Littérature scientifique sur le sujet « Lessinia »
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Articles de revues sur le sujet "Lessinia"
Zanetti, Adriano, Alberto Sette, Roberto Poggi et Andrea Tagliapietra. « Biodiversity of Staphylinidae (Coleoptera) in the Province of Verona (Veneto, Northern Italy) ». Memorie della Società Entomologica Italiana 93, no 1-2 (20 décembre 2016) : 3. http://dx.doi.org/10.4081/memoriesei.2016.3.
Texte intégralTakács, Attila, Csaba Szabóky, Gusztáv Boldog, Sándor Jordán, Miklós Bozsó, Dávid Fülöp et Balázs Tóth. « Biology and DNA barcode analysis of Coleophora lessinica Baldizzone, 1980 and Coleophora impalella Toll, 1961 (Lepidoptera, Coleophoridae) with description of their larval cases ». Nota Lepidopterologica 45 (21 avril 2022) : 191–205. http://dx.doi.org/10.3897/nl.45.80106.
Texte intégralPodhraski, Antonia Sophia. « Lessings Preussenbild ». Forschungen zur Brandenburgischen und Preußischen Geschichte : Volume 30, Issue 1-2 30, no 1-2 (1 janvier 2020) : 25–45. http://dx.doi.org/10.3790/fbpg.30.1-2.25.
Texte intégralLamport, Francis, Jürgen Stenzel et Roman Lach. « Lessings Skandale ». Modern Language Review 102, no 3 (1 juillet 2007) : 876. http://dx.doi.org/10.2307/20467496.
Texte intégralAllert, Beate. « Lessings Skandale ». Monatshefte 99, no 1 (2007) : 106–8. http://dx.doi.org/10.1353/mon.2007.0000.
Texte intégralValentin, Jean-Marie. « Theaterästhetik im europäischen Kontext. Zu Lessings Hamburgischer Dramaturgie ». Jahrbuch für Internationale Germanistik 50, no 1 (1 janvier 2018) : 149–59. http://dx.doi.org/10.3726/ja501_149.
Texte intégralRozner, Anna. « Lessings Lustspielkonzeption im Spiegel der „Minna von Barnhelm oder das Soldatenglück“ ». Initium, no 1 (14 septembre 2020) : 6–27. http://dx.doi.org/10.33934/initium.2020.1.2.
Texte intégralMarkos, Staci. « TAXONOMIC CHANGES IN LESSINGIA (COMPOSITAE : ASTEREAE) ». Madroño 52, no 1 (janvier 2005) : 60–61. http://dx.doi.org/10.3120/0024-9637(2005)52[60:tcilca]2.0.co;2.
Texte intégralSchmidt, Frauke, et Günter Schweigert. « The San Vigilio Group (Toarcian/Aalenian) of the Lessini Mountains (Southern Alps, Northern Italy) ». Neues Jahrbuch für Geologie und Paläontologie - Monatshefte 1991, no 7 (1 juillet 1991) : 409–26. http://dx.doi.org/10.1127/njgpm/1991/1991/409.
Texte intégralSebestyen, Amanda, et Doris Lessing. « Mixed Lessing ». Women's Review of Books 3, no 5 (février 1986) : 14. http://dx.doi.org/10.2307/4019871.
Texte intégralThèses sur le sujet "Lessinia"
Ferrari, Alice <1994>. « Turismo lento e valorizzazione dell'altopiano della Lessinia : verso una governance partecipata della destinazione ». Master's Degree Thesis, Università Ca' Foscari Venezia, 2019. http://hdl.handle.net/10579/16122.
Texte intégralCiołek-Jóźwiak, Agnieszka. « Gotthold Ephraim Lessings Briefe, 1760 - 1769 : Texte und Erläuterungen / ». Stuttgart : Heinz, 2007. http://d-nb.info/988228858/04.
Texte intégralBrucker, Barbara S. « Das Ganze, dessen Teile wir sind : zu Tradition und Erfahrung des inneren Raumes bei Doris Lessing / ». Würzburg : Königshausen & ; Neumann, 1999. http://catalogue.bnf.fr/ark:/12148/cb38919699z.
