Esquizofrenia y vulnerabilidad. Terapia ocupacional y rehabilitación psicosocial como medio de intervención ante las limitaciones en la participación social

La esquizofrenia es un trastorno psiquiátrico que afecta seriamente al individuo que lo padece, produciendo un deterioro de la percepción, pensamiento, afectividad y conducta. Las características esenciales de la esquizofrenia engloban una mezcla de signos y síntomas, tanto positivos (ideas delirantes, alucinaciones, lenguaje desorganizado…) como negativos (aplanamiento afectivo, disminución de la fluidez del pensamiento y del lenguaje…) que ocasionan consecuencias negativas a nivel personal y en relación con la interacción social y familiar. Partiendo del modelo de vulnerabilidad, una vez vista la variabilidad sintomática a la que se enfrentan, obtendremos un punto de partida para explicar la predisposición que tiene un individuo a iniciar y a volver a desarrollar un episodio psicótico cuando las circunstancias vitales tanto internas como externas producen un grado de estrés tal, que supera el umbral de tolerancia de dicho individuo. Un punto importante durante el proceso será la evaluación de estas circunstancias que rodean a la persona como medio de análisis y perspectiva ante una posterior intervención, logrando la implicación no solo del usuario sino de la familia en la consecución de los objetivos que formarán parte del programa. Con base en lo anterior, desde la terapia ocupacional a través del modelo de rehabilitación psicosocial y con la ayuda del marco de trabajo para la práctica de la terapia ocupacional, realizaremos un programa de intervención dirigido hacia aquellas limitaciones en la participación social, de tal manera que logremos aumentar la calidad de vida y reducir el nivel de restricción en la participación al que están expuestos los diferentes individuos.<br /

Above- and below-ground net primary productivity across ten Amazonian forests on contrasting soils

Copyright © 2009 European Geosciences Union. This is the published version available at http://www.biogeosciences.net/6/2759/2009/bg-6-2759-2009.html © Author(s) 2009. This work is distributed under the Creative Commons Attribution 3.0 License.The net primary productivity (NPP) of tropical forests is one of the most important and least quantified components of the global carbon cycle. Most relevant studies have focused particularly on the quantification of the above-ground coarse wood productivity, and little is known about the carbon fluxes involved in other elements of the NPP, the partitioning of total NPP between its above- and below-ground components and the main environmental drivers of these patterns. In this study we quantify the above- and below-ground NPP of ten Amazonian forests to address two questions: (1) How do Amazonian forests allocate productivity among its above- and below-ground components? (2) How do soil and leaf nutrient status and soil texture affect the productivity of Amazonian forests? Using a standardized methodology to measure the major elements of productivity, we show that NPP varies between 9.3±1.3MgC ha−1 yr−1 (mean±standard error), at a white sand plot, and 17.0±1.4MgC ha−1 yr−1 at a very fertile Terra Preta site, with an overall average of 12.8±0.9MgC ha−1 yr−1. The studied forests allocate on average 64±3% and 36±3% of the total NPP to the above and below-ground components, respectively. The ratio of above-ground and below-ground NPP is almost invariant with total NPP. Litterfall and fine root production both increase with total NPP, while stem production shows no overall trend. Total NPP tends to increase with soil phosphorus and leaf nitrogen status. However, allocation of NPP to below-ground shows no relationship to soil fertility, but appears to decrease with the increase of soil clay content

