Your search keyword '"Gavilán R"' showing total 25 results

1. Typology and Ecology of Californian Serpentine Annual Grasslands

Author

Rodríguez-Rojo, M. J., Sánchez-Mata, D., Gavilán, R. G., Rivas-Martínez, S., and Barbour, M. G.

Published

2001

2. In vitro degradation of biodegradable polylactic acid/magnesium composites: Relevance of Mg particle shape

Author

Cifuentes, S.C., Gavilán, R., Lieblich, M., Benavente, R., and González-Carrasco, J.L.

Published

2016

3. Factores predictores de mortalidad en la sepsis urinaria con obstrucción ureteral

Author

Badia, M., Iglesias, S., Serviá, L., Domingo, J., Gormaz, P., Vilanova, J., Gavilan, R., and Trujillano, J.

Published

2015

4. Is this the end? Dynamics of a relict stand from pervasively deforested ancient Iberian pine forests

Author

Gea-Izquierdo, G., Montes, F., Gavilán, R. G., Cañellas, I., and Rubio, A.

Published

2015

5. SAXICOLOUS COMMUNITIES IN THE SIERRA DEL MONCAYO (SPAIN): A CLASSIFICATORY STUDY

Author

Escudero, A., Fajarón, S., and Gavilán, R.

Published

1994

6. Development of a loop-mediated isothermal amplification method to detect Zika virus

Author

Escalante-Maldonado, O., Garcia, P., Cabezas, C., Gavilan, R., and Yamazaki, W.

Published

2019

7. In vitro degradation of biodegradable polylactic acid/magnesium composites: Relevance of Mg particle shape

Author

Consejo Superior de Investigaciones Científicas (España), Ministerio de Ciencia e Innovación (España), Cifuentes, Sandra C., Gavilán, R., Lieblich, Marcela, Benavente, R., González-Carrasco, José Luis, Consejo Superior de Investigaciones Científicas (España), Ministerio de Ciencia e Innovación (España), Cifuentes, Sandra C., Gavilán, R., Lieblich, Marcela, Benavente, R., and González-Carrasco, José Luis

Abstract

Absorbable medical devices must be developed in order to have an appropriate degradation rate in agreement with the healing rate of bone in the implantation site. In this work, biodegradable composites formed by a polylactic acid matrix reinforced with 10% wt. magnesium microparticles were processed and their in vitro degradation investigated during 28 days. A joint analysis of the amount of H released, the changes in pH in buffered (PBS) and non-buffered media (distilled water), the variations in mass, microstructure and the mechanical performance of the specimens was developed. The main aim was to elucidate the relevance of Mg particles shape on tailoring the degradation kinetics of these novel composites. The results show that the shape of the Mg reinforcing particles plays a crucial role in the degradation rate of PLA/Mg composites, with spherical particles promoting a lower degradation rate than irregular particles. This fact is only partially due to the smaller surface area to volume ratio of the spherical particles. Irregular particles promote a faster formation of cracks and, therefore, an increasingly faster degradation of the polymeric matrix. In every case, the amount of H released by the composites was well below that released by monolithic Mg. The pH of PBS during degradation remained always within 7.2 and 7.4. PLA/Mg reinforced with spherical particles retains more than 90% of its mechanical properties after 7 days of immersion and more than 60% after 28 days. Statement of Significance The increasing demand for temporary orthopaedic implants is the driving force to seek new strategies to decrease costs and simultaneously improve patients comfort as well as simplify surgical procedures. Resorbable medical devices must be developed in order to have an appropriate degradation rate in agreement with the healing rate of bone. We are presenting for the first time results of the degradation kinetics of a new material based on polylactic acid reinforced with 1

Published

2016

8. Effects of foundation species above and below tree line

Author

Gavilán, R. G., primary and Callaway, R. M., additional

Published

2016

9. Dry grasslands of Southern Europe: syntaxonomy, management and conservation. – Hacquetia 13: 5–18

Author

Apostolova, I., Dengler, J., DI PIETRO, Romeo, Gavilán, R. G., and Tsiripidis, I.

Subjects

Elyno-Seslerietea, European Dry Grassland Group (EDGG), Festuco-Brometea, Koelerio-Corynephoretea, grazing, Helianthemetea guttati, Mediterranean, Molinio-Arrhenatheretea

Published

2014

10. Effects of foundation species above and below tree line.

Author

Gavilán, R. G. and Callaway, R. M.

Subjects

*HILL farming, *TIMBERLINE, *TREES, *PLANT diversity, *PLANT communities, *BIOACCUMULATION, *PHYSIOGNOMY

Abstract

The facilitative effects of “foundation species” on community diversity and composition in alpine systems can be strong, but the strength of these effects often varies along gradients that occur above tree line. Here, we explore the effects of foundation species above and below tree line, a globally consistent and often abrupt climatic and ecological transition. The experiment was developed in Northern Rocky Mountains of Wyoming and Montana, USA, in vegetation with similar herbaceous physiognomies without trees, but containing dominant foundation species with “cushion” morphologies. In these systems, we compared the diversity and structure of plant communities occurring within these foundation species to that in the open at three sites below tree line and three sites above tree line. Above tree line, 69–94% of all species were significantly spatially associated with foundation species, whereas below tree line, 29–62% of the species were associated with foundation species. Similar patterns were observed in species accumulation curves with foundation species affecting the accumulation of species by +17 to +47% above tree line vs. –27 to +24% below tree line. Our results were consistent with the idea that facilitative interactions are more common with greater abiotic stress. However, our results also suggest the possibility that the climatic transition representing tree line might also represent a threshold, rather than a simple linear response, in how foundation species affect community diversity. A much larger sample size is warranted to thoroughly test such thresholds, but the fundamental ecological and physiological transition that plants experience at the climate of the tree line may also be reflected in small-scale species interactions that organize communities. [ABSTRACT FROM PUBLISHER]