Texte intégralKutter, Marion. « Junge Schreiber auf Lessings Spuren ». Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2011. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-79969.
Texte intégralMuslim, Zahim Mohammed. « Lessing und der Islam ». Doctoral thesis, Humboldt-Universität zu Berlin, Philosophische Fakultät II, 2010. http://dx.doi.org/10.18452/16147.
Texte intégral„Lessing and Islam“ deals impartially with Lessings discussion with Islam. The work aims to itself to give the reader and the literature experts as well as the German library of the German studies to somewhat of Lessings discussion with Islam in the hand which exists till this day as a big model for the intercultural and interreligious human tolerance debate in memory of the German literature. In the first part the present work devotes itself to the historical-traditional literary backgrounds and foreknowledge Lessings to the Islamic culture, and their effect on the German clarification in the 18th century. In the next parts (2-6) the work deals with Islam in Lessings to work and the historical texts of Voltaire and Marine. She concentrates, e.g., upon the dramatic creating and philosophical-theological writings of this German reconnaissance plane about Islam like „Rescue Hieronymus Cardanus“(1754), "Fatime" (1759) and „Nathan of the manner“ (1779) etc. At the end is connected the meeting of the religious representatives from - Judaism, Christianity and Islam - in "Nathan" with the necessary, intercultural and interreligious tolerance debate as a topical world question which can be looked as a result for this science-literary representation of Lessings discussion with Islam.
CAVALLO, GIOVANNI. « Characterisation, sourcing, and processing of Upper Palaeolithic ochre in the Lessini Mountains (NE Italy) ». Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1203395.
Texte intégralGoethite and hematite based geomaterials commonly referred as “ochre” were employed in a variety of utilitarian ways by early humans. They used these geomaterials as abrasives and skin protection, in food preservation and pharmacological applications, and for hide tanning and hafting. In addition, these materials were used in symbolic and funerary practices. However, the most well-known use of ochre in Prehistory is as a pigment for the creation of painted scenes in caves. The Western sector of the Lessini Mountains in NE Italy is an ideal location for studying ochre sourcing and processing due to the presence of the important archaeological sites Fumane cave and Tagliente rockshelter. The goethite and hematite based geological raw materials in the Lessini Mountains are found as infilling sediments of palaeokarst caves (Ponte di Veja, Cà de la Pela, Via Tirapelle and Colombare mines), karst fractures, and caves (Sant’Andrea, San Bortolo); they are found associated with basalts (San Giovanni Ilarione and Salgari), or in the form of limited outcrops (Cà del Paver, Manune). In order to approach the study of these materials, a specific analytical program was designed, taking into account the particularities of the geological and archaeological contexts. Microscopic (stereomicroscope, Polarizing Light Microscopy PLM, and Scanning Electron Microscopy coupled with Energy Dispersive X-Ray Spectrometer SEM/EDXS) and Diffractometric (X-Ray Powder Diffraction XRPD) techniques were used in a preliminary investigation of the collected raw materials and archaeological ochre; analysed materials were then grouped on the basis of characteristic mineral assemblages, as well as typical textural and microstructural features; and following these analyses, representative samples were selected in order to study the geochemistry of major and trace elements (Inductively Coupled Plasma Mass Spectrometry ICP-MS). Finally, the heat treatment of some samples of goethite-based ochre was investigated and confirmed using Transmission Electron Microscopy (TEM) whilst the presence of organic compounds in possible artificial mixture was checked with micro-Infrared Spectroscopy (-FTIR). Two potential principal districts were identified for the procurement of Fe-based resources: Ponte di Veja where both quartz-rich and calcite-rich goethite with detrital quartz occur associated with San Vigilio Oolite (Early-Middle Jurassic) and Rosso Ammonitico Veronese (Middle-Late Jurassic) and the sites associated with Mesozoic Dolomitised Limestones (San Bortolo and Sant’Andrea). These sites are in an aerial distance that varies between 7-20 kilometres indicating local procurement. Thermal induced transformation of goethite into hematite was initially supported by the results of the XRPD analyses due to the presence of selective broadening of some reflections and later proven on selected samples through TEM analysis based on the presence of characteristic pores formed during the process of goethite dehydration. According to the scientific and archaeological evidence, ochre was transported to the sites, fragmented, powdered and then used as painting material at Fumane cave. Both yellow and red ochre was mixed with bone fragments for the preparation of a paste whose composition is comparable with that evidenced at Blombos cave in South Africa where a tool-kit containing these ingredients was found. Due to the lack of wear marks on the archaeological ochre from Tagliente rockshelter, it is very difficult to understand the use of ochre in this site. A change in the procurement strategy was identified as quartz-rich materials were exploited during the oldest occupation phases of the site whilst dolomite-based and calcite-based raw materials were selected during the late phases of occupation. No strategy was identified for Fumane cave where dolomite-based raw materials where selected during the different phases of the occupation of the site.
