonesia, including the ideology of Indonesian as the language for doing unity in diversity. My empirical focus will primarily be material I have gathered from television in 2009. Central to my argument will be that as the Indonesian state has moved between centralized and decentralized regimes (often pushed by market forces) these processes have helped regiment multiple centres of normativity around language in Indonesia. With changing political and economic conditions in the early 1990’s local content became increasingly valued in the media. Some languages (and the ethnic groups associated with them) were increasingly commodified, as in the case of Si Doel (e.g. Loven, 2008; Sen & Hill, 2000). As it became clear that local content sinetron was a “sell well” genre, this genre was copied by many other producers of television content (Rachmah, 2006). At the same time, these market forces – and the decreasing influence of the state in determining how language was modelled on television – helped increase the social value of local languages and mixed languages (Goebel, In press). These processes effectively drove language change in the social domain of television

    Dendrocellus Schmidt-Goebel 1846

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    Dendrocellus Schmidt-Goebel, 1846 Type species: Dendrocellus discolor Schmidt-Goebel, 1846 (= Desera nepalensis Hope, 1831)= Desera Hope, 1831 (nec Dejean, 1825) Type species: Desera nepalensis Hope, 1831 Bousquet (2002) and Liang et al. (2004) have correctly reconstructed the complex nomenclatorial history of this genus, reaching the conclusion that its valid generic name is Dendrocellus Schmidt-Goebel, 1846, instead of Desera Dejean, 1825, as it was frequently considered previously. We only observe that back in 1949 Jeannel already wrote: “Les Dendrocellus Schm. -Goeb. (type: discolor Schm. -Goeb.,= nepalensis Hope) sont généralement classés à tort sous le nom de Desera. … Malgré leurs ongles tarsaux pectinés, ils sont très voisins des Drypta s. str. ” (Jeannel, 1949). So, it seems the french author had already reached the same conclusions. This genus, recently revised by Liang & Kavanaugh (2007), contains 22 species occuring in Africa, Asia and Australia. Systematically it is extremely close to Drypta, differing only in its tarsal claws pectinate instead of smooth. The genitalic characters of both sexes are the same, the external resemblance among members of the two genera is sometimes puzzling and a few species of Dendrocellus show very slight tarsal pectination, sometimes leaving a doubt on their generic pertinence; only a comparative study of all the characters of the species belonging to the two genera will allow to decide whether they can be really maintained as separate genera. Already in 1968 Darlington observed: “ Desera differs from Drypta only in having pectinate tarsal claws. A modern revision of the species is needed to show whether both genera are really monophyletic and distinct” (Darlington, 1968, p. 218). The unique combination of characters distinguishing this genus from the others of the tribe is: pronotal bead absent or very rudimental (fig. 10); punctuation on head and pronotum dense, regular, the punctures usually well distinct from each other; pronotum very feebly constricted towards base; elytral microsculpture well developed; elytral pubescence dense, usually arranged in two-three more or less regular rows; scutellar pore constantly single; intervals flat or slightly convex; tarsal claws slender, more or less pectinate on inner side; two to five evident setae on outer side of stylomere (fig. 8).Published as part of Sciaky, Riccardo & Anichtchenko, Alexander, 2020, Taxonomic notes on the tribe Dryptini Bonelli, 1810 with description of a new genus and species from China (Coleoptera: Carabidae: Dryptini), pp. 522-530 in Zootaxa 4731 (4) on page 524, DOI: 10.11646/zootaxa.4731.4.5, http://zenodo.org/record/366198