Phylogenetic diversity of Amazonian tree communities

This is the peer reviewed version of the following article: Honorio Coronado, E. N., Dexter, K. G., Pennington, R. T., Chave, J., Lewis, S. L., Alexiades, M. N., Alvarez, E., Alves de Oliveira, A., Amaral, I. L., Araujo-Murakami, A., Arets, E. J. M. M., Aymard, G. A., Baraloto, C., Bonal, D., Brienen, R., Cerón, C., Cornejo Valverde, F., Di Fiore, A., Farfan-Rios, W., Feldpausch, T. R., Higuchi, N., Huamantupa-Chuquimaco, I., Laurance, S. G., Laurance, W. F., López-Gonzalez, G., Marimon, B. S., Marimon-Junior, B. H., Monteagudo Mendoza, A., Neill, D., Palacios Cuenca, W., Peñuela Mora, M. C., Pitman, N. C. A., Prieto, A., Quesada, C. A., Ramirez Angulo, H., Rudas, A., Ruschel, A. R., Salinas Revilla, N., Salomão, R. P., Segalin de Andrade, A., Silman, M. R., Spironello, W., ter Steege, H., Terborgh, J., Toledo, M., Valenzuela Gamarra, L., Vieira, I. C. G., Vilanova Torre, E., Vos, V., Phillips, O. L. (2015), Phylogenetic diversity of Amazonian tree communities. Diversity and Distributions, 21: 1295–1307. doi: 10.1111/ddi.12357, which has been published in final form at 10.1111/ddi.12357Aim: To examine variation in the phylogenetic diversity (PD) of tree communities across geographical and environmental gradients in Amazonia. Location: Two hundred and eighty-three c. 1 ha forest inventory plots from across Amazonia. Methods: We evaluated PD as the total phylogenetic branch length across species in each plot (PDss), the mean pairwise phylogenetic distance between species (MPD), the mean nearest taxon distance (MNTD) and their equivalents standardized for species richness (ses.PDss, ses.MPD, ses.MNTD). We compared PD of tree communities growing (1) on substrates of varying geological age; and (2) in environments with varying ecophysiological barriers to growth and survival. Results: PDss is strongly positively correlated with species richness (SR), whereas MNTD has a negative correlation. Communities on geologically young- and intermediate-aged substrates (western and central Amazonia respectively) have the highest SR, and therefore the highest PDss and the lowest MNTD. We find that the youngest and oldest substrates (the latter on the Brazilian and Guiana Shields) have the highest ses.PDss and ses.MNTD. MPD and ses.MPD are strongly correlated with how evenly taxa are distributed among the three principal angiosperm clades and are both highest in western Amazonia. Meanwhile, seasonally dry tropical forest (SDTF) and forests on white sands have low PD, as evaluated by any metric. Main conclusions: High ses.PDss and ses.MNTD reflect greater lineage diversity in communities. We suggest that high ses.PDss and ses.MNTD in western Amazonia results from its favourable, easy-to-colonize environment, whereas high values in the Brazilian and Guianan Shields may be due to accumulation of lineages over a longer period of time. White-sand forests and SDTF are dominated by close relatives from fewer lineages, perhaps reflecting ecophysiological barriers that are difficult to surmount evolutionarily. Because MPD and ses.MPD do not reflect lineage diversity per se, we suggest that PDss, ses.PDss and ses.MNTD may be the most useful diversity metrics for setting large-scale conservation priorities.FINCyT - PhD studentshipSchool of Geography of the University of LeedsRoyal Botanic Garden EdinburghNatural Environment Research Council (NERC)Gordon and Betty Moore FoundationEuropean Union's Seventh Framework ProgrammeERCCNPq/PELDNSF - Fellowshi

Enseñanza/aprendizaje de lingüística y lengua española en plataformas digitales mediante vídeos

