Add to ORKGIn this study, I present a new approach to quantifying a range of uncertainty associated with the carbon-climate feedback over the period 1850 to 2100 within an earth system model of intermediate complexity. The degree to which terrestrial vegetation adaptively self-organizes to shape its own climatic conditions is still an open question. Nonetheless, one can simulate a best case scenario, in which ter-restrial productivity is periodically maximized with respect to several macroscopic vegetation parameters, commonly held constant in other models such as maximum stomatal conductance. The results of this dynamically optimized simulation are compared to a simulation where the vegetation parameters are held static at the values optimized for pr...
Terrestrial ecosystems are facing unprecedented threats from climate change. Projected increases in ...
Regional climate models (RCMs) primarily represent physical components of the climate system, omitti...
Understanding how terrestrial ecosystems would respond to future climate change can substantially co...
In this study, I present a new approach to quantifying a range of uncertainty associated with the ca...
The terrestrial biosphere shapes the exchange fluxes of energy and mass at the land surface. The div...
Future climate change and increasing atmospheric CO2 are expected to cause major changes in vegetati...
Vegetation has different adjustable properties for adaptation to its environment. Examples include s...
International audienceThe terrestrial biosphere shows substantial inertia in its response to environ...
Future climate change and increasing atmospheric CO2 are expected to cause major changes in vegetati...
This study tests the ability of five Dynamic Global Vegetation Models (DGVMs), forced with observed ...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
We have investigated the spatio-temporal carbon balance patterns resulting from forcing a dynamic gl...
Recent contributions to the ecological literature have questioned the continued usefulness of the cl...
International audienceWe present the first simulation of the last 6000 years with a version of the I...
Terrestrial ecosystems and their vegetation are linked to climate. With the potential of accelerated...
Terrestrial ecosystems are facing unprecedented threats from climate change. Projected increases in ...
Regional climate models (RCMs) primarily represent physical components of the climate system, omitti...
Understanding how terrestrial ecosystems would respond to future climate change can substantially co...
In this study, I present a new approach to quantifying a range of uncertainty associated with the ca...
The terrestrial biosphere shapes the exchange fluxes of energy and mass at the land surface. The div...
Future climate change and increasing atmospheric CO2 are expected to cause major changes in vegetati...
Vegetation has different adjustable properties for adaptation to its environment. Examples include s...
International audienceThe terrestrial biosphere shows substantial inertia in its response to environ...
Future climate change and increasing atmospheric CO2 are expected to cause major changes in vegetati...
This study tests the ability of five Dynamic Global Vegetation Models (DGVMs), forced with observed ...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
We have investigated the spatio-temporal carbon balance patterns resulting from forcing a dynamic gl...
Recent contributions to the ecological literature have questioned the continued usefulness of the cl...
International audienceWe present the first simulation of the last 6000 years with a version of the I...
Terrestrial ecosystems and their vegetation are linked to climate. With the potential of accelerated...
Terrestrial ecosystems are facing unprecedented threats from climate change. Projected increases in ...
Regional climate models (RCMs) primarily represent physical components of the climate system, omitti...
Understanding how terrestrial ecosystems would respond to future climate change can substantially co...