107,920 research outputs found

    Anthracus anichtchenkoi JAEGER 2015

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    Anthracus anichtchenkoi JAEGER, 2015 M a t e r i a l e x a m i n e d: India: Tamil Nadu: Coimbatore, I-II.1934, P.S. Nathan (13, 4♀♀ - MCZ); same data but IV. 1934 (533, 5♀♀ - MCZ, cJAE); same data but VII.1934 (13 - MCZ). The species was recently described from northern India (Uttarakhand and West Bengal) and Nepal (JAEGER 2015: 1368). The revision of additional material revealed that A. anichtchenkoi is much more widely distributed and occur also further south of the known localities in southern India (see records above) and further east in southern Pakistan (AHMED & JAEGER in prep.).Published as part of Jaeger, Bernd, 2017, Five new species of the Anthracus annamensis group from the Philippines and India (Coleoptera, Carabidae, Harpalini, Stenolophina), pp. 585-608 in Linzer biologische Beiträge 49 (1) on page 606, DOI: 10.5281/zenodo.535735

    Acupalpus (Acupalpus) schnitteri JAEGER 1999

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    Acupalpus (Acupalpus) schnitteri JAEGER 1999 G e n e r a l d i s t r i b u t i o n:IsraelandSyria. Originally described as Acupalpus suturalis ssp. schnitteri, the taxon has been recently upgraded to species level (WRASE 2009: 906). It has been so far recorded from Syria (JAEGER 1999: 964) and Israel (JAEGER 1999: 962, WRASE 2009: 906). The following additional material from Israel has been examined. E x a m i n e d m a t e r i a l: I s r a e l: Northern District: Hare Meron, 1000-1200 m, IV. 1987, Heinz (3 – cHEI); N-Galiläa, NW Zefat, W Meron, Tümpel S Mt. Meron, 250 m,, IV. 1996, Staven & Schnitter (3 – cSCHN). – Golan Hights: N Kela, 750 m, Feuchtwiese, V. 1996, Schnitter & Staven (1 – cWRA).Published as part of Jaeger, B., 2011, New and additional distribution data of the genus Acupalpus LATREILLE 1829 from the Middle East and adjacent areas (Coleoptera, Carabidae, Harpalini, Stenolophina), pp. 763-775 in Linzer biologische Beiträge 43 (1) on page 772, DOI: 10.5281/zenodo.532516

    Anthracus philippinensis JAEGER 2015

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    Anthracus philippinensis JAEGER, 2015 M a t e r i a l e x a m i n e d: Philippines: Luzon: Batangas & vic., V. 945, Darlington (1♀ - MCZ); Central Plains of Luzon Is., II.-IX. 1945, Darlington (1233, 13♀♀ - MCZ); Los Banos, VI. 1919, Weston (833, 8♀♀ - MCZ); Manila, II.-III.1912 (433, 1♀ - MCZ); Mt. Makiling, VI. 1966, 500 ft., Morse (13 - MCZ). – Leyte: Plains of NE Leyte Is., XI.1944 - I.1945, Darlington (233 - MCZ). The species was recently described from the Philippine islands of Luzon, Mindanao, Mindoro and Panay. Here additional records from Luzon and a first record from the island of Leyte can be provided.Published as part of Jaeger, Bernd, 2017, Five new species of the Anthracus annamensis group from the Philippines and India (Coleoptera, Carabidae, Harpalini, Stenolophina), pp. 585-608 in Linzer biologische Beiträge 49 (1) on page 606, DOI: 10.5281/zenodo.535735

