172,299 research outputs found
Midori Shimanouchi Lederer, New York City, New York: tape nos. 39B and 40: an interview by Sandra Taylor, June 17, 1988
Typescript (41 pages), the transcript of an interview by Sandra C. Taylor with Midori Shimanouchi Lederer, a Japanese-American living in New York City. Interview took place on June 17, 1988 on behalf of the American West Center at the University of Uta
Cymolomia Lederer 1859
Genus Cymolomia Lederer, 1859 Type species: Phalaena hartigiana Ratzeburg, 1840Published as part of Pathania, Prakash C., Das, Apurva & Chandra, Kailash, 2020, Catalogue of Tortricidae Latreille, 1802 (Lepidoptera: Tortricoidea) of India, pp. 1-95 in Zootaxa 4757 (1) on page 61, DOI: 10.11646/zootaxa.4757.1.1, http://zenodo.org/record/375605
Personal Papers (MS 80-0002)
Letter from Harris L. Kempner to Lederer discussing the arrival of a C. O. D. parcel to his house and Mrs. Kempner paying the remaining balance for articles, requesting a refund and enclosing a receipt
Pelochrista Lederer 1859
<p> Genus <i>Pelochrista</i> Lederer, 1859</p> <p> Type species: <i>Paedisca mancipiana</i> Mann, 1885</p>Published as part of <i>Pathania, Prakash C., Das, Apurva & Chandra, Kailash, 2020, Catalogue of Tortricidae Latreille, 1802 (Lepidoptera: Tortricoidea) of India, pp. 1-95 in Zootaxa 4757 (1)</i> on page 53, DOI: 10.11646/zootaxa.4757.1.1, <a href="http://zenodo.org/record/3756053">http://zenodo.org/record/3756053</a>
Choristoneura Lederer 1859
<p> Genus <i>Choristoneura</i> Lederer, 1859</p> <p> Type species: <i>Tortrix diversana</i> Hübner, 1818</p>Published as part of <i>Pathania, Prakash C., Das, Apurva & Chandra, Kailash, 2020, Catalogue of Tortricidae Latreille, 1802 (Lepidoptera: Tortricoidea) of India, pp. 1-95 in Zootaxa 4757 (1)</i> on page 14, DOI: 10.11646/zootaxa.4757.1.1, <a href="http://zenodo.org/record/3756053">http://zenodo.org/record/3756053</a>
Rhopobota Lederer 1859
<p> Genus <i>Rhopobota</i> Lederer, 1859</p> <p> Type species: <i>Tortrix naevana</i> Hübner, [1817]</p>Published as part of <i>Pathania, Prakash C., Das, Apurva & Chandra, Kailash, 2020, Catalogue of Tortricidae Latreille, 1802 (Lepidoptera: Tortricoidea) of India, pp. 1-95 in Zootaxa 4757 (1)</i> on page 54, DOI: 10.11646/zootaxa.4757.1.1, <a href="http://zenodo.org/record/3756053">http://zenodo.org/record/3756053</a>
La communication du sens dans le contexte d'une tradution du français vers l'anglais d'un roman contemporain marocain,Une Via à Trois, par Bahaa Travelsi
Includes abstract.Includes bibliographical references.This thesis examines the communication of meaning in the context of the translation from French into English of a contemporary Moroccan novel, Une Vie à Trois, by Bahaa Trabelsi. To explore the notion of a faithful translation, the approach of the Ecole Superieure d'lnterpretes et de Traducteurs (ESIT) is examined. This approach, developed by Danica Seleskovitch and Marianne Lederer, emphasises the communication of meaning and the crucial role that interpretation plays in the act of translation. The project is composed of two parts - the practical application of the ESIT approach in the production of a translation of Une Vie à Trois and a theoretical study of the approach
Leucocytozoon podargii Adlard & Peirce & Lederer 2002, n. sp.