    Eustra plagiata Schmidt-Goebel 1846

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    <i>Eustra plagiata</i> Schmidt-Goebel, 1846 <p>DIAGNOSE</p> <p>Édéage sensiblement comme celui des espèces précédentes ou à peine plus allongé, le paramère gauche particulièrement long et étroit, à extrémité émoussée ou arrondie (Fig. 6F, G). Genitalia femelles orthotopiques, les gonopodes fusiformes mais étroits et étirés, avec un gonostyle terminal (Fig. 9I): la spermathèque membraneuse, assez courte, un peu annelée (Fig. 11G).</p> <p> <i>Eustra plagiata plagiata</i> Schmidt-Goebel, 1846 <i>Eustra plagiata</i> Schmidt-Goebel, 1846: 66. — Chaudoir 1854: 310; 1868: 71.</p> <p> TYPES. — L’espèce <i>E. plagiata</i> Schmidt-Goebel, 1846, étant polytypique, il est souhaitable de désigner le lectotype du taxon nominal pour mieux fixer la nomenclature et éviter toute équivoque.</p> <p> Lectotype (présente désignation): 1, « Lectotype [étiquette rouge] / <i>Birma, Helfer</i> [étiquette blanche] / <i>plagiata Sch. G.</i>, col. Helfer [étiquette blanche] / Mus. Pragense, coll. Helfer [étiquette blanche] / Mus. Nat. Pragae, Inv. <i>26475</i> [étiquette orange] / Typus! teste Dr. J. Obenberger [étiquette rouge] / <i>Eustra plagiata Schm. -G., Lectotype</i>, Th. Deuve dés. 1996 [étiquette blanche] », <i>ex</i> coll. Helfer (MNP).</p> <p> Paralectotype: 1, Birmanie, Tenasserim, <i>ex</i> coll. Helfer (MNP Inv. n°26474).</p> <p> DISTRIBUTION. — <b>Birmanie, Tenasserim.</b></p> <p>DIAGNOSE</p> <p>Pronotum modérément cintré en arrière, les côtés denticulés et assez peu sinués avant les angles basaux, qui sont obtus, peu saillants (lp/Lp = 1,50). Paramère gauche de l’édéage rétréci vers l’apex (Fig. 6G).</p>Published as part of <i>Deuve, Thierry, 2001, Le genre Eustra Schmidt-Goebel, 1846, insectes (Coleoptera, Paussidae, Ozaeninae) à genitalia femelles orthotopiques, pp. 547-578 in Zoosystema 23 (3)</i> on page 574, DOI: <a href="http://zenodo.org/record/5391021">10.5281/zenodo.5391021</a&gt

    Pentagonica Schmidt-Goebel 1846

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    Genus Pentagonica Schmidt-Goebel, 1846 37. Pentagonica venusta Andrewes, 1933 c: 17-18. (Fig. 4 b) Yellow label stating “Co-type”. White label stating. “Collection locality; INDIA: Tamilnadu, S. Mangalore, Madras;” White label stating. “ 22. v. 1930; collected by JCM Gardner.” Remarks. Left middle leg is missing.Published as part of Faisal, Mohammad & Singh, Sudhir, 2014, Carabid (Coleoptera) type collection at National Forest Insect Collection (NFIC), Forest Research Institute, Dehradun (India), pp. 331-358 in Zootaxa 3786 (3) on pages 337-338, DOI: 10.11646/zootaxa.3786.3.5, http://zenodo.org/record/24964

    Application of Ni/C Goebel mirrors

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    S.179-183Collimating X-ray optics can be realized by parabolically bent multilayer mirrors consisting of laterally graded layer stacks [1], [2]. Reduced influences of sample misalignment and surface topography on reflex positions are remarkable advantages when replacing the BRAGG-BRENTANO arrangement by a parallel beam geometry. Ni/C Goebel Mirrors used in our experimental arrangement were synthesized by PLD (pulsed laser deposition). A beam divergence as low as Df 500) are outstanding features of the parallel X-ray beam produced by these Ni/C X-ray mirrors [3]. Peak shape and angular resolution in reflectometry and diffractometry are mainly influenced by the optical properties of the beam conditioners at the primary and the diffracted beam side [4]. Medium and high resolution are achieved by using channel cuts, crystals or soller collimators, but at the expense of beam intensity. Conservation of much higher intensities (up to 109cps) combined with medium resolution can be observed by using a second Ni/C-Goebel Mirror at the diffracted beam side. Some selected measurements (diffractometer D5005/BRUKER AXS, FL Cu 4KE) show the brilliant Cu Kb suppression, the high intensity combined with low beam divergence and suppression of sample fluorescence thus demonstrating the specific features of Goebel Mirrors of the Ni/C type.321/32
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