CAVALLO, GIOVANNI. « Characterisation, sourcing, and processing of Upper Palaeolithic ochre in the Lessini Mountains (NE Italy) ». Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1263889.
Texte intégralGoethite and hematite based geomaterials commonly referred as “ochre” were employed in a variety of utilitarian ways by early humans. They used these geomaterials as abrasives and skin protection, in food preservation and pharmacological applications, and for hide tanning and hafting. In addition, these materials were used in symbolic and funerary practices. However, the most well-known use of ochre in Prehistory is as a pigment for the creation of painted scenes in caves. The Western sector of the Lessini Mountains in NE Italy is an ideal location for studying ochre sourcing and processing due to the presence of the important archaeological sites Fumane cave and Tagliente rockshelter. The goethite and hematite based geological raw materials in the Lessini Mountains are found as infilling sediments of palaeokarst caves (Ponte di Veja, Cà de la Pela, Via Tirapelle and Colombare mines), karst fractures, and caves (Sant’Andrea, San Bortolo); they are found associated with basalts (San Giovanni Ilarione and Salgari), or in the form of limited outcrops (Cà del Paver, Manune). In order to approach the study of these materials, a specific analytical program was designed, taking into account the particularities of the geological and archaeological contexts. Microscopic (stereomicroscope, Polarizing Light Microscopy PLM, and Scanning Electron Microscopy coupled with Energy Dispersive X-Ray Spectrometer SEM/EDXS) and Diffractometric (X-Ray Powder Diffraction XRPD) techniques were used in a preliminary investigation of the collected raw materials and archaeological ochre; analysed materials were then grouped on the basis of characteristic mineral assemblages, as well as typical textural and microstructural features; and following these analyses, representative samples were selected in order to study the geochemistry of major and trace elements (Inductively Coupled Plasma Mass Spectrometry ICP-MS). Finally, the heat treatment of some samples of goethite-based ochre was investigated and confirmed using Transmission Electron Microscopy (TEM) whilst the presence of organic compounds in possible artificial mixture was checked with micro-Infrared Spectroscopy (-FTIR). Two potential principal districts were identified for the procurement of Fe-based resources: Ponte di Veja where both quartz-rich and calcite-rich goethite with detrital quartz occur associated with San Vigilio Oolite (Early-Middle Jurassic) and Rosso Ammonitico Veronese (Middle-Late Jurassic) and the sites associated with Mesozoic Dolomitised Limestones (San Bortolo and Sant’Andrea). These sites are in an aerial distance that varies between 7-20 kilometres indicating local procurement. Thermal induced transformation of goethite into hematite was initially supported by the results of the XRPD analyses due to the presence of selective broadening of some reflections and later proven on selected samples through TEM analysis based on the presence of characteristic pores formed during the process of goethite dehydration. According to the scientific and archaeological evidence, ochre was transported to the sites, fragmented, powdered and then used as painting material at Fumane cave. Both yellow and red ochre was mixed with bone fragments for the preparation of a paste whose composition is comparable with that evidenced at Blombos cave in South Africa where a tool-kit containing these ingredients was found. Due to the lack of wear marks on the archaeological ochre from Tagliente rockshelter, it is very difficult to understand the use of ochre in this site. A change in the procurement strategy was identified as quartz-rich materials were exploited during the oldest occupation phases of the site whilst dolomite-based and calcite-based raw materials were selected during the late phases of occupation. No strategy was identified for Fumane cave where dolomite-based raw materials where selected during the different phases of the occupation of the site.