    Bradycellus (Bradycellus) heinzi JAEGER 1990

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    <i>Bradycellus</i> (<i>Bradycellus</i>) <i>heinzi</i> JAEGER 1990 (Abb. 6, 28-30, 69-71) <p> <i>Bradycellus</i> (s.str.) <i>heinzi</i> JAEGER 1990: 10-13 (loc.typ.: Iran: Azarbaijan: Varid, 1500-1800 m).</p> <p>D i a g n o s e:</p> <p>Mit 4,9-5,8 mm eine grosse Art (Abb. 6) der Untergattung. Ober- und Unterseite dunkel rotbraun bis schwarzbraun, 1. Flügeldeckenintervall, mitunter auch Basis und ein ± ausgedehnter Bereich vor dem Vorderrand des Halsschildes rötlich aufgehellt. Kopf im Verhältnis zum Halsschild von mittlerer Grösse (KB/HB: 0,73-0,78). Augen mässig gewölbt. Halsschild (Abb. 28-30) 1,27-1,32 breiter als lang und 1,28-1,38 breiter als der Kopf. Seiten zu den Vorderwinkeln konvex gerundet verengt, zur Basis gerade oder schwach gerundet verengt, vor den Hinterwinkeln kurz ausgeschweift. Apikalrand annähernd gerade bis schwach konvex, Vorderwinkel nicht vorstehend. Basis in der Mitte konvex, an den Seiten schräg vorgezogen. Hinterecken einen ± scharfen, stumpfen Winkel bildend. Seitenrand relativ schmal, bis zur Mitte der Basalgruben fortgesetzt. Basalgruben schwach bis mässig vertieft und punktiert. Umgebung der Eindrücke ebenfalls ± ausgedehnt punktiert. Apikales Halsschilddrittel vor den Eindrücken mit wenigen feinen Punkten. Medianlinie mässig vertieft und fein punktiert. Flügeldecken, kurz- bis langoval, 1,45-1,56 länger als breit, 1,42-1,51 breiter und nur 2,78-2,99 länger als der Halsschild. Skutellarstreifen beidseitig ausgebildet, mitunter einseitig reduziert. Porenpunkt in der apikalen Hälfte des 3. Intervalls vorhanden. Streifen fein punktiert, Flügel dimorph, makropter oder brachypter. Metepisternen relativ kurz, an der Innennaht nur 1,2- 1,3 länger als an der Basis breit. 6. Sternit in beiden Geschlechtern mit 4 längeren Seten am Apikalrand (JAEGER 1990: 12 gab bei der Beschreibung des Holotypus fälschlicherweise nur 2 Seten an). Medianlobus des Aedoeagus (Abb. 69-71) mit charakteristischer Form und spezifischen Feinstrukturen des Internalsacks.</p> <p> Innerhalb seines Verbreitungsgebietes kann die Art nur mit dem auch aus dem Kaukasus und Iran bekannten <i>B. verbasci</i> verwechselt werden. Von diesem ist er durch den anders geformten Halsschild (Abb. 28-30: <i>B. heinzi</i>, 31-33: <i>B. verbasci</i>), die dunklere, mehr schwarzbraune Färbung und die weiter apikal eingelenkte Seitenrandborste des Halsschildes (Index Halsschildlänge/Distanz Halsschildbasis - Seitenrandborste: <i>B. heinzi</i> 1,30-1,44 und <i>B. verbasci</i> 1,50-1,77) zu unterscheiden. Beide Arten differieren ausserdem im Bau des Medianlobus und dessen Internalsackstrukturen (Abb. 69-71: <i>B. heinzi</i>, 72- 74: <i>B. verbasci</i>).</p> <p>V e r b r e i t u n g:</p> <p>Die Art ist vom Talysch-Gebirge in Südost-Aserbaidschan entlang des Nordabfalls des Elburs-Gebirges und dessen Ausläufern bis nach Tang Rah in der iranischen Provinz Golestan verbreitet.</p> <p>Neben früher revidierten Exemplaren (JAEGER 1990: 10, 2007: 349) konnten zwei weitere Exemplare aus Iran untersucht werden.</p> <p>U n t e r s u c h t e s M a t e r i a l:</p> <p>I r a n: Guilan: Pahlawi 15 km Asalem-Pissason, 220m, VIII. 1975, Mirzayans (1 - HMIM). - Māzanderān: Nowshar, Nāyrank Om, X. 1995, Rex./Badii/Ebrá (1 - HMIM).</p>Published as part of <i>Jaeger, B., 2008, Die westpaläarktischen Arten der Bradycellus-Untergattung Bradycellus ERICHSON 1837 unter besonderer Berücksichtigung des Mittelmeerraumes (Coleoptera, Carabidae), pp. 1509-1577 in Linzer biologische Beiträge 40 (2)</i> on pages 1535-1536, DOI: <a href="http://zenodo.org/record/5431524">10.5281/zenodo.5431524</a&gt

