5,448 research outputs found
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP)
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena is a collection of examples and annotations of ambiguities from an interdisciplinary perspective. The annotations make it possible to (i) compare ambiguous examples from various different disciplines including linguistics, literary studies, rhetoric, law, theology, media studies and others, based on the research agenda of the graduate school GRK 1808: "Ambiguity: Production and Perception".
Publications: Hartmann, Jutta M., Corinna Sauter, Gesa Schole, Wiltrud Wagner, Peter Gietz, and Susanne Winkler (2016). "TInCAP – ein interdisziplinäres Korpus zu Ambiguitätsphänomenen." Konferenzabstract Leipzig, DHd 2016. 461–63. https://doi.org/10.5281/zenodo.3679331
Hartmann, Jutta M., Lisa Ebert, Gesa Schole, Wiltrud Wagner & Susanne Winkler. 2023. Annotating Ambiguity Across Disciplines: The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP). In Matthias Bauer & Angelika Zirker (eds.), Strategies of ambiguity (Routledge studies in twentieth century literature), 322-. New York NY: Routledge. doi des Buches: https://doi.org/10.4324/9781003298083 
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP)
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena is a collection of examples and annotations of ambiguities from an interdisciplinary perspective. The annotations make it possible to (i) compare ambiguous examples from various different disciplines including linguistics, literary studies, rhetoric, law, theology, media studies and others, based on the research agenda of the graduate school GRK 1808: "Ambiguity: Production and Perception".
Publications: Hartmann, Jutta M., Corinna Sauter, Gesa Schole, Wiltrud Wagner, Peter Gietz, and Susanne Winkler (2016). "TInCAP – ein interdisziplinäres Korpus zu Ambiguitätsphänomenen." Konferenzabstract Leipzig, DHd 2016. 461–63. https://doi.org/10.5281/zenodo.3679331
Hartmann, Jutta M., Lisa Ebert, Gesa Schole, Wiltrud Wagner & Susanne Winkler. 2023. Annotating Ambiguity Across Disciplines: The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP). In Matthias Bauer & Angelika Zirker (eds.), Strategies of ambiguity (Routledge studies in twentieth century literature), 322-. New York NY: Routledge. doi des Buches: https://doi.org/10.4324/9781003298083 
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP)
The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena is a collection of examples and annotations of ambiguities from an interdisciplinary perspective. The annotations make it possible to (i) compare ambiguous examples from various different disciplines including linguistics, literary studies, rhetoric, law, theology, media studies and others, based on the research agenda of the graduate school GRK 1808: "Ambiguity: Production and Perception".
Publications: Hartmann, Jutta M., Corinna Sauter, Gesa Schole, Wiltrud Wagner, Peter Gietz, and Susanne Winkler (2016). "TInCAP – ein interdisziplinäres Korpus zu Ambiguitätsphänomenen." Konferenzabstract Leipzig, DHd 2016. 461–63. https://doi.org/10.5281/zenodo.3679331
Hartmann, Jutta M., Lisa Ebert, Gesa Schole, Wiltrud Wagner & Susanne Winkler. 2023. Annotating Ambiguity Across Disciplines: The Tübingen Interdisciplinary Corpus of Ambiguity Phenomena (TInCAP). In Matthias Bauer & Angelika Zirker (eds.), Strategies of ambiguity (Routledge studies in twentieth century literature), 322-. New York NY: Routledge. doi des Buches: https://doi.org/10.4324/9781003298083 
FIGURE 42 in Pristosia Motschulsky, 1865 from the Nepal Himalaya: Taxonomy and Biogeography (Coleoptera: Carabidae: Sphodrini)
FIGURE 42. Distribution of Pristosia in Nepal and adjacent parts of the Himalaya.Published as part of Schmidt, Joachim & Hartmann, Matthias, 2009, Pristosia Motschulsky, 1865 from the Nepal Himalaya: Taxonomy and Biogeography (Coleoptera: Carabidae: Sphodrini), pp. 1-26 in Zootaxa 2009 on page 23, DOI: 10.5281/zenodo.18575
DID THE INTRODUCTION OF THE EURO HAVE AN IMPACT ON INFLATION UNCERTAINTY?-AN EMPIRICAL ASSESSMENT
We compare inflation uncertainty in distinguished groups of economies. Results indicate that during the recent financial crisis the global inflation climate has become markedly more uncertain than previously. We document that in comparison to other economies, member states of the European Monetary Union are less exposed to inflation uncertainty. Three European Union members that are not part of the monetary union and five other OECD member economies serve as control groups. With regard to the quantification of inflation uncertainty, results are robust over a set of alternative estimates of the latent inflation risk processes
Pristosia similata Schmidt & Hartmann, 2009, sp. n.