[EN] The current investigation tries to enrich the teaching methodology used in distance learning. To do so, the creation of videos in order to facilitate the comprehension of new linguistics terminology to students from first year of English and Hispanic studies has been employed. This technique helps them to understand some complex concepts and also, there has been an approach between them and the distance teacher. The stu-dents participate in an active way during their learning through their own creative videos and an unexpect-ed but collaborative learning between them is observed.[ES] La presente investigación presenta un proyecto que busca enriquecer la metodología docente de enseñanza a distancia, mediante la creación de vídeos para facilitar la compresión de nueva terminología lingüística a los alumnos de Filología. La creación de vídeos ayuda en la comprensión de conceptos complejos y acerca la figura del profesor a distancia a los estudiantes. Los alumnos participan de forma activa en su aprendizaje con la creación de sus propios vídeos y se observa que se desarrolla un aprendizaje colaborativo entre los estudiantesPolo, N.; San Mateo, A.; Gutiérrez, E. (2016). Enseñanza/aprendizaje de lingüística y lengua española en plataformas digitales mediante vídeos. Lenguaje y Textos. (43):97-104. doi:10.4995/lyt.2016.5940.SWORD9710443Céspedes, Á. Y VÁSQUEZ D. (2009). El uso de los softwares educativos en la carrera de lenguas extranjeras. Revista Pedagogía Universitaria, 14(1), 55-63.García Fernández, P. (2011). Aprendizaje autónomo utilizando vídeos docentes. IEEE-RITA, 6(2), 65-69.García-Salinas, J., Ferreira-Cabrera, A., Y MORALES-RÍOS, S. (2012). «Autonomía en el aprendizaje de len-guas extranjeras en contextos de ense-anza mediatizados por la tecnología». Onomázein, 25, 1, 15-50.Gaytan, J. (2006). Business education teachers: Perception of the effect of technology training on instructional practices. The Delta Pi Epsilon Journal, 48(1), 28-42.Monteagudo Valdivia, P., Sánchez Mansolo, A. Y HERNÁNDEZ MEDINA, M. (2007). El vídeo como medio de ense-anza: Universidad Barrio Adentro. República Bolivariana de Venezuela. Revista Cubana de Educación Médica Superior, 21(2), 1-9.Quesada Chávez, M. J. (2015). Creación de vídeos educativos como estrategia didáctica para la formación de futuros docentes de inglés. Revista Electrónica "Actualidades Investigativas en Educación", 15(1), 1-19.Souza, K. Y FERREIRA, S. (2008). El uso del vídeo digital en clase de ense-anza: una propuesta pedagógica. Comunicar, 16(31), 457-461.Tremarias, M. Y NORIEGA, T. (2009). Utilización de vídeos didácticos como innovación en la ense-anza de la toxicología. Educación Médica Superior, 23(3), 38- 4

Phylogenetic diversity of Amazonian tree communities

Aim: To examine variation in the phylogenetic diversity (PD) of tree communities across geographical and environmental gradients in Amazonia. Location: Two hundred and eighty-three c. 1 ha forest inventory plots from across Amazonia. Methods: We evaluated PD as the total phylogenetic branch length across species in each plot (PDss), the mean pairwise phylogenetic distance between species (MPD), the mean nearest taxon distance (MNTD) and their equivalents standardized for species richness (ses.PDss, ses.MPD, ses.MNTD). We compared PD of tree communities growing (1) on substrates of varying geological age; and (2) in environments with varying ecophysiological barriers to growth and survival. Results: PDss is strongly positively correlated with species richness (SR), whereas MNTD has a negative correlation. Communities on geologically young- and intermediate-aged substrates (western and central Amazonia respectively) have the highest SR, and therefore the highest PDss and the lowest MNTD. We find that the youngest and oldest substrates (the latter on the Brazilian and Guiana Shields) have the highest ses.PDss and ses.MNTD. MPD and ses.MPD are strongly correlated with how evenly taxa are distributed among the three principal angiosperm clades and are both highest in western Amazonia. Meanwhile, seasonally dry tropical forest (SDTF) and forests on white sands have low PD, as evaluated by any metric. Main conclusions: High ses.PDss and ses.MNTD reflect greater lineage diversity in communities. We suggest that high ses.PDss and ses.MNTD in western Amazonia results from its favourable, easy-to-colonize environment, whereas high values in the Brazilian and Guianan Shields may be due to accumulation of lineages over a longer period of time. White-sand forests and SDTF are dominated by close relatives from fewer lineages, perhaps reflecting ecophysiological barriers that are difficult to surmount evolutionarily. Because MPD and ses.MPD do not reflect lineage diversity per se, we suggest that PDss, ses.PDss and ses.MNTD may be the most useful diversity metrics for setting large-scale conservation priorities

