10,029 research outputs found
Cartas de amor en tiempos de guerra Rafael Uribe Uribe
Rafael Uribe Uribe nació en Valparaíso (Antioquia) en 1859 y murió asesinado en Bogotá el 15 de octubre de 1914. Realizó sus estudios en Derecho en la Universidad del Rosario. Fue periodista, militar, diplomático y congresista. Aunque se lo conoce en la historia como uno de los más grandes ideólogos del partido liberal y prolífico autor de innumerables estudios sobre temas económicos, políticos, sociales y culturales. Algunos de ellos versan sobre el café, el algodón, Panamá, el Liberalismo, la Paz, la Piedad, etc. Después de ser un liberal radical, impulsor de varias de las guerras de fines del siglo XIX, entre ellas la de los Mil Días, pasó a convertirse en un decidido defensor de la paz y la reconciliación del país. Hijo de Tomás Uribe Toro y de María Luisa Uribe de Uribe, Rafael Uribe casó con la antioqueña Sixta Tulia Gaviria Sañudo y con ella tuvo seis hijos: María Luisa, Adelaida, Julián, Carlos Eduardo, Tulia e Inés.Rafael Uribe Uribe was born in Valparaíso (Antioquia) in 1859 and was assassinated in Bogotá on October 15, 1914. He studied Law at the Universidad del Rosario. He was a journalist, military man, diplomat and congressman. Although he is known in history as one of the greatest ideologues of the liberal party and prolific author of innumerable studies on economic, political, social and cultural issues. Some of them are about coffee, cotton, Panama, Liberalism, Peace, Piety, etc. After being a radical liberal, promoter of several of the wars of the late nineteenth century, including the Thousand Days, he went on to become a determined defender of peace and reconciliation in the country. Son of Tomás Uribe Toro and María Luisa Uribe de Uribe, Rafael Uribe married Sixta Tulia Gaviria Sañudo from Antioquia and with her he had six children: María Luisa, Adelaida, Julián, Carlos Eduardo, Tulia and Inés
Dedicatoria de Enrique Uribe White a Maruja Vieira
Dedicatoria de Enrique Uribe White a Maruja VieiraDedication by Enrique Uribe White to Maruja VieiraPublicación fondo Maruja Vieira, carpeta 3, álbum 1, folio 2
Segundo concierto histórico por los señores Guillermo Uribe Holguín y Antonio María Valencia 1930
- Sonata en La (J. S. Bach)
- Sonata en Sol (W. A. Mozart)
- Sonata Op. 108 en Re menor (J. Brahms)
- Primera sonata (G. Uribe Holguín)Las obras fueron comentadas por Guillermo Uribe HolguínMedellín. Nota: Pertenece al archivo privado de Ignacio Isaza MartínezBogotá. Teatro Coló
Kirmen Uribe and Translation: An endless journey.
Assuming that Kirmen Uribe is a social agent in the sub- field of Basque literature in translation, this work analyses the translator’s translation habitus, basing its analysis on the sociological foundations of translation. Consequently, the Ondarroa writer’s ideas about, perceptions of and attitudes towards translation are examined, as well as his reflections on his translation experiences. Likewise, following the line of research in translation studies termed “fictional turn”, there will be an explanation of how Uribe represents his translation habitus by means of the principal character/ translator in the novel Mussche. In order to do so, use is made of a personal interview with the author, his texts and articles by various translators about their experience in the translation process, as well as questionnaires that some of these translators filled out for this analysis. We will go over the relationship of the texts translated by Uribe, as well as his reason for doing so, how he has participated in translating his texts, in which form he puts himself and relates as a Basque writer by means of translation (at home and abroad), which positions both he and his translators adopt as regards bridge languages and what they contribute to the writer- translator relationship. It is worth highlighting that both the author and his translators emphasise the human side of the relationship, and that is, precisely, one of the questions which stands out in the novel Mussche; we will, therefore, try to describe the reflection of reality and fiction.Paper prepared within the projects IT 1047-16 (Basque government) and FFI2017-84342-P (MINECO) developed by the level A consolidated research group MHLI (Memoria Historikoa Literatura Iberiarretan / Memoria Histórica en las Literaturas Ibéricas / Historical Memory in Iberian Literatures)