CAVALLO, GIOVANNI. « Characterisation, sourcing, and processing of Upper Palaeolithic ochre in the Lessini Mountains (NE Italy) ». Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1263910.
Texte intégralGoethite and hematite based geomaterials commonly referred as “ochre” were employed in a variety of utilitarian ways by early humans. They used these geomaterials as abrasives and skin protection, in food preservation and pharmacological applications, and for hide tanning and hafting. In addition, these materials were used in symbolic and funerary practices. However, the most well-known use of ochre in Prehistory is as a pigment for the creation of painted scenes in caves. The Western sector of the Lessini Mountains in NE Italy is an ideal location for studying ochre sourcing and processing due to the presence of the important archaeological sites Fumane cave and Tagliente rockshelter. The goethite and hematite based geological raw materials in the Lessini Mountains are found as infilling sediments of palaeokarst caves (Ponte di Veja, Cà de la Pela, Via Tirapelle and Colombare mines), karst fractures, and caves (Sant’Andrea, San Bortolo); they are found associated with basalts (San Giovanni Ilarione and Salgari), or in the form of limited outcrops (Cà del Paver, Manune). In order to approach the study of these materials, a specific analytical program was designed, taking into account the particularities of the geological and archaeological contexts. Microscopic (stereomicroscope, Polarizing Light Microscopy PLM, and Scanning Electron Microscopy coupled with Energy Dispersive X-Ray Spectrometer SEM/EDXS) and Diffractometric (X-Ray Powder Diffraction XRPD) techniques were used in a preliminary investigation of the collected raw materials and archaeological ochre; analysed materials were then grouped on the basis of characteristic mineral assemblages, as well as typical textural and microstructural features; and following these analyses, representative samples were selected in order to study the geochemistry of major and trace elements (Inductively Coupled Plasma Mass Spectrometry ICP-MS). Finally, the heat treatment of some samples of goethite-based ochre was investigated and confirmed using Transmission Electron Microscopy (TEM) whilst the presence of organic compounds in possible artificial mixture was checked with micro-Infrared Spectroscopy (-FTIR). Two potential principal districts were identified for the procurement of Fe-based resources: Ponte di Veja where both quartz-rich and calcite-rich goethite with detrital quartz occur associated with San Vigilio Oolite (Early-Middle Jurassic) and Rosso Ammonitico Veronese (Middle-Late Jurassic) and the sites associated with Mesozoic Dolomitised Limestones (San Bortolo and Sant’Andrea). These sites are in an aerial distance that varies between 7-20 kilometres indicating local procurement. Thermal induced transformation of goethite into hematite was initially supported by the results of the XRPD analyses due to the presence of selective broadening of some reflections and later proven on selected samples through TEM analysis based on the presence of characteristic pores formed during the process of goethite dehydration. According to the scientific and archaeological evidence, ochre was transported to the sites, fragmented, powdered and then used as painting material at Fumane cave. Both yellow and red ochre was mixed with bone fragments for the preparation of a paste whose composition is comparable with that evidenced at Blombos cave in South Africa where a tool-kit containing these ingredients was found. Due to the lack of wear marks on the archaeological ochre from Tagliente rockshelter, it is very difficult to understand the use of ochre in this site. A change in the procurement strategy was identified as quartz-rich materials were exploited during the oldest occupation phases of the site whilst dolomite-based and calcite-based raw materials were selected during the late phases of occupation. No strategy was identified for Fumane cave where dolomite-based raw materials where selected during the different phases of the occupation of the site.
CAVALLO, GIOVANNI. « Characterisation, sourcing, and processing of Upper Palaeolithic ochre in the Lessini Mountains (NE Italy) ». Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1264030.
