International audienceClimate and atmospheric CO2 effects on the balance between C3 and C4 plants have received conflicting interpretations based on the analysis of carbon isotopic fractionation (δ13C) in sediments. But, climate and CO2 effects on the C3/C4 balance and δ13C signal are rarely addressed together. Here, we use a process-based model (BIOME4) to disentangle these effects. We simulated the vegetation response to climate and CO2 atmospheric concentration (pCO2) in two sites in which vegetation changed oppositely, with respect to C3 and C4 plants abundance, during the Last Glacial Maximum to Holocene transition. The C3/C4 balance and δ13C signal were primarily sensitive to temperature and CO2 atmospheric partial pressure. The simul...
Understanding carbon cycle and climate dynamics in the past is crucial to project climate and CO2 ch...
We introduce a multistage model of carbon isotope discrimination during C3 photosynthesis and global...
Although comprising less than 4% of all terrestrial plant species, C4 plants are an essential compon...
International audienceClimate and atmospheric CO2 effects on the balance between C3 and C4 plants ha...
Climate and atmospheric CO2 effects on the balance between C3 and C4 plants have received conflictin...
When climate turns from an ice age to an interglacial the global biogeography undergoes major chang...
The global expansion of C-4 plants during the Late Cenozoic is an important event in the Earth's...
The 13C/12C ratio of C3 plant matter is thought to be controlled by the isotopic composition of atmo...
The 13C/12C ratio of C3 plant matter is thought to be controlled by the isotopic composition of atmo...
Abstract. Atmospheric CO2 concentration has varied from minima of 170–200 ppm in glacials to maxima ...
Atmospheric CO2 concentration has varied from minima of 170–200 ppm in glacials to maxima of 280–300...
Atmospheric CO2 concentration is hypothesized to influence vegetation distribution via tree–grass co...
Atmospheric CO₂ concentration has varied from minima of 170–200 ppm in glacials to maxima of 280–300...
The global vegetation response to climate and atmospheric CO2 changes between the last glacial maxim...
The global vegetation response to climate and atmospheric CO2 changes between the last glacial maxim...
Understanding carbon cycle and climate dynamics in the past is crucial to project climate and CO2 ch...
We introduce a multistage model of carbon isotope discrimination during C3 photosynthesis and global...
Although comprising less than 4% of all terrestrial plant species, C4 plants are an essential compon...
International audienceClimate and atmospheric CO2 effects on the balance between C3 and C4 plants ha...
Climate and atmospheric CO2 effects on the balance between C3 and C4 plants have received conflictin...
When climate turns from an ice age to an interglacial the global biogeography undergoes major chang...
The global expansion of C-4 plants during the Late Cenozoic is an important event in the Earth's...
The 13C/12C ratio of C3 plant matter is thought to be controlled by the isotopic composition of atmo...
The 13C/12C ratio of C3 plant matter is thought to be controlled by the isotopic composition of atmo...
Abstract. Atmospheric CO2 concentration has varied from minima of 170–200 ppm in glacials to maxima ...
Atmospheric CO2 concentration has varied from minima of 170–200 ppm in glacials to maxima of 280–300...
Atmospheric CO2 concentration is hypothesized to influence vegetation distribution via tree–grass co...
Atmospheric CO₂ concentration has varied from minima of 170–200 ppm in glacials to maxima of 280–300...
The global vegetation response to climate and atmospheric CO2 changes between the last glacial maxim...
The global vegetation response to climate and atmospheric CO2 changes between the last glacial maxim...
Understanding carbon cycle and climate dynamics in the past is crucial to project climate and CO2 ch...
We introduce a multistage model of carbon isotope discrimination during C3 photosynthesis and global...
Although comprising less than 4% of all terrestrial plant species, C4 plants are an essential compon...