1,122 research outputs found

    The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae)

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    Hohberg, Karin, Lang, Birgit (2016): The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae). Zoological Journal of the Linnean Society 178 (4): 828-833, DOI: 10.1111/zoj.12408, URL: http://dx.doi.org/10.1111/zoj.1240

    Rizzi, Andrea; Lang, Birgit & Pym, Anthony (2019): What is Translation History? A Trust-Based Approach. Cham: Palgrave Macmillan, 140pp, ISBN 978-3-030-20099-2

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    A review of: Rizzi, Andrea; Lang, Birgit & Pym, Anthony (2019): What is Translation History? A Trust-Based Approach. Cham: Palgrave Macmillan, 140pp, ISBN 978-3-030-20099-

    Figure 1. Light microscopy z in The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae)

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    Figure 1. Light microscopy z–stack images (1000X, oil immersion) of the feeding apparatuses of Apodibius confusus in (A) ventral view and (B) lateral view, and Isohypsibius dastychi in (C) ventral view and (D) lateral view. White arrows point to ventral lamina, black arrows to lateral rod-shaped thickenings, and stars mark peribuccal papulae. Scale bars: 20 µm.Published as part of Hohberg, Karin & Lang, Birgit, 2016, The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae), pp. 828-833 in Zoological Journal of the Linnean Society 178 (4) on page 829, DOI: 10.1111/zoj.12408, http://zenodo.org/record/536730

    Figure 1. Light microscopy z in The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae)

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    Figure 1. Light microscopy z–stack images (1000X, oil immersion) of the feeding apparatuses of Apodibius confusus in (A) ventral view and (B) lateral view, and Isohypsibius dastychi in (C) ventral view and (D) lateral view. White arrows point to ventral lamina, black arrows to lateral rod-shaped thickenings, and stars mark peribuccal papulae. Scale bars: 20 µm.Published as part of Hohberg, Karin & Lang, Birgit, 2016, The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae), pp. 828-833 in Zoological Journal of the Linnean Society 178 (4) on page 829, DOI: 10.1111/zoj.12408, http://zenodo.org/record/536730

    Rudolf Lassahn/Birgit Ofenbach (Hrsg.): Bildung in Europa. Frankfurt a. M./Bern: Lang 1993. 162 S. [...] [Sammelrezension]

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    Sammelrezension von: 1. Rudolf Lassahn/Birgit Ofenbach (Hrsg.): Bildung in Europa. Frankfurt a. M./Bern: Lang 1993. 162 S. 2. Walter Hornstein/Gerd Mutz unter Mitarbeit von Irene Kühnlein und Angelika Poferl: Die europäische Einigung als gesellschaftlicher Prozeß. Soziale Problemlagen, Partizipation und kulturelle Transformation. Baden-Baden: Nomos 1993. 275 S

    Warming effects on consumption and intraspecific interference competition depend on predator metabolism

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    1. Model analyses show that the stability of population dynamics and food web persistence increase with the strength of interference competition. Despite this critical importance for community stability, little is known about how external factors such as the environmental temperature affect intraspecific interference competition. 2. We aimed to fill this void by studying the functional responses of two ground beetle species of different body size, Pterostichus melanarius and Poecilus versicolor. These functional response experiments were replicated across four predator densities and two temperatures to address the impact of temperature on intraspecific interference competition. 3. We generally expected that warming should increase the speed of movement, encounter rates and in consequence interference among predator individuals. In our experiment, this expectation was supported by the results obtained for the larger predator, P. melanarius, whereas the opposite pattern characterized the interference behaviour of the smaller predator P. versicolor. 4. These results suggest potentially nontrivial implications for the effects of environmental temperature on intraspecific interference competition, for which we propose an explanation based on the different sensitivity to warming of metabolic rates of both species. As expected, increasing temperature led to stronger interference competition of the larger species, P. melanarius, which exhibited a weaker increase in metabolic rate with increasing temperature. The stronger increase in the metabolic rate of the smaller predator, P. versicolor, had to be compensated by increasing searching activity for prey, which did not leave time for increasing interference. 5. Together, these results suggest that any generalization how interference competition responds to warming should also take the species' metabolic response to temperature increases into account.German Research Foundation [BR 2315/6-1, BR2315/8-1, BR2315/13

    Birgit Arendt. — Jetzt reden wir ! Das Kommunikationsverhalten der Frauen im französischen Artusroman des Mittelalters.Francfort, Peter Lang, 1998 (Langue et littérature françaises, 225)

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    Badel Pierre-Yves. Birgit Arendt. — Jetzt reden wir ! Das Kommunikationsverhalten der Frauen im französischen Artusroman des Mittelalters.Francfort, Peter Lang, 1998 (Langue et littérature françaises, 225). In: Cahiers de civilisation médiévale, 43e année, supplément annuel 2000. Comptes Rendus. pp. 2-3

    Birgit Arendt. — Jetzt reden wir ! Das Kommunikationsverhalten der Frauen im französischen Artusroman des Mittelalters.Francfort, Peter Lang, 1998 (Langue et littérature françaises, 225)

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    Badel Pierre-Yves. Birgit Arendt. — Jetzt reden wir ! Das Kommunikationsverhalten der Frauen im französischen Artusroman des Mittelalters.Francfort, Peter Lang, 1998 (Langue et littérature françaises, 225). In: Cahiers de civilisation médiévale, 43e année, supplément annuel 2000. Comptes Rendus. pp. 2-3

    Figure 4 in The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae)

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    Figure 4. Details of the feeding apparatus of Apodibius confusus analysed using scanning electron microscopy: A, anterior part of the buccal tube (ventral view), with ventral lamina (arrow) and lateral rod-shaped thickenings (arrowhead); B, posterior part of the stylet (lateral–ventral view), with condyles (arrowhead) and arcuate structures (arrow); C, posterior part of buccal tube and stylets (ventral view), with condyles (arrowhead) and arcuate structures (arrow); D, pharynx (ventral view), with pharyngeal apophyses (arrow) and macroplacoids (arrowheads).Published as part of Hohberg, Karin & Lang, Birgit, 2016, The feeding apparatus and taxonomic position of clawless Apodibius confusus Dastych, 1983 (Tardigrada: Isohypsibiidae), pp. 828-833 in Zoological Journal of the Linnean Society 178 (4) on page 831, DOI: 10.1111/zoj.12408, http://zenodo.org/record/536730
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