Texte intégralGoethite and hematite based geomaterials commonly referred as “ochre” were employed in a variety of utilitarian ways by early humans. They used these geomaterials as abrasives and skin protection, in food preservation and pharmacological applications, and for hide tanning and hafting. In addition, these materials were used in symbolic and funerary practices. However, the most well-known use of ochre in Prehistory is as a pigment for the creation of painted scenes in caves. The Western sector of the Lessini Mountains in NE Italy is an ideal location for studying ochre sourcing and processing due to the presence of the important archaeological sites Fumane cave and Tagliente rockshelter. The goethite and hematite based geological raw materials in the Lessini Mountains are found as infilling sediments of palaeokarst caves (Ponte di Veja, Cà de la Pela, Via Tirapelle and Colombare mines), karst fractures, and caves (Sant’Andrea, San Bortolo); they are found associated with basalts (San Giovanni Ilarione and Salgari), or in the form of limited outcrops (Cà del Paver, Manune). In order to approach the study of these materials, a specific analytical program was designed, taking into account the particularities of the geological and archaeological contexts. Microscopic (stereomicroscope, Polarizing Light Microscopy PLM, and Scanning Electron Microscopy coupled with Energy Dispersive X-Ray Spectrometer SEM/EDXS) and Diffractometric (X-Ray Powder Diffraction XRPD) techniques were used in a preliminary investigation of the collected raw materials and archaeological ochre; analysed materials were then grouped on the basis of characteristic mineral assemblages, as well as typical textural and microstructural features; and following these analyses, representative samples were selected in order to study the geochemistry of major and trace elements (Inductively Coupled Plasma Mass Spectrometry ICP-MS). Finally, the heat treatment of some samples of goethite-based ochre was investigated and confirmed using Transmission Electron Microscopy (TEM) whilst the presence of organic compounds in possible artificial mixture was checked with micro-Infrared Spectroscopy (-FTIR). Two potential principal districts were identified for the procurement of Fe-based resources: Ponte di Veja where both quartz-rich and calcite-rich goethite with detrital quartz occur associated with San Vigilio Oolite (Early-Middle Jurassic) and Rosso Ammonitico Veronese (Middle-Late Jurassic) and the sites associated with Mesozoic Dolomitised Limestones (San Bortolo and Sant’Andrea). These sites are in an aerial distance that varies between 7-20 kilometres indicating local procurement. Thermal induced transformation of goethite into hematite was initially supported by the results of the XRPD analyses due to the presence of selective broadening of some reflections and later proven on selected samples through TEM analysis based on the presence of characteristic pores formed during the process of goethite dehydration. According to the scientific and archaeological evidence, ochre was transported to the sites, fragmented, powdered and then used as painting material at Fumane cave. Both yellow and red ochre was mixed with bone fragments for the preparation of a paste whose composition is comparable with that evidenced at Blombos cave in South Africa where a tool-kit containing these ingredients was found. Due to the lack of wear marks on the archaeological ochre from Tagliente rockshelter, it is very difficult to understand the use of ochre in this site. A change in the procurement strategy was identified as quartz-rich materials were exploited during the oldest occupation phases of the site whilst dolomite-based and calcite-based raw materials were selected during the late phases of occupation. No strategy was identified for Fumane cave where dolomite-based raw materials where selected during the different phases of the occupation of the site.
CAVALLO, GIOVANNI. « Characterisation, sourcing, and processing of Upper Palaeolithic ochre in the Lessini Mountains (NE Italy) ». Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1263949.