Neoechinorhynchus (Neoechinorhynchus) mexicoensis Pinacho-Pinacho, Sereno-Uribe
Neoechinorhynchus (Neoechinorhynchus) mexicoensis Pinacho-Pinacho, Sereno-Uribe & García- Varela, 2014 (Fig. 2 f) Mexico: CAMPECHE: El Milagro (18 ° 52 ’ 25.37 ’’N 91 ° 24 ’ 39.62 ’’W); Dormitator maculatus (this study). TABASCO: Río el Espino (18 ° 14 ’ 47 ’’N 92 ° 49 ’ 57 ’’W); Dormitator maculatus (Pinacho-Pinacho et al. 2014); Petenia splendida (this study). VERACRUZ: Laguna de Tamiahua (18 ° 6.6 ’ 24 ’’N 94 ° 27 ’ 24.9 ’’W); Dormitator maculatus (Pinacho-Pinacho et al. 2014). Río Papaloapan, Tlacotalpan (18 ° 36 ’0’’N 95 ° 39 ’0’’W); Dormitator maculatus (Salgado-Maldonado et al. 2005 b; Pinacho-Pinacho et al. 2014); Cichlasoma urophthalmum (Salgado- Maldonado et al. 2005 b; Martínez-Aquino et al. 2009); Gobiomorus dormitor (Velázquez-Silvestre 1994; Salgado- Maldonado et al. 2005 b), Rhamdia guatemalensis (Salgado-Maldonado et al. 2005 b). Laguna de Alvarado (18 ° 45 ’0’’N 95 ° 45 ’0’’W); Dormitator maculatus (Chávez-López et al. 1996; Montoya-Mendoza et al. 2004 a, b; Martínez-Aquino et al. 2009; García-Varela et al. 2011); Centropomus parallelus, Cichlasoma urophthalmum (Trujillo-Álvarez 1995). Laguna de Sontecomapa (18 ° 30 ’ 28 ’’N 95 ° 1 ’ 58 ’’W); Dormitator maculatus (Pinacho- Pinacho et al. 2014). Río Coatzacoalcos (18 ° 6 ’ 35 ’’N 94 ° 30 ’ 3.9 ’’W); Dormitator maculatus (Pinacho-Pinacho et al. 2014). Río la palma (18 ° 33 ’ 44.88 ’’N 95 ° 2 ’ 59.39 ’’W); Dormitator maculatus (this study). Río Tesechoacán (18 ° 36 ’0’’N 95 ° 39 ’0’’W); Cichlasoma urophthalmum (Salgado-Maldonado 2013). Specimens deposited. CNHE (8599, 8334, 8673, 8332, 8333, 6759, 6760, 8597, 8598, 8596, 3077, 8393). Notes. This species was erroneously identified as N. (N.) golvani by Salgado-Maldonado et al. (2005 b). Martínez-Aquino et al. (2009) recognized the specimens from eleotrif fishes in coastal lagoons across the Gulf of Mexico slope as independent lineages. The species was finally described using both, molecular and morphological characteres by Pinacho-Pinacho et al. 2014).Published as part of Pinacho-Pinacho, Carlos Daniel, Sereno-Uribe, Ana L., León, Gerardo Pérez-Ponce De & García-Varela, Martín, 2015, Checklist of the species of Neoechinorhynchus (Acanthocephala: Neoechinorhynchidae) in fishes and turtles in Middle-America, and their delimitation based on sequences of the 28 S rDNA, pp. 98-116 in Zootaxa 3985 (1) on page 106, DOI: 10.11646/zootaxa.3985.1.5, http://zenodo.org/record/24107
Uribe-Rivera et al 2017 DataSet: High resolution bioclimatic layers for southwest of South America for three recent past periods (1970, 1990 and 2010)
<p>These files were generated as part of the article "Dispersal and extrapolation on the accuracy of temporal predictions from distribution models for the Darwin’s frog" (Uribe-Rivera et al. 2017; accepted in Ecological Applications)</p>
<p>We used point data of meteorological stations between 34°-48°S and 70°-75°W, to generate new climatic surfaces for three recent past periods (1970; 1990; 2010). Meteorological data encompassed 293 weather stations, and were extracted from three databases: Dirección Meteorológica de Chile (DMC); Dirección General de Aguas de Chile (DGA); and the FAOClim-NET Agroclimatic database management system (FAO 2001), recording monthly records of mean daily minimum temperature, mean daily maximum temperature and total rainfall for 5-year periods (1965-1969 for 1970 climatic conditions; 1985-1989 for 1990 climatic conditions; and 2005-2009 for 2010 climatic conditions). For each period monthly mean values of each climatic variable were interpolated to generate surfaces using Anusplin v.4.4 (Hutchinson and Xu 2006), which applies the same algorithm used to derive the WorldClim bioclimatic surfaces (Hijmans et al. 2005). Interpolations were fitted following Pliscoff et al. (2014) at a ~1x1 Km resolution, with elevation as an independent variable using the GTOPO30 global digital elevation model (USGS, 1996). Because some weather stations do not have information for every month, we used the option of non-data of Anusplin. The quality of interpolations of climatic data was assessed calculating the Pearson correlation coefficient at the cell level between the monthly climatic values from the CRU-TS v3.10.01 Historic Climate Database for GIS (Climatic Research Unit - Time Series, 2012), and the monthly climatic values from the new climatic layers. Finally, surfaces of 19 bioclimatic variables were generated using the dismo package in R (Hijmans et al. 2014).</p>
