Examinando por Autor "Jara-Arancio, P."
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Ítem Divergence in Plant Traits and Increased Modularity Underlie Repeated Transitions Between Low and High Elevations in the Andean Genus Leucheria(Frontiers Media S.A., 2020-06) Pérez, F.; Lavandero, N.; Ossa, CG.; Hinojosa, LF.; Jara-Arancio, P.; Arroyo, MTK.Understanding why some plant lineages move from one climatic region to another is a mayor goal of evolutionary biology. In the southern Andes plant lineages that have migrated along mountain ranges tracking cold-humid climates coexist with lineages that have shifted repeatedly between warm-arid at low elevations and cold habitats at high elevations. Transitions between habitats might be facilitated by the acquisition of common traits favoring a resource-conservative strategy that copes with drought resulting from either low precipitation or extreme cold. Alternatively, transitions might be accompanied by phenotypic divergence and accelerated evolution of plant traits, which in turn may depend on the level of coordination among them. Reduced integration and evolution of traits in modules are expected to increase evolutionary rates of traits, allowing diversification in contrasting climates. To examine these hypotheses, we conducted a comparative study in the herbaceous genus Leucheria. We reconstructed ancestral habitat states using Maximum Likelihood and a previously published phylogeny. We performed a Phylogenetic Principal Components Analysis on traits, and then we tested the relationship between PC axes, habitat and climate using Phylogenetic Generalized Least Squares (PGLS). Finally, we compared the evolutionary rates of traits, and the levels of modularity among the three main Clades of Leucheria. Our results suggest that the genus originated at high elevations and later repeatedly colonized arid-semiarid shrublands and humid-forest at lower elevations. PGLS analysis suggested that transitions between habitats were accompanied by shifts in plant strategies: cold habitats at high elevations favored the evolution of traits related to a conservative-resource strategy (thicker and dissected leaves, with high mass per area, and high biomass allocation to roots), whereas warm-arid habitats at lower elevations favored traits related to an acquisitive-resource strategy. As expected, we detected higher levels of modularity in the clades that switched repeatedly between habitats, but higher modularity was not associated with accelerated rates of trait evolution.Ítem Sistema reproductivo de Trichopetalum plumosum (Ruiz & Pav.) J.F. Macbr. (Asparagaceae), geófita endémica de Chile(Universidad de Concepcion, 2017-06) Cuartas-Domínguez, M.; Rojas-Céspedes, A.; Jara-Arancio, P.; Arroyo, M.T.K.En este estudio se evaluó el sistema reproductivo de Trichopetalum plumosum (Ruiz & Pav.) J.F. Macbr. (Asparagaceae), una geófita endémica de Chile. Se realizaron cinco tratamientos de polinización controlada (agamospermia, autogamia autónoma, autopolinización, polinización cruzada y natural / control). Ninguna de las flores emasculadas y sin polinizar produjo frutos, lo que indica que esta especie no es apomíctica y, por lo tanto, necesita polen para la producción de semillas. La fructificación en el tratamiento de polinización cruzada (70,0%) fue alta y similar al porcentaje alcanzado a través de la polinización natural (90,9%). A pesar del porcentaje menor en la prueba de autopolinización (43,3%), la autogamia autónoma (90,0%) se acercó a los altos valores alcanzados en los dos primeros tratamientos mencionados. Para el promedio de semillas por flor tratada, los resultados concuerdan con los de fructificación. Sin embargo, al evaluar el número promedio de semillas por fruto formado, los tratamientos no mostraron diferencias significativas. Los resultados indican que la población de T. plumosum es autocompatible con una alta capacidad para la autogamia autónoma. Se sugiere que esta última se produce por el movimiento de los estambres hacia el estigma al final del día a medida que las flores se marchitan y cierran, correspondiendo a un modo de autofecundación tardía.