Published

2017

11. Alpine cushion plants inhibit the loss of phylogenetic diversity in severe environments

Author

Butterfield, B. J., primary, Cavieres, L. A., additional, Callaway, R. M., additional, Cook, B. J., additional, Kikvidze, Z., additional, Lortie, C. J., additional, Michalet, R., additional, Pugnaire, F. I., additional, Schöb, C., additional, Xiao, S., additional, Zaitchek, B., additional, Anthelme, F., additional, Björk, R. G., additional, Dickinson, K., additional, Gavilán, R., additional, Kanka, R., additional, Maalouf, J.-P., additional, Noroozi, J., additional, Parajuli, R., additional, Phoenix, G. K., additional, Reid, A., additional, Ridenour, W., additional, Rixen, C., additional, Wipf, S., additional, Zhao, L., additional, and Brooker, R. W., additional

Published

2013

12. Confinement transitions in TJ-II under Li-coated wall conditions

Author

Sánchez, J., primary, Acedo, M., additional, Alonso, A., additional, Alonso, J., additional, Alvarez, P., additional, Ascasíbar, E., additional, Baciero, A., additional, Balbín, R., additional, Barrera, L., additional, Blanco, E., additional, Botija, J., additional, de Bustos, A., additional, de la Cal, E., additional, Calvo, I., additional, Cappa, A., additional, Carmona, J.M., additional, Carralero, D., additional, Carrasco, R., additional, Carreras, B.A., additional, Castejón, F., additional, Castro, R., additional, Catalán, G., additional, Chmyga, A.A., additional, Chamorro, M., additional, Eliseev, L., additional, Esteban, L., additional, Estrada, T., additional, Fernández, A., additional, Fernández-Gavilán, R., additional, Ferreira, J.A., additional, Fontdecaba, J.M., additional, Fuentes, C., additional, García, L., additional, García-Cortés, I., additional, García-Gómez, R., additional, García-Regaña, J.M., additional, Guasp, J., additional, Guimarais, L., additional, Happel, T., additional, Hernanz, J., additional, Herranz, J., additional, Hidalgo, C., additional, Jiménez, J.A., additional, Jiménez-Denche, A., additional, Jiménez-Gómez, R., additional, Jiménez-Rey, D., additional, Kirpitchev, I., additional, Komarov, A.D., additional, Kozachok, A.S., additional, Krupnik, L., additional, Lapayese, F., additional, Liniers, M., additional, López-Bruna, D., additional, López-Fraguas, A., additional, López-Rázola, J., additional, López-Sánchez, A., additional, Lysenko, S., additional, Marcon, G., additional, Martín, F., additional, Maurin, V., additional, McCarthy, K.J., additional, Medina, F., additional, Medrano, M., additional, Melnikov, A.V., additional, Méndez, P., additional, van Milligen, B., additional, Mirones, E., additional, Nedzelskiy, I.S., additional, Ochando, M., additional, Olivares, J., additional, de Pablos, J.L., additional, Pacios, L., additional, Pastor, I., additional, Pedrosa, M.A., additional, de la Peña, A., additional, Pereira, A., additional, Pérez, G., additional, Pérez-Risco, D., additional, Petrov, A., additional, Petrov, S., additional, Portas, A., additional, Pretty, D., additional, Rapisarda, D., additional, Rattá, G., additional, Reynolds, J.M., additional, Rincón, E., additional, Ríos, L., additional, Rodríguez, C., additional, Romero, J.A., additional, Ros, A., additional, Salas, A., additional, Sánchez, M., additional, Sánchez, E., additional, Sánchez-Sarabia, E., additional, Sarksian, K., additional, Sebastián, J.A., additional, Silva, C., additional, Schchepetov, S., additional, Skvortsova, N., additional, Solano, E.R., additional, Soleto, A., additional, Tabarés, F., additional, Tafalla, D., additional, Tarancón, A., additional, Taschev, Yu., additional, Tera, J., additional, Tolkachev, A., additional, Tribaldos, V., additional, Vargas, V.I., additional, Vega, J., additional, Velasco, G., additional, Velasco, J.L., additional, Weber, M., additional, Wolfers, G., additional, and Zurro, B., additional

Published

2009

13. Errores de medicación en farmacias comunitarias elaboración de un formulario para su detección

Author

Gavilán Reche I, García Delgado A, Murillo MD, Martín Calero MJ, and Pérez Guerrero C

Subjects

Error de medicación, farmacia comunitaria, gestión de la seguridad, prevención y control., Pharmacy and materia medica, RS1-441

Abstract

INTRODUCCIÓN Desarrollar mecanismos que prevengan errores de medicación o minimicen sus consecuencias es una tarea que actualmente se desarrolla en todos los niveles asistenciales. Las farmacias comunitarias por su proximidad a los pacientes y la formación del farmacéutico representan un punto estratégico para llevar a cabo una labor preventiva de errores de medicación. No obstante, es necesario promover y desarrollar herramientas que puedan ser integradas en los sistemas de organización de las farmacias y que garanticen la seguridad del paciente. OBJETIVO Elaborar un Formulario de Recogida de datos para detección de Errores de Medicación (FREM) en farmacias comunitarias con el objeto de identificar y prevenir errores de medicación y sus causas, promoviendo a su vez la implantación de prácticas seguras en las farmacias comunitarias. MÉTODO Se elaboró un primer formulario basado en la clasificación de Ruiz-Jarabo y se realizó un estudio piloto en tres farmacias comunitarias de Sevilla y una de Málaga durante un mes, realizando los titulares de la farmacia la recogida de información sobre los errores de medicación. Una vez analizado y consensuado por los investigadores se elaboró el formulario definitivo, aplicándolo de nuevo para analizar su efectividad. RESULTADO Durante el pilotaje se recogieron un total de 36 formularios, con 46 errores. Se detectaron y registraron no sólo errores de dispensación (25,7%), sino todos los tipos incluidos en la clasificación. El más frecuente fue de prescripción (51,4%), y se determinó la frecuencia, gravedad y nivel de riesgo para cada uno de ellos. Tras el análisis y estudio se elaboró el formulario final, Formulario de Recogida de datos para detección de Errores de Medicación (FREM), específico para aplicar en las farmacias comunitarias. CONCLUSIONES El formulario de recogida de datos para detección de errores de medicación (FREM) es una herramienta muy útil para detectar y prevenir errores de medicación en farmacias comunitarias y, utilizado de forma rutinaria, puede contribuir a aumentar la seguridad del paciente en cuanto al uso de los medicamentos.

