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1.
Nature ; 443(7110): 444-7, 2006 Sep 28.
Artículo en Inglés | MEDLINE | ID: mdl-17006512

RESUMEN

The world's greatest terrestrial stores of biodiversity and carbon are found in the forests of northern South America, where large-scale biogeographic patterns and processes have recently begun to be described. Seven of the nine countries with territory in the Amazon basin and the Guiana shield have carried out large-scale forest inventories, but such massive data sets have been little exploited by tropical plant ecologists. Although forest inventories often lack the species-level identifications favoured by tropical plant ecologists, their consistency of measurement and vast spatial coverage make them ideally suited for numerical analyses at large scales, and a valuable resource to describe the still poorly understood spatial variation of biomass, diversity, community composition and forest functioning across the South American tropics. Here we show, by using the seven forest inventories complemented with trait and inventory data collected elsewhere, two dominant gradients in tree composition and function across the Amazon, one paralleling a major gradient in soil fertility and the other paralleling a gradient in dry season length. The data set also indicates that the dominance of Fabaceae in the Guiana shield is not necessarily the result of root adaptations to poor soils (nodulation or ectomycorrhizal associations) but perhaps also the result of their remarkably high seed mass there as a potential adaptation to low rates of disturbance.


Asunto(s)
Biodiversidad , Árboles/clasificación , Árboles/fisiología , Clima Tropical , Biomasa , Ecosistema , Dinámica Poblacional , Lluvia , Estaciones del Año , América del Sur
2.
Nature ; 433(7026): 627-9, 2005 Feb 10.
Artículo en Inglés | MEDLINE | ID: mdl-15703746

RESUMEN

In tropical rainforests, 30-65% of tree species grow at densities of less than one individual per hectare. At these low population densities, successful cross-pollination relies on synchronous flowering. In rainforests with low climatic seasonality, photoperiodic control is the only reliable mechanism for inducing synchronous flowering. This poses a problem because there is no variation in day length at the Equator. Here we propose a new mechanism of photoperiodic timekeeping based on the perception of variation in sunrise or sunset time, which explains and predicts the annually repeated, staggered, synchronous and bimodal flowering of many tree species in Amazonian rainforests near the Equator.


Asunto(s)
Flores/fisiología , Geografía , Fotoperiodo , Colombia , Costa Rica , Flores/efectos de la radiación , Melastomataceae/fisiología , Melastomataceae/efectos de la radiación , Montanoa/fisiología , Montanoa/efectos de la radiación , Reproducción/fisiología , Reproducción/efectos de la radiación , Estaciones del Año , Luz Solar , Factores de Tiempo , Árboles/fisiología , Árboles/efectos de la radiación , Clima Tropical
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