Abstract The root zone storage capacity (Sr) of vegetation is an important parameter in the hydrological behaviour of a catchment. Traditionally, Sr is derived from soil and vegetation data. However, more recently a new method has been developed that uses climate data to estimate Sr based on the assumption that vegetation adapts its root zone storage capacity to overcome dry periods. This method also enables one to take into account temporal variability of derived Sr values resulting from changes in climate or land cover. The current study applies this new method in 64 catchments in Finland to investigate the reasons for variability in Sr in boreal regions. Relations were assessed between climate-derived Sr values and climate variables (pr...
Fine roots constitute a large part of the primary production in northern (arctic and boreal) ecosyst...
The Meuse river basin covers an area of 33,000 km2, touches five countries and is a major communicat...
The aim of this thesis was to investigate the processes behind an unexpected runoff behaviour after ...
The root zone storage capacity (Sr) of vegetation is an important parameter in the hydrological beha...
The root zone storage capacity is a critical determinant in hydrology, playing a major role in the p...
Root zone storage capacity ( S r ) is an important variable for hydrology and climate studies, as it...
The rootzone storage capacity (Sr) is a crucial part of the hydrological cycle. This storage provide...
Abstract Catchment storage sustains ecologically important low flows in headwater systems. Understa...
The root zone storage capacity (Sr) is the maximum volume of water in the subsurface that can potent...
The root zone moisture storage capacity (SR) of terrestrial ecosystems is a buffer providing vegetat...
The core component of many hydrological systems, the moisture storage capacity available to vegetati...
The core component of many hydrological systems, the moisture storage capacity available to vegetati...
The balance between incoming precipitation (rainfall and snowfall) and outgoing evapotranspiration (...
This study presents an "earth observation-based" method for estimating root zone storage capacity - ...
Extreme weather events seem to happen more often nowadays. One of these extreme events was the Calif...
Fine roots constitute a large part of the primary production in northern (arctic and boreal) ecosyst...
The Meuse river basin covers an area of 33,000 km2, touches five countries and is a major communicat...
The aim of this thesis was to investigate the processes behind an unexpected runoff behaviour after ...
The root zone storage capacity (Sr) of vegetation is an important parameter in the hydrological beha...
The root zone storage capacity is a critical determinant in hydrology, playing a major role in the p...
Root zone storage capacity ( S r ) is an important variable for hydrology and climate studies, as it...
The rootzone storage capacity (Sr) is a crucial part of the hydrological cycle. This storage provide...
Abstract Catchment storage sustains ecologically important low flows in headwater systems. Understa...
The root zone storage capacity (Sr) is the maximum volume of water in the subsurface that can potent...
The root zone moisture storage capacity (SR) of terrestrial ecosystems is a buffer providing vegetat...
The core component of many hydrological systems, the moisture storage capacity available to vegetati...
The core component of many hydrological systems, the moisture storage capacity available to vegetati...
The balance between incoming precipitation (rainfall and snowfall) and outgoing evapotranspiration (...
This study presents an "earth observation-based" method for estimating root zone storage capacity - ...
Extreme weather events seem to happen more often nowadays. One of these extreme events was the Calif...
Fine roots constitute a large part of the primary production in northern (arctic and boreal) ecosyst...
The Meuse river basin covers an area of 33,000 km2, touches five countries and is a major communicat...
The aim of this thesis was to investigate the processes behind an unexpected runoff behaviour after ...