Leucocytozoon podargii n. sp. (gures 1–4) Type host. Podargus strigoides (Latham) (tawny frogmouth). Type locality. Currumbin, Queensland, Australia. Basis of description Macrogametocyte. Only round morphs occur, exhibiting the usual characteristics of the genus. Maximum diameter is about 15 m m (table 1). Cytoplasm is granular with occasional hyaline vacuoles present; nucleus generally oval in shape occupying a central to subcentral position but lacking a distinct karyosome. Maximum length of the host–parasite complex is 17 m m. The host cell nucleus forms a cap around the periphery covering about one-third (gure 1), but in most infections about half the parasites were observed without any remnant of the host cell nucleus (gure 2). Microgametocyte. Similar in size to the macrogametocyt e with the usual diOEerentiating characteristics. The nucleus is dispersed but has a distinctive karyosome which stains a deep red (gure 3). The prevalence of microgametocytes is very low with the ratio to macrogametocyte s being 1:50. Schizonts. In histopathology sections stained with H and E, the presence of schizonts was observed in skeletal muscle, lung and spleen. The schizonts in muscle were small compared to those in lung and spleen (gure 4). Megaloschizonts in lung and spleen tissue measured up to 163 m m in diameter and were characterized by cytomere formation with each section packed with merozoites. Hapantotype. IRCAH: G46311 2 (gametocytes) from Podargus strigoides, coll. Reid, 14 October 1999, Currumbin, Gold Coast, Queensland, Australia; IRCAH: G46311 3 (schizonts) from P. strigoides, coll. Lederer, 14 November 1998, Currumbin, Gold Coast, Queensland, Australia. Parahapantotype. IRCAH: G463114, G463115 and G463116 (gametoctyes) from P. strigoides, coll. Reid, 16 August 1999, 19 September 1999 and 10 October 1999; IRCAH: G46311 7 (schizonts) from P. strigoides, coll. Lederer, 14 November 1998, Currumbin, Gold Coast, Queensland, Australia. Other hosts. Probably occurs throughout the range of the Podargidae. Vectors. Unknown, but assumed to be simuliids. Etymology. Named after the genus of the type host. Comments. Leucocytozoon podargii is a parasite with only round morphs occurring in a small family of birds with a distribution restricted to the Australasian region. The inclusion of schizont stages is a bonus particularly as the presence of megaloschizonts occurs in the absence of second generation elongate morphs. In this respect L. podargii appears to have a life cycle similar to that of Leucocytozoon marchouxi Mathis and Leger (see Peirce et al., 1997). Nothing is currently known regarding the potential pathogenicity of L. podargii; the reason for euthanasia in this particular bird was related to causes other than the Leucocytozoon infection. The low prevalence of microgametocyte s in all the positive birds examined seems to be a characteristic of L. podargii infections. The earliest published record of leucocytozoids from the Podargidae was by Cleland (1915) who recognized Leucocytozoon sp. from P. strigoides from Eidsvold in southern Queensland. Later, Mackerras and Mackerras (1960) assigned leucocytozoids from the same host and locality to Leucocytozoon caprimulgi Kerandel originally described from the nightjar Caprimulgus fossii Hartlaub, a species with Afro-Tropical distribution. Their contention was that host relationships dictated conspecicity of the leucocytozoid. However, C. fossii is placed within the family Caprimulgidae (see Sibley and Monroe, 1990, 1993) while it has long been recognized that P. strigoides is a member of the Australasian-endemic bird family, Podargidae. Taking into account the established host-specicity at family level of Leucocytozoon spp. (see discussion in Bennett et al., 1991) and in the absence of any data to the contrary, we describe this species as L. podargii.Published as part of Adlard, R. D., Peirce, M. A. & Lederer, R., 2002, New species of Leucocytozoon from the avian families Otidae, Podargidae and Threskiornithidae, pp. 1261-1267 in Journal of Natural History 36 (11) on pages 1262-1263, DOI: 10.1080/00222930110049962, http://zenodo.org/record/529850
n_TOF: Measurements of Key Reactions of Interest to AGB Stars
In the last 20 years, the neutron time-of-flight facility n_TOF at CERN has been providing relevant data for the astrophysical slow neutron capture process (s process). At n_TOF, neutron-induced radiative capture (n,γ) as well as (n,p) and (n,α) reaction cross sections are measured as a function of energy, using the time-of-flight method. Improved detection systems, innovative ideas and collaborations with other neutron facilities have lead to a considerable contribution of the n_TOF collaboration to studying the s process in asymptotic giant branch stars. Results have been reported for stable and radioactive samples, i.e.,24,25,26Mg,26Al,33S,54,57Fe,58,59,62,63Ni,70,72,73Ge,90,91,92,93,94,96Zr,139La,140Ce,147Pm,151Sm,154,155,157Gd,171Tm,186,187,188Os,197Au,203,204Tl,204,206,207Pb and209Bi isotopes, while others are being studied or planned to be studied in the near future. In this contribution, we present an overview of the most successful achievements, and an outlook of future challenging measurements, including ongoing detection system developments
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