Published

2012

14. Algunas observaciones acerca del uso de software en la estimación del modelo Half-Normal || Some Notes about the Using of Software to Estimate the Half-Normal Model

Author

Gavilá́n Ruiz, José́ Manuel and Ortega Irizo, Francisco Javier

Subjects

frontera estocástica, frontera determinista, estimador máximo verosímil, software FRONTIER, stochastic frontier, deterministic frontier, maximum likelihood estimator, Applied mathematics. Quantitative methods, T57-57.97, Mathematics, QA1-939, Business, HF5001-6182

Abstract

El uso del método de máxima verosimilitud para estimar modelos de producción Half-Normal con frontera estocástica conlleva algunas dificultades prácticas que tal vez no han sido suficientemente enfatizadas. Usando el software FRONTIER, analizamos el caso en que la estimación sugiere la ausencia de factores aleatorios en el término de error compuesto. Hemos comprobado que existen motivos para pensar que las estimaciones de los parámetros y, sobre todo, sus errores estándar son de dudosa validez. El software LIMDEP no obtiene estimaciones en este caso, ofreciendo un mensaje de error. || Using the maximum likelihood method, in order to estimate Half-Normal stochastic frontier production models, entails several practical difficulties that, perhaps, have not been sufficiently emphasised. In employing FRONTIER software, we analyse the case in which the estimation obtained suggests the absence of random factors in the composite error term. We have proved that there are reasons to doubt the validity of the parameter estimates and especially of its standard errors. On the other hand, no estimation is obtained in the previous situation, with LIMDEP software, but an error message.

Published

2011

15. The Similarity between the Square of the Coeficient of Variation and the Gini Index of a General Random Variable || Similitud entre el cuadrado del coeficiente de variación y el índice de Gini en una variable aleatoria general

Author

Sánchez-Reyes Fernández, Luis María, González Abril, Luis, Velasco Morente, Francisco, and Gavilán Ruiz, José Manuel

Subjects

concentration measures, cumulative distribution function, Lorenz curve, mean difference, medidas de concentración, función de distribución, curva de Lorenz, diferencia media, Applied mathematics. Quantitative methods, T57-57.97, Mathematics, QA1-939, Business, HF5001-6182

Abstract

In this paper, several identities concerning expectation, variance, covariance, cumulative distribution functions, the coefficient of variation, and the Lorenz curve are obtained and they are used in establishing theoretical results. Furthermore, a graphical representation of the variance is proposed which, together with the aforementioned identities, enables the square of the coeficient of variation to be considered as an equality measure in the sameway as is the Gini index. A study of the similarities between the theoretical expression of the Gini index and the square of the coefficient of variation is also carried out in this paper. || En este trabajo se obtienen diversas identidades relativas a la espezanza, varianza, covarianza, función de distribución acumulada, coeficiente de variación y curva de Lorenz que se usarán para obtener resultados teóricos interesantes. Se construye, además, una representación gráfica de la varianza, la cual, utilizando las propiedades obtenidas, nos indica que el cuadrado del coeficiente de variación se puede considerar como una medida de igualdad, de igual forma que se considera al índice de Gini. En este artículo también se lleva a cabo un estudio de las similitudes entre la expresión teórica delíndice de Gini y el cuadrado del coeficiente de variación.

Published

2010

16. European Vegetation Archive (EVA): An integrated database of European vegetation plots

Author

Chytrý M., Hennekens S., Jiménez-Alfaro B., Knollová I., Dengler J., Jansen F., Landucci F., Schaminée J., Aćić S., Agrillo E., Ambarli D., Angelini P., Apostolova I., Attorre F., Berg C., Bergmeier E., Biurrun I., Botta-Dukát Z., Brisse H., Campos J., Carlón L., Čarni A., Casella L., Csiky J., Ćušterevska R., Dajić Stevanović Z., Danihelka J., De Bie E., de Ruffray P., De Sanctis M., Dickoré W., Dimopoulos P., Dubyna D., Dziuba T., Ejrnæs R., Ermakov N., Ewald J., Fanelli G., Fernández-González F., Fitzpatrick Ú., Font X., García-Mijangos I., Gavilán R., Golub V., Guarino R., Haveman R., Indreica A., Işik Gürsoy D., Jandt U., Janssen J., Jiroušek M., Kacki Z., Kavgaci A., Kleikamp M., Kolomiychuk V., Krstivojević Ćuk M., Krstonošić D., Kuzemko A., Lenoir J., Lysenko T., Marcenò C., Martynenko V., Michalcová D., Moeslund J., Onyshchenko V., Pedashenko H., Pérez-Haase A., Peterka T., Prokhorov V., Rašomavičius V., Rodríguez-Rojo M., Rodwell J., Rogova T., Ruprecht E., Rusiņa S., Seidler G., Šibík J., Šilc U., Škvorc Ž., Sopotlieva D., Stančić Z., Svenning J., Swacha G., Tsiripidis I., Turtureanu P., Uğurlu E., Uogintas D., Valachovič M., Vashenyak Y., Vassilev K., Venanzoni R., Virtanen R., Weekes L., Willner W., Wohlgemuth T., Yamalov S., Chytrý M., Hennekens S., Jiménez-Alfaro B., Knollová I., Dengler J., Jansen F., Landucci F., Schaminée J., Aćić S., Agrillo E., Ambarli D., Angelini P., Apostolova I., Attorre F., Berg C., Bergmeier E., Biurrun I., Botta-Dukát Z., Brisse H., Campos J., Carlón L., Čarni A., Casella L., Csiky J., Ćušterevska R., Dajić Stevanović Z., Danihelka J., De Bie E., de Ruffray P., De Sanctis M., Dickoré W., Dimopoulos P., Dubyna D., Dziuba T., Ejrnæs R., Ermakov N., Ewald J., Fanelli G., Fernández-González F., Fitzpatrick Ú., Font X., García-Mijangos I., Gavilán R., Golub V., Guarino R., Haveman R., Indreica A., Işik Gürsoy D., Jandt U., Janssen J., Jiroušek M., Kacki Z., Kavgaci A., Kleikamp M., Kolomiychuk V., Krstivojević Ćuk M., Krstonošić D., Kuzemko A., Lenoir J., Lysenko T., Marcenò C., Martynenko V., Michalcová D., Moeslund J., Onyshchenko V., Pedashenko H., Pérez-Haase A., Peterka T., Prokhorov V., Rašomavičius V., Rodríguez-Rojo M., Rodwell J., Rogova T., Ruprecht E., Rusiņa S., Seidler G., Šibík J., Šilc U., Škvorc Ž., Sopotlieva D., Stančić Z., Svenning J., Swacha G., Tsiripidis I., Turtureanu P., Uğurlu E., Uogintas D., Valachovič M., Vashenyak Y., Vassilev K., Venanzoni R., Virtanen R., Weekes L., Willner W., Wohlgemuth T., and Yamalov S.