Pristosia similata sp. n. Figs. 10, 24, 25. Type material: Holotypus male, with label „ NEPAL, Prov. Karnali, Distr. Humla, 20 km W Simikot, 5–6 km SE Chala, 35–3600 m, 30 ° 58 N, 81 ° 38 E, HF, 28.VI. 2001 leg. A. Kopetz, coniferous wood“ (NME). Paratypes (all from Far Western Nepal, Humla district): 22 males, 16 females, with same label data as holotype (CKOP, CSCHM, NME); 1 male, 600m W Simikot, 3000–3200 m, 29 ° 58 ’ N 81 ° 49 ’ E, terrace fields, 16.– 17.06.2001, leg. A. Kopetz (CKOP); 1 male, 1000m W Simikot, 3050–4100m, coniferous forest, terrace fields, 29 ° 58 ’00N, 81 ° 48 ’ 48 E, 17.VI. 2001, leg. E. Grill (NME); 2 males, 12 km S Simikot, env. Raya, 3400 – 2500 m, 28 ° 52 ’ 17 N 81 ° 51 ’ 34 E, rural landscape, 8.VII. 1997, leg. A. Kopetz, KL/KF/HF (CSCHM); 3 males, 13 km S Simikot, NE Malikasthan, 3800 – 3400 m, coniferous-oak-forest, 8.VII. 1997, leg. A. Kopetz & A. Weigel, KL/HF (CKOP, CWG); 2 males, 15 – 12 km S Simikot, N Malikasthan nach Raya, 3800 – 3500m, coniferous-oak forest, 29 ° 51 N 81 ° 49 E, 08.VII. 2001, leg. E. Grill, HF (NME); 1 male, 20 km W Simikot, env. Chala, 3750 m, HF, KF, 30 °00’ 35 N 81 ° 37 ’ 12 E, 23.VI. 2001, leg. A. Kopetz (CSCHM); 1 male, 20 km NW Simikot, 3 km W Chala, 3700–4300m, 29 ° 59 ’ N 81 ° 35 ’ E, 24.VI. 2001, leg. A. Weigel (CWG); 1 male, 2 females, 20 km NW Simikot, 3 km SE Chala, 42–4300m, 29 ° 58 ’ 50 N 81 ° 39 ’ 06E, 28.VI. 2001, leg. A. Weigel (CWG); 1 male, 20 km W Simikot, 3,8 km SE Chala, 3500m, forest mead./conif. forest, 29 ° 58 ’ 49 N 81 ° 38 ’ 23 E, 27.VI. 2001, leg. A. Weigel (CWG); 1 male, 1 female, 18 km WNW Simikot, Chumsa Khola (Bridge), 2950m, 30 °02’ 25 N 81 ° 39 ’ 06E, 20.– 22.VI. 2001, leg. M. Hartmann & A. Weigel KL/HF (CWG, NME); 1 male, Umg. W Chala, 3800–4200m, 30 °00,33 N 81 ° 37 ’ 18 E, 24.VI. 2001, leg. J. Weipert (CWP); 40 males, 24 females, 20 km W Simikot, 5–6 km SE Chala, 3500–3600 m, coniferous forest, 30 ° 58 N 81 ° 38 E, 27.VI. 2001, leg. M. Hartmann & E. Grill (NME). Etymology: Named for its external similarity with P. dahud Morvan, 1994 (Latin “similat-us, -a, -um”). Description: 95 specimens studied. Body length 9.7–12.5 mm. Colour: Dorsal and ventral surface of body and femora almost black, knees, tibiae, tarsi, antennae and palpi reddish brown. Male dorsal surface moderately shiny throughout, female dull on elytra. Microsculpture: Head with mesh pattern isodiametric, moderately engraved, and pronotum with very weakly engraved slightly transverse meshes, visible under high magnification (80 x). Meshes of microsculpture on elytra in male weakly engraved, slightly transverse; in female isodiametric, much more deeply engraved and scale-like in anterior half (in approx. 