    Replication Data for: Montero-Melis, Jaeger, & Bylund (2016). "Thinking is modulated by recent linguistic experience"

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    Necessary data files and R-scripts to replicate the analyses reported in: Montero-Melis, G., Jaeger, T. F., & Bylund, E. (2016). Thinking is modulated by recent linguistic experience: Second language priming affects perceived event similarity. Language Learning, 66(3), 636–665. https://doi.org/10.1111/lang.1217

    Replication Data for: Montero-Melis, Jaeger, & Bylund (2016). "Thinking is modulated by recent linguistic experience"

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    Necessary data files and R-scripts to replicate the analyses reported in: Montero-Melis, G., Jaeger, T. F., & Bylund, E. (2016). Thinking is modulated by recent linguistic experience: Second language priming affects perceived event similarity. Language Learning, 66(3), 636–665. https://doi.org/10.1111/lang.1217

    On Jaeger shearing

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    Analogously to the definition of shear introduced by Jaeger we introduce and examine the concept of Jaeger shearing. It depends upon just one direction, whereas shearing in the sense of Cauchy depends upon two directions. It is shown that the Jaeger shearing corresponding to the direction n of a material line element at a particle P at a specific time t, may be interpreted as the orthogonal shearing, in the sense of Cauchy, of a pair of orthogonal material line elements, at P at time t, one element being along n and the other along a (generally) unique direction orthogonal to n. It is seen that the maximum Jaeger shearing corresponding to the direction n of a material line element at a point P at a specific time t, may be interpreted as the orthogonal shearing, in the sense of Cauchy of a pair of orthogonal material line elements, at P at time t, one element being along n and the other along a (generally) unique direction orthogonal to n. It is seen that the maximum Jaeger shearing at P at time t is also the maximum Cauchy shearing at P at time t. © 2004 Sage Publications.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

    Burchill, Liu, & Jaeger (2018), Plos One. Maintaining information about speech input during accent adaptation

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    This project holds the data used for a series of experiments documented in Burchill, Liu & Jaeger (submitted), "Maintaining perceptual information during speech processing

    A generalized Jaeger ℐ(0,1;t) integral, resulting from mathematical modelling in electroanalytical chemistry

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    Eighty years ago J.C. Jaeger et al. introduced a class of improper integrals, currently called "Jaeger integrals" that occur in theoretical models of diverse physical phenomena characterized by cylindrical geometry. One application area is electroanalytical chemistry, where, in particular, the limiting Faradaic current in a potential step chronoamperometric experiment at a cylindrical electrode is described by the Jaeger ℐ(0,1;t) integral. In a recently published paper the first author determined the Laplace transform of the nonlimiting Faradaic current for a reversible charge transfer between members of a redox couple characterized by different diffusion coefficients. In this study we invert the novel Laplace transform and observe that, while it cannot be expressed by any of the Jaeger integrals, it can be perceived as a generalization of the ℐ(0,1;t) integral. We also describe how to compute this integral with the modulus of the relative error close to 10−16 or smaller, using a C++ code employing exclusively standard floating point variables, without resorting to quad precision or other external high precision libraries

    Replication Data for: Montero-Melis and Jaeger (accepted). Changing expectations mediate adaptation in L2 production. Bilingualism: Language and Cognition

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    Data and R-based scripts to replicate all the analyses reported in Montero-Melis and Jaeger (accepted). Changing expectations mediate adaptation in L2 production. Bilingualism: Language and Cognition
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