Abstract

© 2016 International Association for Vegetation Science. The European Vegetation Archive (EVA) is a centralized database of European vegetation plots developed by the IAVS Working Group European Vegetation Survey. It has been in development since 2012 and first made available for use in research projects in 2014. It stores copies of national and regional vegetation- plot databases on a single software platform. Data storage in EVA does not affect on-going independent development of the contributing databases, which remain the property of the data contributors. EVA uses a prototype of the database management software TURBOVEG 3 developed for joint management of multiple databases that use different species lists. This is facilitated by the SynBioSys Taxon Database, a system of taxon names and concepts used in the individual European databases and their corresponding names on a unified list of European flora. TURBOVEG 3 also includes procedures for handling data requests, selections and provisions according to the approved EVA Data Property and Governance Rules. By 30 June 2015, 61 databases from all European regions have joined EVA, contributing in total 1 027 376 vegetation plots, 82% of them with geographic coordinates, from 57 countries. EVA provides a unique data source for large-scale analyses of European vegetation diversity both for fundamental research and nature conservation applications. Updated information on EVA is available online at http://euroveg.org/eva-database.

17. European Vegetation Archive (EVA): An integrated database of European vegetation plots

Author

Chytrý M., Hennekens S., Jiménez-Alfaro B., Knollová I., Dengler J., Jansen F., Landucci F., Schaminée J., Aćić S., Agrillo E., Ambarli D., Angelini P., Apostolova I., Attorre F., Berg C., Bergmeier E., Biurrun I., Botta-Dukát Z., Brisse H., Campos J., Carlón L., Čarni A., Casella L., Csiky J., Ćušterevska R., Dajić Stevanović Z., Danihelka J., De Bie E., de Ruffray P., De Sanctis M., Dickoré W., Dimopoulos P., Dubyna D., Dziuba T., Ejrnæs R., Ermakov N., Ewald J., Fanelli G., Fernández-González F., Fitzpatrick Ú., Font X., García-Mijangos I., Gavilán R., Golub V., Guarino R., Haveman R., Indreica A., Işik Gürsoy D., Jandt U., Janssen J., Jiroušek M., Kacki Z., Kavgaci A., Kleikamp M., Kolomiychuk V., Krstivojević Ćuk M., Krstonošić D., Kuzemko A., Lenoir J., Lysenko T., Marcenò C., Martynenko V., Michalcová D., Moeslund J., Onyshchenko V., Pedashenko H., Pérez-Haase A., Peterka T., Prokhorov V., Rašomavičius V., Rodríguez-Rojo M., Rodwell J., Rogova T., Ruprecht E., Rusiņa S., Seidler G., Šibík J., Šilc U., Škvorc Ž., Sopotlieva D., Stančić Z., Svenning J., Swacha G., Tsiripidis I., Turtureanu P., Uğurlu E., Uogintas D., Valachovič M., Vashenyak Y., Vassilev K., Venanzoni R., Virtanen R., Weekes L., Willner W., Wohlgemuth T., Yamalov S., Chytrý M., Hennekens S., Jiménez-Alfaro B., Knollová I., Dengler J., Jansen F., Landucci F., Schaminée J., Aćić S., Agrillo E., Ambarli D., Angelini P., Apostolova I., Attorre F., Berg C., Bergmeier E., Biurrun I., Botta-Dukát Z., Brisse H., Campos J., Carlón L., Čarni A., Casella L., Csiky J., Ćušterevska R., Dajić Stevanović Z., Danihelka J., De Bie E., de Ruffray P., De Sanctis M., Dickoré W., Dimopoulos P., Dubyna D., Dziuba T., Ejrnæs R., Ermakov N., Ewald J., Fanelli G., Fernández-González F., Fitzpatrick Ú., Font X., García-Mijangos I., Gavilán R., Golub V., Guarino R., Haveman R., Indreica A., Işik Gürsoy D., Jandt U., Janssen J., Jiroušek M., Kacki Z., Kavgaci A., Kleikamp M., Kolomiychuk V., Krstivojević Ćuk M., Krstonošić D., Kuzemko A., Lenoir J., Lysenko T., Marcenò C., Martynenko V., Michalcová D., Moeslund J., Onyshchenko V., Pedashenko H., Pérez-Haase A., Peterka T., Prokhorov V., Rašomavičius V., Rodríguez-Rojo M., Rodwell J., Rogova T., Ruprecht E., Rusiņa S., Seidler G., Šibík J., Šilc U., Škvorc Ž., Sopotlieva D., Stančić Z., Svenning J., Swacha G., Tsiripidis I., Turtureanu P., Uğurlu E., Uogintas D., Valachovič M., Vashenyak Y., Vassilev K., Venanzoni R., Virtanen R., Weekes L., Willner W., Wohlgemuth T., and Yamalov S.