Texte intégralGoethite and hematite based geomaterials commonly referred as “ochre” were employed in a variety of utilitarian ways by early humans. They used these geomaterials as abrasives and skin protection, in food preservation and pharmacological applications, and for hide tanning and hafting. In addition, these materials were used in symbolic and funerary practices. However, the most well-known use of ochre in Prehistory is as a pigment for the creation of painted scenes in caves. The Western sector of the Lessini Mountains in NE Italy is an ideal location for studying ochre sourcing and processing due to the presence of the important archaeological sites Fumane cave and Tagliente rockshelter. The goethite and hematite based geological raw materials in the Lessini Mountains are found as infilling sediments of palaeokarst caves (Ponte di Veja, Cà de la Pela, Via Tirapelle and Colombare mines), karst fractures, and caves (Sant’Andrea, San Bortolo); they are found associated with basalts (San Giovanni Ilarione and Salgari), or in the form of limited outcrops (Cà del Paver, Manune). In order to approach the study of these materials, a specific analytical program was designed, taking into account the particularities of the geological and archaeological contexts. Microscopic (stereomicroscope, Polarizing Light Microscopy PLM, and Scanning Electron Microscopy coupled with Energy Dispersive X-Ray Spectrometer SEM/EDXS) and Diffractometric (X-Ray Powder Diffraction XRPD) techniques were used in a preliminary investigation of the collected raw materials and archaeological ochre; analysed materials were then grouped on the basis of characteristic mineral assemblages, as well as typical textural and microstructural features; and following these analyses, representative samples were selected in order to study the geochemistry of major and trace elements (Inductively Coupled Plasma Mass Spectrometry ICP-MS). Finally, the heat treatment of some samples of goethite-based ochre was investigated and confirmed using Transmission Electron Microscopy (TEM) whilst the presence of organic compounds in possible artificial mixture was checked with micro-Infrared Spectroscopy (-FTIR). Two potential principal districts were identified for the procurement of Fe-based resources: Ponte di Veja where both quartz-rich and calcite-rich goethite with detrital quartz occur associated with San Vigilio Oolite (Early-Middle Jurassic) and Rosso Ammonitico Veronese (Middle-Late Jurassic) and the sites associated with Mesozoic Dolomitised Limestones (San Bortolo and Sant’Andrea). These sites are in an aerial distance that varies between 7-20 kilometres indicating local procurement. Thermal induced transformation of goethite into hematite was initially supported by the results of the XRPD analyses due to the presence of selective broadening of some reflections and later proven on selected samples through TEM analysis based on the presence of characteristic pores formed during the process of goethite dehydration. According to the scientific and archaeological evidence, ochre was transported to the sites, fragmented, powdered and then used as painting material at Fumane cave. Both yellow and red ochre was mixed with bone fragments for the preparation of a paste whose composition is comparable with that evidenced at Blombos cave in South Africa where a tool-kit containing these ingredients was found. Due to the lack of wear marks on the archaeological ochre from Tagliente rockshelter, it is very difficult to understand the use of ochre in this site. A change in the procurement strategy was identified as quartz-rich materials were exploited during the oldest occupation phases of the site whilst dolomite-based and calcite-based raw materials were selected during the late phases of occupation. No strategy was identified for Fumane cave where dolomite-based raw materials where selected during the different phases of the occupation of the site.
Livres sur le sujet "Lessinia"
Il ponte sugli oceani : Lessinia, Veneto, Italia : storie di emigranti. Sommacampagna (Verona) : Cierre, 2006.
Trouver le texte intégralFranco, Viviani Giuseppe, dir. Cerro Veronese : Un territorio e una comunità della Lessinia centrale. Verona : Bi & Gi, 1985.
Trouver le texte intégralConati, Marcello. Canti veronesi di tradizione orale : Da una ricerca in Valpolicella e in Lessinia, 1969-1982. Negarine di S. Pietro in Cariano (Verona) : Il segno dei Gabrielli editori, 2005.
Trouver le texte intégralPoli, Emanuele. Geografia dei beni geologici e culturali : Il patrimonio della Lessinia veronese centro-orientale e il geosito di Bolca. Verona, Italy : QuiEdit, 2012.
Trouver le texte intégralLessing und Zinzendorf, eine vergleichende Studie zu Lessings Glauben. New York : P. Lang, 1989.
Trouver le texte intégralMirto, Giacomo. Lessinia e il Segreto Di Selmo. Independently Published, 2021.
Trouver le texte intégralFormentini, Corrado, Lucia Maggio, Isabella Formentini et Marta Saccani. Secret Visions, Verona Mountains Landscape : Fotografie Della Lessinia Verona. Independently Published, 2018.
Trouver le texte intégralFormentini, Corrado, Lucia Maggio, Isabella Formentini et Marta Saccani. Secret Visions Verona Mountains Landscapes : Photographs of Lessinia Territory Verona, Italy. Independently Published, 2018.
Trouver le texte intégralMuncker, Franz, G. E. Lessing et Karl Goedecke. G. E. Lessing : Lessings Werke. Band 1. de Gruyter GmbH, Walter, 2020.
Trouver le texte intégralMuncker, Franz, G. E. Lessing et Karl Goedecke. G. E. Lessing : Lessings Werke. Band 4. de Gruyter GmbH, Walter, 2020.