10 % of females meshes as long as wide and not scale-like), but weakly engraved and slightly transverse in posterior half. Head: Temporae about 2 / 3 of eye diameter. Antennomeres I–III smooth apart from primary apical setation. Pronotum: More transverse, ratio PW/PL 1.09–1.16, PW/HW 1.55–1.60. Anterior margin nearly as wide as base. Sides convexly rounded throughout or straight before base. Hind angles completely rounded (Fig. 10). Base almost straight in middle, strongly bent anteriorly toward sides. Lateral gutter more strongly expanded beyond pronotal middle. Basolateral seta located at a slight distant (1–2 times pore diameter) from lateral edge, but distinctly distant (4–5 times pore diameter) from base. Elytra: Oval, ratio EL/EW 1.55–1.68, EW/PW 1.35–1.43, distinctly narrowed toward shoulder, basal groove more strongly concave, forming an almost right angle with scutellar stria and an obtuse angle with lateral groove. Legs: Relatively slender. Male genitalia: Aedeagal median lobe moderately large, with ventral surface almost straight toward apex (Fig. 25), with apical lamella relatively short (Fig. 24), and with terminal bead slightly angular. Internal sac, in dorsal view, distinctly asymmetric, with longitudinal folding on right side of ostium not connected with the more strongly sclerotized part of transversal folding in middle of median lobe (Fig. 24). Identification: This new species is unambiguously distinguishable by its characteristic internal sac folding. Moreover, the eyes are somewhat larger than in other Nepalese species of the P. a t re m a group (but see Pristosia spec. from W slope of Dhaulagiri Himal). On an average, the pronotum is more transverse and its lateral gutter is more distinctly expanded toward base than in P. dahud dahud Morvan, 1994. Meshes of female elytral microsculpture more deeply engraved in anterior half than in P. dahud polita s sp. n. and in P. glabella sp. n. Distribution: Figs. 42, 43. North eastern slopes of Saipal Himal, Far Western Nepal. Habitat: This species was found in dense or open coniferous and mixed forests of the high montane zone, and in a few cases on open ground near a forest, as well on wet subalpine meadows at altitudes from 2900 to 4200 m.Published as part of Schmidt, Joachim & Hartmann, Matthias, 2009, Pristosia Motschulsky, 1865 from the Nepal Himalaya: Taxonomy and Biogeography (Coleoptera: Carabidae: Sphodrini), pp. 1-26 in Zootaxa 2009 on pages 17-18, DOI: 10.5281/zenodo.18575
Pristosia dahud subsp. polita Schmidt & Hartmann, 2009, ssp. n.