Abstract

© 2016 International Association for Vegetation Science. The European Vegetation Archive (EVA) is a centralized database of European vegetation plots developed by the IAVS Working Group European Vegetation Survey. It has been in development since 2012 and first made available for use in research projects in 2014. It stores copies of national and regional vegetation- plot databases on a single software platform. Data storage in EVA does not affect on-going independent development of the contributing databases, which remain the property of the data contributors. EVA uses a prototype of the database management software TURBOVEG 3 developed for joint management of multiple databases that use different species lists. This is facilitated by the SynBioSys Taxon Database, a system of taxon names and concepts used in the individual European databases and their corresponding names on a unified list of European flora. TURBOVEG 3 also includes procedures for handling data requests, selections and provisions according to the approved EVA Data Property and Governance Rules. By 30 June 2015, 61 databases from all European regions have joined EVA, contributing in total 1 027 376 vegetation plots, 82% of them with geographic coordinates, from 57 countries. EVA provides a unique data source for large-scale analyses of European vegetation diversity both for fundamental research and nature conservation applications. Updated information on EVA is available online at http://euroveg.org/eva-database.

18. European Vegetation Archive (EVA): an integrated database of European vegetation plots

Author

Ioannis Tsiripidis, Dmytro Dubyna, Emin Uğurlu, Federico Fernández-González, Svetlana Aćić, Valerijus Rašomavičius, Anna Kuzemko, Jiří Danihelka, Wolfgang Willner, Christian Berg, Mirjana Ćuk, Pavel Dan Turtureanu, Erwin Bergmeier, Aaron Pérez-Haase, Vadim Prokhorov, Deniz Işık Gürsoy, Zoltán Botta-Dukát, Hristo Pedashenko, John Janssen, Martin Kleikamp, Thomas Wohlgemuth, Martin Jiroušek, S. M. Yamalov, Viktor Onyshchenko, Ilona Knollová, Urban Šilc, Jörg Ewald, Henry Brisse, Xavier Font, Didem Ambarlı, John S. Rodwell, Andraž Čarni, Tatiana Rogova, Lynda Weekes, Solvita Rūsiņa, Gunnar Seidler, Tetiana Dziuba, Milan Chytrý, Desislava Sopotlieva, Risto Virtanen, Nikolai Ermakov, Riccardo Guarino, Maria Pilar Rodríguez-Rojo, Florian Jansen, Michele De Sanctis, Zygmunt Kącki, Domas Uogintas, Itziar García-Mijangos, Ute Jandt, Jürgen Dengler, Úna FitzPatrick, Jens-Christian Svenning, Eszter Ruprecht, Idoia Biurrun, Kiril Vassilev, Borja Jiménez-Alfaro, Stephan M. Hennekens, Tomáš Peterka, Laura Casella, Zvjezdana Stančić, Jonathan Lenoir, Iva Apostolova, Flavia Landucci, Milan Valachovič, Fabio Attorre, Joop H.J. Schaminée, Renata Ćušterevska, Corrado Marcenò, Valentin Golub, Grzegorz Swacha, János Csiky, Patrice de Ruffray, Tatiana Lysenko, Vitaliy Kolomiychuk, Rense Haveman, Luis Carlón, Emiliano Agrillo, Ali Kavgaci, W. Bernhard Dickoré, Els De Bie, Željko Škvorc, Vassiliy Martynenko, Dana Michalcová, Roberto Venanzoni, Rosario G. Gavilán, Jesper Erenskjold Moeslund, Pierangela Angelini, Giuliano Fanelli, Jozef Šibík, Juan Antonio Campos, Yulia Vashenyak, Rasmus Ejrnæs, Adrian Indreica, Panayotis Dimopoulos, Daniel Krstonošić, Zora Dajić Stevanović, Chytrý, M., Hennekens, S., Jiménez-Alfaro, B., Knollová, I., Dengler, J., Jansen, F., Landucci, F., Schaminée, J., Aćić, S., Agrillo, E., Ambarlı, D., Angelini, P., Apostolova, I., Attorre, F., Berg, C., Bergmeier, E., Biurrun, I., Botta-Dukát, Z., Brisse, H., Campos, J., Carlón, L., Čarni, A., Casella, L., Csiky, J., Ćušterevska, R., Dajić Stevanović, Z., Danihelka, J., De Bie, E., de Ruffray, P., De Sanctis, M., Dickoré, W., Dimopoulos, P., Dubyna, D., Dziuba, T., Ejrnaes, R., Ermakov, N., Ewald, J., Fanelli, G., Fernández-González, F., Fitzpatrick, Ú., Font, X., García-Mijangos, I., Gavilán, R., Golub, V., Guarino, R., Haveman, R., Indreica, A., Işık Gürsoy, D., Jandt, U., Janssen, J., Jiroušek, M., Kącki, Z., Kavgacı, A., Kleikamp, M., Kolomiychuk, V., Krstivojević Ćuk, M., Krstonošić, D., Kuzemko, A., Lenoir, J., Lysenko, T., Marcenò, C., Martynenko, V., Michalcová, D., Moeslund, J., Onyshchenko, V., Pedashenko, H., Pérez-Haase, A., Peterka, T., Prokhorov, V., Rašomavičius, V., Rodríguez-Rojo, M., Rodwell, J., Rogova, T., Ruprecht, E., Rūsiņa, S., Seidler, G., Šibík, J., Šilc, U., Škvorc, Ž., Sopotlieva, D., Stančić, Z., Svenning, J., Swacha, G., Tsiripidis, I., Turtureanu, P., Uğurlu, E., Uogintas, D., Valachovič, M., Vashenyak, Y., Vassilev, K., Venanzoni, R., Virtanen, R., Weekes, L., Willner, W., Wohlgemuth, T., Yamalov, S., and Universitat de Barcelona