Trouver le texte intégralChapitres de livres sur le sujet "Lessinia"
Hölzing, Philipp. « Lessing ». Dans Ein Laboratorium der Moderne, 53–61. Wiesbaden : Springer Fachmedien Wiesbaden, 2015. http://dx.doi.org/10.1007/978-3-658-08427-1_4.
Texte intégralFick, Monika. « Lessing-Bilder ». Dans Lessing-Handbuch, 2–13. Stuttgart : J.B. Metzler, 2016. http://dx.doi.org/10.1007/978-3-476-05399-2_1.
Texte intégralGymnich, Marion. « Lessing, Doris ». Dans Kindlers Literatur Lexikon (KLL), 1. Stuttgart : J.B. Metzler, 2020. http://dx.doi.org/10.1007/978-3-476-05728-0_22896-1.
Texte intégralSchuhmann, Karl. « Theodor Lessing ». Dans Edmund Husserl : Briefwechsel, 821–37. Dordrecht : Springer Netherlands, 1994. http://dx.doi.org/10.1007/978-94-011-0745-7_37.
Texte intégralJakubanis, Matthias. « Lessing, Theodor ». Dans Kindlers Literatur Lexikon (KLL), 1. Stuttgart : J.B. Metzler, 2020. http://dx.doi.org/10.1007/978-3-476-05728-0_12389-1.
Texte intégralGriem, Eberhard, et Sabine Volk-Birke. « Doris Lessing ». Dans Kindler Kompakt Englische Literatur 20. Jahrhundert, 134–36. Stuttgart : J.B. Metzler, 2015. http://dx.doi.org/10.1007/978-3-476-05526-2_34.
Texte intégralFick, Monika. « Lessing-Bilder ». Dans Lessing-Handbuch, 23–32. Stuttgart : J.B. Metzler, 2000. http://dx.doi.org/10.1007/978-3-476-03784-8_2.
Texte intégralFick, Monika. « Lessing-Bilder ». Dans Lessing-Handbuch, 23–32. Stuttgart : J.B. Metzler, 2004. http://dx.doi.org/10.1007/978-3-476-03785-5_2.
Texte intégralFick, Monika. « Lessing-Bilder ». Dans Lessing-Handbuch, 2–13. Stuttgart : J.B. Metzler, 2010. http://dx.doi.org/10.1007/978-3-476-00330-0_1.
Texte intégralTer-Nedden, Gisbert. « Einleitung : Lessings Fehler ». Dans Lessings Trauerspiele, 1–12. Stuttgart : J.B. Metzler, 1986. http://dx.doi.org/10.1007/978-3-476-03215-7_1.
Texte intégralActes de conférences sur le sujet "Lessinia"
Boci, Flutura. « Differences and Similarities of Style, Values, Challenges and Achievements between Doris Lessing and Virginia Woolf ». Dans 3rd International Conference on Social Science, Humanities and Education. Acavent, 2020. http://dx.doi.org/10.33422/3rd.icshe.2020.03.16.
Texte intégralBoci, Flutura. « Differences and Similarities of Style, Values, Challenges and Achievements between Doris Lessing and Virginia Woolf ». Dans 3rd International Conference on Social Science, Humanities and Education. Acavent, 2020. http://dx.doi.org/10.33422/3rd.icshe.2020.03.16.
Texte intégralREZKIYANA, Putri Ayu. « Deconstruction Analysis : The Ideas of Keeping Tradition in qNo Witchcraft for Saleq by Doris Lessing ». Dans Sixth International Conference on Languages and Arts (ICLA 2017). Paris, France : Atlantis Press, 2018. http://dx.doi.org/10.2991/icla-17.2018.39.
Texte intégralRapports d'organisations sur le sujet "Lessinia"
TURLOVA, E., E. ELIZAROVA et A. ROZHNOVA. LEXICAL AND STYLISTIC MEANS OF GENDER REPRESENTATIONS IN J.M. LESSING'S NOVEL "THE GOLDEN NOTEBOOK". Science and Innovation Center Publishing House, 2021. http://dx.doi.org/10.12731/2077-1770-2021-13-4-3-137-143.
Texte intégral