<i>Pristosia dahud polita</i> ssp. n. <p>Figs. 5, 30, 31.</p> <p> <b>Type material:</b> Holotypus female, with label „ NEPAL, Prov. Karnali, distr. Jumla, Gothichaur valley, Wald, 2900–3800 mNN, 29°12N, 82°18,5E, 11.VI.1997, leg. Hartmann“ (NME).</p> <p>Paratypes (all from Western Nepal, Jumla district): 20 males, 14 females, with same label data as holotype (CSCHM, NME); 10 males, 6 females, Tal von Gotichaur, Berg SW Lager, 2850–3800 m, 29°12N 82°19E, 9.VI.1997, leg. E. Grill (CGR, CSCHM); 11 males, 9 females, Gothichaur Khola SE, 3400–3600 m, 10.VI.1997, leg. A. Weigel (CSCHM, CWG, NME); 1 male, Lager E Churta bis Gothichaur-Tal, 3300– 2800m, 07.VI.1997, leg. J. Weipert (CWP); 3 males, 3 females, Tal von Gothichaur, Berg SW Lager, 2850–3800 m, 29°12N 82°19E, 09.VI.1997, leg. E. Grill (NME).</p> <p> <b>Etymology:</b> Named after the weakly engraved elytral microsculpture in both sexes that gives the individuals a more polished feature (Latin “polit-us, -a, -um”: polished).</p> <p> <b>Description:</b> 78 specimens studied.</p> <p>Body length 10.6–12.2 mm.</p> <p>Colour: Dorsal surface of male and female shiny black throughout.</p> <p>Microsculpture: Elytra in female with weakly engraved slightly transverse meshes throughout; seldom mesh pattern isodiametric in basal quarter. Surface of sculpticells plane.</p> <p>Pronotum: Ratio PW/PL 1.05–1.13, PW/HW 1.47–1.53. Anterior margin almost as wide as base. Pronotal sides straight or convexly rounded toward base (Fig. 5). Lateral gutter more strongly expanded behind pronotal middle.</p> <p>Elytra: Ratio EL/EW 1.51–1.66, EW/PW 1.33–1.45. Shoulders broader, basal groove more strongly concave.</p> <p>Male genitalia: Aedeagal median lobe remarkable large, distinctly convexly rounded on ventral surface (Figs. 30, 31).</p> <p> In all other characters completely agreeing with the nominotypical form <i>P. dahud dahud</i>.</p> <p> <b>Identification:</b> On an average pronotum and shoulders broader, aedeagal median lobe larger, than in nominotypical subspecies, pronotal lateral gutter more distinctly expanded toward base. Main diagnostic character is the female elytral microsculpture, which is not scale-like as in the nominotypical form, but weakly engraved and with surface of sculpticells plane, and with mesh pattern slightly transverse or partly isodiametric.</p> <p> <b>Distribution:</b> Figs. 42, 43. Currently only known from Gothichaur Valley, that is a southern side valley of Babila Khola river (= upper Tila river) at south western slope of Kanjiroba Himal south east of Jumla.</p> <p> <b>Habitat:</b> <i>P. dahud polita</i> was found under stones and dead wood in mixed and coniferous forests of the high montane zone.</p>Published as part of <i>Schmidt, Joachim & Hartmann, Matthias, 2009, Pristosia Motschulsky, 1865 from the Nepal Himalaya: Taxonomy and Biogeography (Coleoptera: Carabidae: Sphodrini), pp. 1-26 in Zootaxa 2009</i> on pages 14-16, DOI: <a href="http://zenodo.org/record/185751">10.5281/zenodo.185751</a>
sj-pdf-1-prx-10.1177_00332941211073656 – Supplemental Material for Acceptance and Adherence to COVID-19 Preventive Measures are Shaped Predominantly by Conspiracy Beliefs, Mistrust in Science and Fear – A Comparison of More than 20 Psychological Variables
Supplemental Material, sj-pdf-1-prx-10.1177_00332941211073656 for Acceptance and Adherence to COVID-19 Preventive Measures are Shaped Predominantly by Conspiracy Beliefs, Mistrust in Science and Fear – A Comparison of More than 20 Psychological Variables by Matthias Hartmann and Petra Müller in Psychological Reports</p
Magnetohydrodynamic turbulence in a Hartmann duct flow at finite magnetic Reynolds number
The dynamics of turbulent flow at finite magnetic Reynolds numbers can be very complex due to the coupled nature of the evolution equations for the flow and magnetic fields. In this regime, the Hartmann flow in a straight rectangular duct with streamwise periodicity is studied with the help of direct numerical simulations (DNS) and the effect of magnetic Reynolds number on turbulent statistics is quantified by comparing the results with the numerical results obtained using the quasistatic approximation
Pristosia glabella Schmidt & Hartmann, 2009, sp. n.