Subjects

0106 biological sciences, International Association for Vegetation Science, Bos- en Landschapsecologie, Ecoinformatic, 01 natural sciences, Ecoinformatics, Forest and Landscape Ecology, Vegetació, Ecology, Environmental resource management, PE&RC, Vegetation plot, Europe, Centralized database, Geography, Cartografia de la vegetació, Plantenecologie en Natuurbeheer, Vegetatie, Bos- en Landschapsecologie, medicine.symptom, Geographic coordinate system, Europa, Releve, Plant Ecology and Nature Conservation, European Vegetation Survey, Management, Monitoring, Policy and Law, Biodiversity informatics, 010603 evolutionary biology, Plot (graphics), Relevé, Database, Phytosociological data, Vegetation database, medicine, biodiversity informatics, database, ecoinformatics, european vegetation survey, international association for vegetation science, phytosociological data, relevé, vegetation database, vegetation plot, ecology, nature and landscape conservation, management, monitoring, policy and law, Vegetatie, Nature and Landscape Conservation, Vegetation mapping, Vegetation, business.industry, 15. Life on land, Defensie, Taxon, Biodiversity informatic, Integrated database, Vegetation, Forest and Landscape Ecology, business, Vegetation (pathology), 010606 plant biology & botany

Abstract

Biurrun, Idoia/0000-0002-1454-0433; Rojo, Maria Pilar Rodriguez/0000-0001-5449-9386; Ermakov, Nikolai/0000-0001-7550-990X; De Sanctis, Michele/0000-0002-7280-6199; Svenning, Jens-Christian/0000-0002-3415-0862; Virtanen, Risto/0000-0002-8295-8217; Agrillo, Emiliano/0000-0003-2346-8346; Onyshchenko, Viktor/0000-0001-9079-7241; Marceno, Corrado/0000-0003-4361-5200; Willner, Wolfgang/0000-0003-1591-8386; Fernandez-Gonzalez, Federico/0000-0003-1234-4065; Jansen, Florian/0000-0002-0331-5185; Swacha, Grzegorz/0000-0002-6380-2954; Dengler, Jurgen/0000-0003-3221-660X; Guarino, Riccardo/0000-0003-0106-9416; Sopotlieva, Desislava/0000-0002-9281-7039; Venanzoni, Roberto/0000-0002-7768-0468; Chytry, Milan/0000-0002-8122-3075; Kuzemko, Anna/0000-0002-9425-2756; Danihelka, Jiri/0000-0002-2640-7867; Kuzemko, Anna/0000-0002-9425-2756; Venanzoni, Roberto/0000-0002-7768-0468; Gavilan, Rosario G./0000-0002-1022-445X; Jansen, Florian/0000-0002-0331-5185; Wohlgemuth, Thomas/0000-0002-4623-0894; Svenning, Jens-Christian/0000-0002-3415-0862; Sibik, Jozef/0000-0002-5949-862X; Casella, Laura/0000-0003-2550-3010; Lenoir, Jonathan/0000-0003-0638-9582; Attorre, Fabio/0000-0002-7744-2195; Kacki, Zygmunt/0000-0002-2241-1631; Jandt, Ute/0000-0002-3177-3669; Carni, Andraz/0000-0002-8909-4298; Jirousek, Martin/0000-0002-4293-478X; GARCIA-MIJANGOS, ITZIAR/0000-0002-6642-7782; Campos, Juan Antonio/0000-0001-5992-2753; Fanelli, Giuliano/0000-0002-3143-1212; Haveman, Rense/0000-0001-9127-4549; Acic, Svetlana/0000-0001-6553-3797; De Bie, Els/0000-0001-7679-743X; Font, Xavier/0000-0002-7253-8905; Moeslund, Jesper Erenskjold/0000-0001-8591-7149; Martynenko, Vasiliy/0000-0002-9071-3789; Jimenez-Alfaro, Borja/0000-0001-6601-9597; Ejrnaes, Rasmus/0000-0003-2538-8606; Carlon Ruiz, Luis/0000-0003-3442-8710; Angelini, Pierangela/0000-0002-5321-9757; Silc, Urban/0000-0002-3052-699X; Landucci, Flavia/0000-0002-6848-0384; Ewald, Jorg/0000-0002-2758-9324; Dziuba, Tetiana/0000-0001-8621-0890 WOS: 000368074600018 The European Vegetation Archive (EVA) is a centralized database of European vegetation plots developed by the IAVS Working Group European Vegetation Survey. It has been in development since 2012 and first made available for use in research projects in 2014. It stores copies of national and regional vegetation-plot databases on a single software platform. Data storage in EVA does not affect on-going independent development of the contributing databases, which remain the property of the data contributors. EVA uses a prototype of the database management software TURBOVEG 3 developed for joint management of multiple databases that use different species lists. This is facilitated by the SynBioSys Taxon Database, a system of taxon names and concepts used in the individual European databases and their corresponding names on a unified list of European flora. TURBOVEG 3 also includes procedures for handling data requests, selections and provisions according to the approved EVA Data Property and Governance Rules. By 30 June 2015, 61 databases from all European regions have joined EVA, contributing in total 1 027 376 vegetation plots, 82% of them with geographic coordinates, from 57 countries. EVA provides a unique data source for large-scale analyses of European vegetation diversity both for fundamental research and nature conservation applications. Updated information on EVA is available online at http://euroveg.org/eva-database. Czech Science Foundation (Centre of Excellence PLADIAS) [14-36079G] Our major thanks go to thousands of European vegetation scientists of several generations who collected the original vegetation-plot data in the field, published them or made their unpublished data available to others, and to those who spent myriad hours digitizing data and managing the contributing databases. EVA data management has been partly funded by the Czech Science Foundation (Centre of Excellence PLADIAS, 14-36079G).

Published

2016

19. Confirmed Severe Acute Respiratory Syndrome Coronavirus 2 Reinfections After a Second Wave With Predominance of Lambda in Lima and Callao, Peru.