<p>All bioclimatic layers were uploaded in a single compressed ZIP file. Individual layers can be found inside it as georeferenced ASCII raster files, and nominated primarily by time period, and secundarily by the number of bioclimatic layer, following the worldclim nomenclature (http://www.worldclim.org/bioclim).</p>More details can be found in Uribe-Rivera et al. 2017 (accepted manuscript in Ecological Applications
Aid for Trade
This presentation was commissioned by the Trade and Integration Network of the Regional Policy Dialogue for the 7th Hemispheric Meeting held on September 11th and 12th, 2006. This presentation discusses the creation of a task force to provide recommendations on how to operationalize Aid for Trade. The author is Claudia Uribe, the Colombian ambassador to the World Trade Organization (WTO)
Eibesfeldtphora trifurcata Uribe & Brown, new species
<i>Eibesfeldtphora trifurcata</i> Uribe & Brown new species <p>(Fig. 1)</p> <p> <b>Diagnosis.</b> This species differs in having an oviscape with three well-defined, enlarged lobes, two of which are dorsal and one ventral. The dorsal lobes are joined making an acute angle similar to a fork; the ventral lobe is widely separated from the dorsals and is both narrower in shape and longer. These characteristics are different from those of <i>E. trilobata</i> Disney, whose lobes are aligned one by the other (compare to Disney <i>et al.</i> 2009: figure 3).</p> <p> <b>Description.</b> Female. Body length 2.27–2.59 mm. Apex of foretarsomere 5 not narrowed. Foretibia with dorsal longitudinal row of enlarged setulae (palisade). Costa 0.37–0.43 wing length. Oviscape with three lateral lobes, two dorsals in a fork shape, separated from the ventral; ventral lobe narrower, longer.</p> <p> <b>Derivation of specific epithet.</b> The name refers to the three lobes and the way the two dorsal lobes join into a fork.</p> <p> <b>Material examined.</b> Holotype. ♀, Brazil, Pres. Figueiredo, REBio Uatumã, Fora, 1.7795°S, 59.2333°W, 23.xi.2008, C. A. Nogueira, over <i>Atta sexdens</i> [LACM ENT 305148] (INPA). Paratypes: 1♀, Brazil, Amazonas, Manaus, PDBFF, Res. 1301, 3.13°S, 60.02°W, 2.xi.1985, B. Klein Malaise trap, R.L.S.1 (INPA); 1♀, 20.xi.1985, B. Klein, Malaise trap, R.L.S.2, (INPA); 1♀, 22.xi.1985, B. Klein, Malaise trap, R.C.N.1 (INPA); 2♀, 27.xi.1985,. B. Klein, Malaise trap, R.L.N.1 (INPA); 1♀, 30.x.1985, B. Klein, Malaise trap, R.C.S.1; 2♀, Brazil, Amazonas, Pres. Figueiredo, REBio Uatumã, llha E, 1.787017870°S, 59.7380°W 1.xii.2008, C. A. Nogueira, over <i>Atta sexdens</i>; 1♀, 25.xi.2008; 2♀, 26.xi.2008, C. A. Nogueira, over <i>Atta sexdens</i>; 3♀, Brazil, Amazonas, Pres. Figueiredo, REBio Uatumã, Fora, 1.789517895°S, 59.2727°W, 22.xi.2008, C. A. Nogueira, over <i>Atta sexdens</i>; 3♀, Brazil, Amazonas, Pres. Figueiredo, REBio Uatumã, llha Y, 1.589315893°S, 85.738573°W, 2.xii.2008, C. A. Nogueira, over <i>Atta sexdens.</i> (INPA, LACM).</p> <p> <b>Field observations.</b> Adult females were collected over <i>Atta sexdens</i> Linnaeus.</p>Published as part of <i>Uribe, Soraya, Brown, Brian V., Bragança, Marcos A. L., Queiroz, Jarbas M. & Nogueira, Carlos A., 2014, New species of Eibesfeldtphora Disney (Diptera: Phoridae) and a new key to the genus, pp. 443-450 in Zootaxa 3814 (3)</i> on page 444, DOI: 10.11646/zootaxa.3814.3.11, <a href="http://zenodo.org/record/227984">http://zenodo.org/record/227984</a>
Alveolar Cleft Reconstruction Using Morphogenetic Protein (rhBMP-2): A Systematic Review and Meta-Analysis
El/los autor(es) declararon haber recibido el siguiente apoyo financiero para la investigación, autoría y/o publicación de este artículo: Comisión Nacional de Investigación Científica y Tecnológica: CONICYT. Financiamiento de los estudios de doctorado de Francisca Uribe Fenner (CONICYT-PCHA/doctoradonacional/2015-21150752).The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: National Commission for Scientific and Technological Research: CONICYT. Financing of doctoral studies for Francisca Uribe Fenner (CONICYT-PCHA/doctoradonacional/2015-21150752
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