Pristosia glabella sp. n. Figs. 3, 11, 40, 41. Type material: Holotypus male, with labels „NEP: Mahakali/Darchula, 10 km NE Ghusa, Chamlya Khola (former vill. Shinae), 2850 m ”, “ 29 ° 53 ’ 35 N, 80 ° 56 ’ 30 E 10.VI. 2005 leg. A. Weigel river side/decid. forest“ (NME). Paratypes (both from Far Western Nepal, Darchula district): 1 female, 1 km NE Batar, valley at Chamlya Khola, 2100 m, 29 ° 51 ’ 29 N 80 ° 54 ’ 34 E, river side, 5.VI. 2005, leg. A. Weigel, KL/HF (CWG); 1 female, 12 km NNE Ghusa, 3200 m, 29 ° 54 ’ 51 N 80 ° 57 ’ 11 E, West slope, deciduous forest, 7.VI. 2005, leg. A. Weigel (CSCHM). Etymology: The species is named after the more weakly engraved elytral microsculpture in the female that gives the elytral surface a more shiny appearance compared to the sibling species P. dahud Morvan, 1994 (Latin “glabell-us, -a, -um”: polished). Description: Three specimens studied. Body length 9.8–11.3 mm. Colour: Dorsal and ventral surface of body and femora almost black, knees, tibiae, tarsi, antennae and palpi reddish brown. Male and female dorsal surface moderately shiny throughout. Microsculpture: Head with mesh pattern isodiametric, moderately engraved, and pronotum with very weakly engraved slightly transverse meshes, visible under high magnification (80 x). Meshes of microsculpture on elytra in male and female weakly engraved, slightly transverse in male and slightly transverse to isodiametric in female. Head: Temporae about 3 / 4 of eye diameter. Antennomeres I–III smooth apart from primary apical setation. Pronotum: Moderately slender (ratio PW/PL 1.07–1.12, PW/HW 1.47–1.53). Anterior margin as wide as base or slightly broader. Pronotal sides straight before base. Hind angles completely rounded (Fig. 11). Base almost straight in middle, strongly bent anteriorly toward sides. Lateral gutter flat, more strongly expanded behind pronotal middle. Basolateral seta located at a slight distance (1–2 times pore diameter) from lateral edge, but distinctly distant (5–6 times pore diameter) from base. Elytra: Slender oval, ratio EL/EW 1.56–1.73, EW/PW 1.33–1.46 (because left elytra of holotype is somewhat deformed, only the right elytra was measured and its width doubled), distinctly narrowed toward shoulder; basal groove more strongly concave, forming a right angle with scutellar stria and an obtuse or rounded angle with lateral groove. Legs: Relatively slender. Male genitalia: Aedeagal median lobe relatively small, with ventral surface almost straight toward apex (Fig. 41), with apical lamella relatively long and slender, seen dorsally (Fig. 40), and with terminal bead slightly angular. Internal sac with transverse folding in middle of median lobe arranged in two separated layers and broadly connected with the longitudinal folds on both sides of ostium; longitudinal folding relatively compact (Fig. 40). Identification: This new species is unambiguously distinguishable by its characteristic internal sac folding. Moreover, the pronotum is more strongly constricted toward base, and its lateral gutter is more strongly expanded behind pronotal middle than in P. dahud dahud Morvan, 1994, the meshes of female elytral microsculpture are not scale-like, and the apical lamella of the aedeagal median lobe is slender. In pronotal shape and elytral microsculpture the new species is similar to P. dahud polita ssp. n., but the elytra are more strongly constricted toward the shoulders, and the aedeagal median lobe is distinctly smaller with its apical lamella more slender. For differences with P. similata sp. n., see diagnosis of the latter below. Distribution: Figs. 42, 43. Currently only known from the Chamlya Khola Valley on south slope of Api Himal. Habitat: The three specimens were collected in deciduous forests of the high montane zone at altitudes between 2100 and 3200 m.Published as part of Schmidt, Joachim & Hartmann, Matthias, 2009, Pristosia Motschulsky, 1865 from the Nepal Himalaya: Taxonomy and Biogeography (Coleoptera: Carabidae: Sphodrini), pp. 1-26 in Zootaxa 2009 on pages 16-17, DOI: 10.5281/zenodo.18575
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