Author

Pampa-Espinoza L, Padilla-Rojas C, Silva-Valencia J, Jimenez-Vasquez V, Silva I, Mestanza O, Lope Pari P, Cáceres O, Bailón-Calderón H, Bárcena-Flores L, Galarza M, García Mendoza M, Gavilán R, Rojas Serrano N, Palomino Rodriguez M, Huaringa M, Rios Monteza P, Ordoñez L, Fernandez-Navarro M, Vargas-Herrera N, and Solari L

Abstract

Background: Coronavirus disease 2019 (COVID-19) infection is a major public health problem in the world and reinfections are becoming more frequent. Our main objective was to describe the epidemiological, clinical, and genomic characteristics of the confirmed cases of reinfection by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in the capital of Lima and Callao, Peru., Methods: We searched in the Peruvian laboratory information system from April 2020 up to May 2021, looking for cases having 2 positive molecular tests for SARS-CoV-2 with more than 90 days between them. We performed genomic sequencing to the available pairs of samples and described the clinical characteristics, epidemiological impact, and genomic analysis of the confirmed reinfections., Results: There were 1 694 164 people with a positive diagnostic test for SARS-CoV-2 in Lima/Callao during the study period. Of these, 1695 had 2 positive molecular tests with more than 90 days between them. Two hundred eleven had both samples available for genomic analysis according to our selection criteria, and these were retrieved and submitted to sequencing. Thirty cases were confirmed to be SARS-CoV-2 reinfections with 2 different lineages in the 2 episodes. The variant Lambda (C.37) was the most common during the second infection and accounted for 19 (63.3%) of the 30 cases., Conclusions: We report 30 cases of confirmed SARS-CoV-2 reinfections. The Lambda variant was the most common cause of the second infections, in concordance with its predominant circulation during Peru's second wave. This report describes the largest series of confirmed reinfections by SARS-CoV-2 in Latin America.We describe the epidemiological, clinical, and genomic characteristics of the confirmed cases of reinfection by severe acute respiratory syndrome coronavirus 2 in Lima and Callao, durante la segunda ola en Peru. The Lambda variant (C.37) was the most common cause of the second infections., (© The Author(s) 2022. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2022

20. Phylogenomics reveals multiple introductions and early spread of SARS-CoV-2 into Peru.

Author

Juscamayta-López E, Carhuaricra D, Tarazona D, Valdivia F, Rojas N, Maturrano L, and Gavilán R

Subjects

COVID-19 virology, Genetic Variation, Genome, Viral genetics, Humans, Peru epidemiology, Phylogeny, Phylogeography, RNA, Viral genetics, SARS-CoV-2 classification, COVID-19 epidemiology, COVID-19 transmission, SARS-CoV-2 genetics

Abstract

Peru has become one of the countries with the highest mortality rates from the current coronavirus disease 2019 (COVID-19) pandemic caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). To investigate early transmission events and the genomic diversity of SARS-CoV-2 isolates circulating in Peru in the early COVID-19 pandemic, we analyzed 3472 viral genomes, of which 149 were from Peru. Phylogenomic analysis revealed multiple and independent introductions of the virus likely from Europe and Asia and a high diversity of genetic lineages circulating in Peru. In addition, we found evidence for community-driven transmission of SARS-CoV-2 as suggested by clusters of related viruses found in patients living in different regions of Peru., (© 2021 Wiley Periodicals LLC.)

Published

2021

21. Structuring of plant communities across agricultural landscape mosaics: the importance of connectivity and the scale of effect.

Author

McLeish M, Peláez A, Pagán I, Gavilán R, Fraile A, and García-Arenal F

Subjects

Agriculture, Plants, Biodiversity, Ecosystem

Abstract

Background: Plant communities of fragmented agricultural landscapes, are subject to patch isolation and scale-dependent effects. Variation in configuration, composition, and distance from one another affect biological processes of disturbance, productivity, and the movement ecology of species. However, connectivity and spatial structuring among these diverse communities are rarely considered together in the investigation of biological processes. Spatially optimised predictor variables that are based on informed measures of connectivity among communities, offer a solution to untangling multiple processes that drive biodiversity., Results: To address the gap between theory and practice, a novel spatial optimisation method that incorporates hypotheses of community connectivity, was used to estimate the scale of effect of biotic and abiotic factors that distinguish plant communities. We tested: (1) whether different hypotheses of connectivity among sites was important to measuring diversity and environmental variation among plant communities; and (2) whether spatially optimised variables of species relative abundance and the abiotic environment among communities were consistent with diversity parameters in distinguishing four habitat types; namely Crop, Edge, Oak, and Wasteland. The global estimates of spatial autocorrelation, which did not consider environmental variation among sites, indicated significant positive autocorrelation under four hypotheses of landscape connectivity. The spatially optimised approach indicated significant positive and negative autocorrelation of species relative abundance at fine and broad scales, which depended on the measure of connectivity and environmental variation among sites., Conclusions: These findings showed that variation in community diversity parameters does not necessarily correspond to underlying spatial structuring of species relative abundance. The technique used to generate spatially-optimised predictors is extendible to incorporate multiple variables of interest along with a priori hypotheses of landscape connectivity. Spatially-optimised variables with appropriate definitions of connectivity might be better than diversity parameters in explaining functional differences among communities., (© 2021. The Author(s).)

Published

2021

22. Emergence of ciprofloxacin-resistant Neisseria meningitidis B from asymptomatic carriers during an outbreak in Peru, 2017.

Author

Juscamayta-López E, Valdivia F, Morales S, Donaires LF, Fiestas-Solórzano V, Oré M, Pachas P, León-Janampa N, and Gavilán R

Subjects

Carrier State epidemiology, Humans, Meningococcal Infections epidemiology, Microbial Sensitivity Tests, Neisseria meningitidis classification, Neisseria meningitidis drug effects, Neisseria meningitidis genetics, Peru epidemiology, Phylogeny, Anti-Bacterial Agents pharmacology, Carrier State microbiology, Ciprofloxacin pharmacology, Drug Resistance, Bacterial, Meningococcal Infections microbiology, Neisseria meningitidis isolation & purification

Abstract

Asymptomatic carriers are a likely source of transmission of Neisseria meningitidis to close contacts who are placed at a higher risk for invasive meningococcal disease (IMD). Although N. meningitidis ciprofloxacin-resistance is rare, there have been an increase in the reports of resistant isolates mainly in patients diagnosed with IMD, and little is known about the N. meningitidis ciprofloxacin-resistance in the carrier populations. We performed a pharyngeal carriage study during a 2017 military setting outbreak in Peru, caused by a ciprofloxacin-resistant N. meningitidis B. The isolates analysed came from two hospitalized cases and six asymptomatic carriers. Whole-genome sequence-based analysis was performed and showed that strains carrying the Thr 91 Ile mutation, in the gene encoding for subunit A of DNA gyrase ( gyr A), were responsible for the fluoroquinolone resistance (MICs ≥0.256 µg ml -1 ) and were closely related to highly virulent strains from France, Norway and the UK. Phylogenetic analysis of the gyr A gene revealed that likely these Peruvian isolates acquired resistance through horizontal gene transfer from Neisseria lactamica . Our study provides evidence for the emergence and propagation of ciprofloxacin-resistant N. meningitidis B from asymptomatic carriers, and recommends the introduction of serogroup B vaccines for high-risk populations.

