Droughts, Hydraulic Redistribution, and Their Impact on Vegetation Composition in the Amazon Forest
Document Type
Article
Publication Date
4-1-2011
Abstract
Hydraulic redistribution (HR), the nocturnal transport of moisture by plant roots from wetter to drier portions of the root zone, in general can buffer plants against seasonal water deficits. However, its role in longer droughts and its long-term ecological impact are not well understood. Based on numerical model experiments for the Amazon forest, this modeling study indicates that the impact of HR on plant growth differs between droughts of different time scales. While HR increases transpiration and plant growth during regular dry seasons, it reduces dry season transpiration and net primary productivity (NPP) under extreme droughts such as those during El Niño years in the Amazon forest. This occurs because, in places where soil water storage is not able to sustain the ecosystem through the dry season, the HR-induced acceleration of moisture depletion in the early stage of the dry season reduces water availability for the rest of the dry season and causes soil moisture to reach the wilting point earlier. This gets exacerbated during extreme droughts, which jeopardizes the growth of trees that are not in dry season dormancy, i.e., evergreen trees. As a result, the combination of drought and HR increases the percentage of drought deciduous trees at the expense of evergreen trees, and the fractional coverage of forest canopy is characterized by sudden drops following extreme droughts and slow recovery afterwards. The shift of the tropical forest towards more drought deciduous trees as a result of the combined effects of extreme drought and HR has important implications for how vegetation will respond to future climate changes.
DOI
10.1007/s11258-010-9860-4
MSU Digital Commons Citation
Wang, Guiling; Alo, Clement; Mei, Rui; and Sun, Shanshan, "Droughts, Hydraulic Redistribution, and Their Impact on Vegetation Composition in the Amazon Forest" (2011). Department of Earth and Environmental Studies Faculty Scholarship and Creative Works. 247.
https://digitalcommons.montclair.edu/earth-environ-studies-facpubs/247