Add to ORKGInternational audienceThe Budyko curve describes the relationship between climate, evapotranspiration and run-off and can be used to model catchment energy and water balances. The curve's underlying framework assumes catchments are at steady-state, a condition dependent on the scales of application, such that its reliability is greatest when applied to large catchments (>10 000 km2) and using long-term averages (?1 year). At these scales previous experience has shown that the hydrological role of vegetation does not need to be explicitly considered within the framework. By demonstrating how dynamics in the leaf area, photosynthetic capacity and rooting depth of vegetation affect not only annual and seasonal vegetation water use, but also st...
The interaction between vegetation and hydrology is complex and varies dynamically at both spatial a...
In this study, we test how vegetation optimality explains convergence on the Budyko-curve. This is d...
Water is a key resource to natural ecosystems and human societies alike, and the water cycle is fund...
International audienceThe Budyko curve describes the patterns observed between between climate, evap...
The Budyko curve describes the patterns observed between between climate, evapotranspiration and run...
The Budyko-framework is widely used to assess the water balance of catchments, with large catchments...
The Budyko curve is an empirical relation among evapotranspiration, potential evapotranspiration and...
Due to its role in intercepting and evaporating water, vegetation is a key medium through which catc...
© 2017 Dr. Daniel MetzenThe Budyko framework for understanding how precipitation (P) is partitioned ...
Society is facing growing environmental problems that require new research efforts to understand the...
Research findings concerning the main processes influencing water resources differ substantially, an...
Vegetation serves as a key element in the land-atmospheric system, and changes in vegetation can imp...
Thesis by publication.Includes bibliographical references.1. Introduction -- 2. A worldwide analysis...
This study examines whether the incorporation of dynamic, remotely sensed vegetation information int...
Not AvailableWater is the main driver of ecosystem productivity in most terrestrial ecosystems world...
The interaction between vegetation and hydrology is complex and varies dynamically at both spatial a...
In this study, we test how vegetation optimality explains convergence on the Budyko-curve. This is d...
Water is a key resource to natural ecosystems and human societies alike, and the water cycle is fund...
International audienceThe Budyko curve describes the patterns observed between between climate, evap...
The Budyko curve describes the patterns observed between between climate, evapotranspiration and run...
The Budyko-framework is widely used to assess the water balance of catchments, with large catchments...
The Budyko curve is an empirical relation among evapotranspiration, potential evapotranspiration and...
Due to its role in intercepting and evaporating water, vegetation is a key medium through which catc...
© 2017 Dr. Daniel MetzenThe Budyko framework for understanding how precipitation (P) is partitioned ...
Society is facing growing environmental problems that require new research efforts to understand the...
Research findings concerning the main processes influencing water resources differ substantially, an...
Vegetation serves as a key element in the land-atmospheric system, and changes in vegetation can imp...
Thesis by publication.Includes bibliographical references.1. Introduction -- 2. A worldwide analysis...
This study examines whether the incorporation of dynamic, remotely sensed vegetation information int...
Not AvailableWater is the main driver of ecosystem productivity in most terrestrial ecosystems world...
The interaction between vegetation and hydrology is complex and varies dynamically at both spatial a...
In this study, we test how vegetation optimality explains convergence on the Budyko-curve. This is d...
Water is a key resource to natural ecosystems and human societies alike, and the water cycle is fund...