How water capacitance works in trees
New research has revealed specific genes and proteins that help trees protect themselves against drought stress.
Forests in western Europe are particularly vulnerable to drought events
and heat waves, which are becoming more frequent and severe. Trees can,
however, defend against extreme water scarcities using hydraulic
capacitance within xylem (vessels that transport water from the roots
through the rest of the plant).
The precise physical and genetic mechanisms of this hydraulic
capacitance process have remained unclear, but the EU-funded TREE
CAPACITANCE project gained new insights. Using several hybrid and
control poplars, researchers were able to unravel the physical
mechanisms of capacitance during water deprivation and normal
conditions.
They also determined that two genes, aquaporins (AQPs) and
wall-associated kinases (WAKs), are differentially regulated under
changing plant water status. AQPs code for water channel proteins, while
WAKs code for proteins that are bound to the cell wall and to the
plasma membrane.
These findings support the hypothesis that WAKs can sense dehydration and then regulate the activity of aquaporins accordingly.
TREE CAPACITANCE researchers thus shed new light on how the
hydraulic capacity of xylem water reservoirs buffers the effects of
drought stress in trees. This research will support European forest
production and environmental protection efforts in the face of climate
change.
published: 2015-02-24