Published

2021

23. Host Abundance and Identity Determine the Epidemiology and Evolution of a Generalist Plant Virus in a Wild Ecosystem.

Author

Rodríguez-Nevado C, G Gavilán R, and Pagán I

Subjects

Host Specificity, Phylogeny, Population Density, Spain, Ecosystem, Host-Pathogen Interactions physiology, Plant Diseases virology, Plant Viruses classification, Plant Viruses physiology, Plants virology, Potyvirus classification, Potyvirus genetics

Abstract

Increasing evidence indicates that in wild ecosystems plant viruses are important ecological agents, and with potential to jump into crops, but only recently have the diversity and population dynamics of wild plant viruses begun to be explored. Theory proposes that biotic factors (e.g., ecosystem biodiversity, host abundance, and host density) and climatic conditions would determine the epidemiology and evolution of wild plant viruses. However, these predictions seldom have been empirically tested. For 3 years, we analyzed the prevalence and genetic diversity of Potyvirus species in preserved riparian forests of Spain. Results indicated that potyviruses were always present in riparian forests, with a novel generalist potyvirus species provisionally named Iberian hop mosaic virus (IbHMV), explaining the largest fraction of infected plants. Focusing on this potyvirus, we analyzed the biotic and climatic factors affecting virus infection risk and population genetic diversity in its native ecosystem. The main predictors of IbHMV infection risk were host relative abundance and species richness. Virus prevalence and host relative abundance were the major factors determining the genetic diversity and selection pressures in the virus population. These observations support theoretical predictions assigning these ecological factors a key role in parasite epidemiology and evolution. Finally, our phylogenetic analysis indicated that the viral population was genetically structured according to host and location of origin, as expected if speciation is largely sympatric. Thus, this work contributes to characterizing viral diversity and provides novel information on the determinants of plant virus epidemiology and evolution in wild ecosystems.

Published

2020

24. Antimicrobial-producing Pseudoalteromonas from the marine environment of Panama shows a high phylogenetic diversity and clonal structure.

Author

Atencio LA, Dal Grande F, Young GO, Gavilán R, Guzmán HM, Schmitt I, Mejía LC, and Gutiérrez M

Subjects

Anti-Infective Agents pharmacology, Cluster Analysis, DNA, Bacterial genetics, Genome, Bacterial genetics, Linkage Disequilibrium, Panama, Pseudoalteromonas metabolism, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Anti-Infective Agents metabolism, Biodiversity, Phylogeny, Pseudoalteromonas classification, Pseudoalteromonas genetics, Seawater microbiology

Abstract

Pseudoalteromonas is a genus of marine bacteria often found in association with other organisms. Although several studies have examined Pseudoalteromonas diversity and their antimicrobial activity, its diversity in tropical environments is largely unexplored. We investigated the diversity of Pseudoalteromonas in marine environments of Panama using a multilocus phylogenetic approach. Furthermore we tested their antimicrobial capacity and evaluated the effect of recombination and mutation in shaping their phylogenetic relationships. The reconstruction of clonal relationships among 78 strains including 15 reference Pseudoalteromonas species revealed 43 clonal lineages, divided in pigmented and non-pigmented strains. In total, 39 strains displayed moderate to high activity against Gram-positive and Gram-negative bacteria and fungi. Linkage disequilibrium analyses showed that the Pseudoalteromonas strains of Panama have a highly clonal structure and that, although present, recombination is not frequent enough to break the association among alleles. This clonal structure is in contrast to the high rates of recombination generally reported for aquatic and marine bacteria. We propose that this structure is likely due to the symbiotic association with marine invertebrates of most strains analyzed. Our results also show that there are several putative new species of Pseudoalteromonas in Panama to be described., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

25. Facilitative plant interactions and climate simultaneously drive alpine plant diversity.

Author

Cavieres LA, Brooker RW, Butterfield BJ, Cook BJ, Kikvidze Z, Lortie CJ, Michalet R, Pugnaire FI, Schöb C, Xiao S, Anthelme F, Björk RG, Dickinson KJ, Cranston BH, Gavilán R, Gutiérrez-Girón A, Kanka R, Maalouf JP, Mark AF, Noroozi J, Parajuli R, Phoenix GK, Reid AM, Ridenour WM, Rixen C, Wipf S, Zhao L, Escudero A, Zaitchik BF, Lingua E, Aschehoug ET, and Callaway RM

Subjects

Acclimatization, Altitude, Asia, Europe, Linear Models, New Zealand, North America, South America, Biodiversity, Climate, Models, Biological, Plants

Abstract

Interactions among species determine local-scale diversity, but local interactions are thought to have minor effects at larger scales. However, quantitative comparisons of the importance of biotic interactions relative to other drivers are rarely made at larger scales. Using a data set spanning 78 sites and five continents, we assessed the relative importance of biotic interactions and climate in determining plant diversity in alpine ecosystems dominated by nurse-plant cushion species. Climate variables related with water balance showed the highest correlation with richness at the global scale. Strikingly, although the effect of cushion species on diversity was lower than that of climate, its contribution was still substantial. In particular, cushion species enhanced species richness more in systems with inherently impoverished local diversity. Nurse species appear to act as a 'safety net' sustaining diversity under harsh conditions, demonstrating that climate and species interactions should be integrated when predicting future biodiversity effects of climate change., (© 2013 John Wiley & Sons Ltd/CNRS.)

Published

2014