International audienceDeep root water uptake and hydraulic redistribution (HR) play a major role in forest ecosystems during drought, but little is known about the impact of climate change on root-zone processes influencing HR and its consequences on water and carbon fluxes. Using data from two old growth sites in the western USA, two mature sites in the eastern USA, one site in southern Brazil, and simulations with the process-based model MuSICA, our objectives were to show that HR can 1) mitigate the effects of soil drying on root functioning, and 2) have important implications for carbon uptake and net ecosystem exchange (NEE). In a dry, old-growth ponderosa pine (USA) and a eucalyptus stand (Brazil) both characterized by deep sandy soil...
Hydraulic redistribution (HR), the nocturnal vertical transfer of soil water from moister to drier r...
Hydraulic redistribution is the transport of water from wet to dry soil layers, upward or downward, ...
• SPAC model to predict forest water consumption under wet and dry conditions.• Interactions and fee...
International audienceDeep root water uptake and hydraulic redistribution (HR) play a major role in ...
*Hydraulic redistribution (HR) of water via roots from moist to drier portions of the soil occurs in...
© 2015 Published by Elsevier B.V.Throughout the southern US, past forest management practices have r...
One of the adaptive strategies of vegetation, particularly in water limited ecosystems, is the devel...
The plasticity of root water uptake determines the maintenance of transpiration during periods of wa...
We implemented the Amenu-Kumar model in the Community Land Model (CLM4.5) to simulate plant Root Hyd...
Trees typically survive prolonged droughts by absorbing water from deeper layers. Where soils are sh...
In critical zone science, understanding and predicting the interaction between above- and below-grou...
This is the publisher’s final pdf. The published article is copyrighted by the author(s) and publish...
Forests play a fundamental role in linking energy, water, carbon, and biogeochemical cycles. Underst...
The effects of early growing season droughts on water and carbon balances in conifer forests are poo...
Thesis (Ph.D.)--University of Washington, 2020One of the most important and noticeable components of...
Hydraulic redistribution (HR), the nocturnal vertical transfer of soil water from moister to drier r...
Hydraulic redistribution is the transport of water from wet to dry soil layers, upward or downward, ...
• SPAC model to predict forest water consumption under wet and dry conditions.• Interactions and fee...
International audienceDeep root water uptake and hydraulic redistribution (HR) play a major role in ...
*Hydraulic redistribution (HR) of water via roots from moist to drier portions of the soil occurs in...
© 2015 Published by Elsevier B.V.Throughout the southern US, past forest management practices have r...
One of the adaptive strategies of vegetation, particularly in water limited ecosystems, is the devel...
The plasticity of root water uptake determines the maintenance of transpiration during periods of wa...
We implemented the Amenu-Kumar model in the Community Land Model (CLM4.5) to simulate plant Root Hyd...
Trees typically survive prolonged droughts by absorbing water from deeper layers. Where soils are sh...
In critical zone science, understanding and predicting the interaction between above- and below-grou...
This is the publisher’s final pdf. The published article is copyrighted by the author(s) and publish...
Forests play a fundamental role in linking energy, water, carbon, and biogeochemical cycles. Underst...
The effects of early growing season droughts on water and carbon balances in conifer forests are poo...
Thesis (Ph.D.)--University of Washington, 2020One of the most important and noticeable components of...
Hydraulic redistribution (HR), the nocturnal vertical transfer of soil water from moister to drier r...
Hydraulic redistribution is the transport of water from wet to dry soil layers, upward or downward, ...
• SPAC model to predict forest water consumption under wet and dry conditions.• Interactions and fee...