Publications by authors named "D Nepstad"
Drought, fire, and windstorms can interact to degrade tropical forests and the ecosystem services they provide, but how these forests recover after catastrophic disturbance events remains relatively unknown. Here, we analyze multi-year measurements of vegetation dynamics and function (fluxes of CO and H O) in forests recovering from 7 years of controlled burns, followed by wind disturbance. Located in southeast Amazonia, the experimental forest consists of three 50-ha plots burned annually, triennially, or not at all from 2004 to 2010.
View Article and Find Full Text PDFEpisodic multi-year droughts fundamentally alter the dynamics, functioning, and structure of Amazonian forests. However, the capacity of individual plant species to withstand intense drought regimes remains unclear. Here, we evaluated ecophysiological responses from a forest community where we sampled 83 woody plant species during 5 years of experimental drought (throughfall exclusion) in an eastern Amazonian terra firme forest.
View Article and Find Full Text PDFArticle Synopsis
- High species diversity in tropical forests complicates understanding their response to environmental changes, particularly drought.
- Water availability significantly influences the distribution and drought tolerance of tree species, with wetter genera showing higher mortality during drought compared to those from drier climates.
- Findings suggest that adult trees are more affected by drought conditions than younger saplings, indicating that increased moisture stress may lead to substantial shifts in tree composition in these forests.