Wood density variation across an Andes‐to‐Amazon elevational gradient

Understanding how functional traits are related to species diversity and ecosystem properties is a central goal of ecology. Wood density is a trait that integrates many aspects of plant form and function and is highly variable among species. Previous studies of wood density across elevational gradients have been based on limited sampling and have reported declines with increasing elevation, though even this simple pattern remains unknown, much less its underlying functional and evolutionary relationships. Here, we use one of the longest and most speciose elevational gradients in the world, extending from the Andean tree line to the Amazon basin, to test the extent to which elevation, species composition, phylogenetic affinity and forest structure determine variation in wood density. Using field‐collected wood samples and global databases, we assigned wood density to 1231 species and 31,330 stems across 41 (47.5 ha) mature forest plots arrayed across a 3500‐m vertical gradient. Our results show that mean wood density, either weighted by abundance, basal area or species, was highly variable but tended to decline from low to middle elevations and increase again from mid‐elevations to the tree line. As a result of this non‐linearity, forests at the Andean tree line had higher wood density than their lowland Amazon counterparts. We observed an abrupt transition in wood density at the lower limit of persistent cloud formation (cloud base), where the lowest wood density values were found. The decline of wood density is attributed to a significant shift in life forms, with an abundance of tree ferns at middle elevations and a higher probability of landslides and disturbances favouring a suite of traits associated with low wood density, such as softer wood and higher elasticity. Species turnover explained most of the among‐species variation across the gradient, with elevation having no consistent effect on within‐species variation in wood density. Together, both gradual compositional changes and sharp local changes in the importance of non‐dicot life forms, such as arborescent ferns and palms, define patterns of forest‐level carbon density, with wood density per se controlling ecosystem properties, such as carbon flux, across the Andes‐to‐Amazon elevational gradient

Supporting multiple isolation levels in replicated environments

Replication is used by databases to implement reliability and provide scalability. However, achieving transparent replication is not an easy task. A replicated database is transparent if it can seamlessly replace a standard stand-alone database without requiring any changes to the components of the system. Database replication transparency can be achieved if: (a) replication protocols remain hidden for all other components of the system; and (b) the functionality of a stand-alone database is provided. The ability to simultaneously execute transactions under different isolation levels is a functionality offered by all stand-alone databases but not by their replicated counterparts. Allowing different isolation levels may improve overall system performance. For example, the TPC-C benchmark specification tolerates execution of some transactions at weaker isolation levels in order to increase throughput of committed transactions. In this paper, we show how replication protocols can be extended to enable transactions to be executed under different isolation levels. © 2012 Elsevier B.V. All rights reserved.This work has been supported by the Spanish Ministerio de Ciencia e Innovation (MICINN) and the European Regional Development Fund (ERDF/FEDER) under research grants TIN2009-14460-C03-01 and TIN2010-17193. The translation of this paper was funded by the Universitat Politecnica de Valencia, Spain.Bernabe Gisbert, JM.; Muñoz Escoí, FD. (2012). Supporting multiple isolation levels in replicated environments. Data and Knowledge Engineering. 79-80:1-16. doi:10.1016/j.datak.2012.05.001S11679-8

Wood density variation across an Andes-to-Amazon elevational gradient

Understanding how functional traits are related to species diversity and ecosystem properties is a central goal of ecology. Wood density is a trait that integrates many aspects of plant form and function and is highly variable among species. Previous studies of wood density across elevational gradients have been based on limited sampling and have reported declines with increasing elevation, though even this simple pattern remains unknown, much less its underlying functional and evolutionary relationships. Here, we use one of the longest and most speciose elevational gradients in the world, extending from the Andean tree line to the Amazon basin, to test the extent to which elevation, species composition, phylogenetic affinity and forest structure determine variation in wood density. Using field‐collected wood samples and global databases, we assigned wood density to 1231 species and 31,330 stems across 41 (47.5 ha) mature forest plots arrayed across a 3500‐m vertical gradient. Our results show that mean wood density, either weighted by abundance, basal area or species, was highly variable but tended to decline from low to middle elevations and increase again from mid‐elevations to the tree line. As a result of this non‐linearity, forests at the Andean tree line had higher wood density than their lowland Amazon counterparts. We observed an abrupt transition in wood density at the lower limit of persistent cloud formation (cloud base), where the lowest wood density values were found. The decline of wood density is attributed to a significant shift in life forms, with an abundance of tree ferns at middle elevations and a higher probability of landslides and disturbances favouring a suite of traits associated with low wood density, such as softer wood and higher elasticity. Species turnover explained most of the among‐species variation across the gradient, with elevation having no consistent effect on within‐species variation in wood density. Together, both gradual compositional changes and sharp local changes in the importance of non‐dicot life forms, such as arborescent ferns and palms, define patterns of forest‐level carbon density, with wood density per se controlling ecosystem properties, such as carbon flux, across the Andes‐to‐Amazon elevational gradient