Latitudinal variation of genecological traits in native grasses of Patagonian rangelands

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Geographical variation in genetically based traits helps to elucidate the effect of distinct ecological and evolutionary processes on widespread plants. Whereas abundant information exists on genetic patterns of woody species in western humid Andes, such information is scarce for the neighbouring dr...

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Detalles Bibliográficos
Autor principal: Leva, Paula Edit
Otros Autores: Aguiar, Martín Roberto, Premoli, Andrea Cecilia
Formato: Artículo
Lenguaje:Inglés
Materias:
CLIMATE CHANGE
DIVERGENCE
EVOLUTIONARY BIOLOGY
FORAGE
GEOGRAPHICAL VARIATION
GRASS
LATITUDINAL GRADIENT
LOCAL ADAPTATION
NATIVE SPECIES
OVERGRAZING
PHYTOGEOGRAPHY
RANGELAND
STEPPE
SUSTAINABILITY
VICARIANCE
PATAGONIA
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2013leva.pdf
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Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
Descripción
Sumario:Geographical variation in genetically based traits helps to elucidate the effect of distinct ecological and evolutionary processes on widespread plants. Whereas abundant information exists on genetic patterns of woody species in western humid Andes, such information is scarce for the neighbouring dry Patagonian steppe. We examined genecological traits of two native forage species vulnerable to overgrazing [Bromus pictus and Poa ligularis] in dry Occidental Phytogeographical District. We compared within-population genetic diversity and among-population [n = 6] divergence by using isozyme electrophoresis. We also cultivated plants under common garden to compare genetically based morphology [plant height, number of tillers by plant and weight per tiller]. Analysis showed that 8 and 13 loci were polymorphic of 9 and 19 resolved loci in at least one population for Bromus and Poa, respectively. In general, plant traits decreased from north to south in both species. Genetic and quantitative results [FST/QST index] showed evidence of local adaptation in populations of both species. Genetic divergence among populations was significant. We detected two different geographical groups divided at the same latitude [42-43°S] in both species, supporting the hypothesis of a past vicariance event. Sustainable management of these forage species to cope with land-use and climate change will be enriched by the inclusion of genecological knowledge.
ISSN:0067-1924

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