The LMD AGCM was iteratively coupled to the global BIOME1 model in order to explore the role of vegetation-climate interactions in response to mid-Holocene (6000 y BP) orbital forcing. The sea-surface temperature and sea-ice distribution used were present-day and CO2 concentration was pre-industrial. The land surface was initially prescribed with present-day vegetation. Initial climate "anomalies" (differences between AGCM results for 6000 y BP and control) were used to drive BIOME1; the simulated vegetation was provided to a further AGCM run, and so on. Results after five iterations were compared to the initial results in order to identify vegetation feedbacks. These were centred on regions showing strong initial responses. The orbitally i...
Abstract: The response of a coupled atmosphere-ocean general circulation model to insolation represe...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
We have used the BIOME4 biogeography–biochemistry model and comparison with palaeovegetation data to...
The LMD AGCM was iteratively coupled to the global BIOME1 model in order to explore the role of vege...
Previous climate model simulations have shown that the configuration of the Earth's orbit during the...
Simulations with the IPSL atmosphere–ocean model asynchronously coupled with the BIOME1 vegetation m...
Abstract A full global atmosphere-ocean-land vegetation model is used to examine the coupled climate...
The mid-Holocene 'green' Sahara represents the largest anomaly of the atmosphere-biosphere system du...
We ran a sequence of climate model experiments for 6000 years ago, with land-surface conditions base...
In this thesis, the "green" McGill Paleoclimate Model (MPM) is developed by interactively coupling ...
Much work is under way to identify and quantify the feedbacks between vegetation and climate. Palaeo...
The response of ten atmospheric general circulation models to orbital forcing at 6 kyr BP has been i...
Fossil pollen, ancient lake sediments and archaeological evidence from Africa indicate that the Sahe...
The response of ten atmospheric general circulation models to orbital forcing at 6 kyr BP has been i...
Previous climate model simulations of the early Last Interglacial (LIG) underestimated the temperatu...
Abstract: The response of a coupled atmosphere-ocean general circulation model to insolation represe...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
We have used the BIOME4 biogeography–biochemistry model and comparison with palaeovegetation data to...
The LMD AGCM was iteratively coupled to the global BIOME1 model in order to explore the role of vege...
Previous climate model simulations have shown that the configuration of the Earth's orbit during the...
Simulations with the IPSL atmosphere–ocean model asynchronously coupled with the BIOME1 vegetation m...
Abstract A full global atmosphere-ocean-land vegetation model is used to examine the coupled climate...
The mid-Holocene 'green' Sahara represents the largest anomaly of the atmosphere-biosphere system du...
We ran a sequence of climate model experiments for 6000 years ago, with land-surface conditions base...
In this thesis, the "green" McGill Paleoclimate Model (MPM) is developed by interactively coupling ...
Much work is under way to identify and quantify the feedbacks between vegetation and climate. Palaeo...
The response of ten atmospheric general circulation models to orbital forcing at 6 kyr BP has been i...
Fossil pollen, ancient lake sediments and archaeological evidence from Africa indicate that the Sahe...
The response of ten atmospheric general circulation models to orbital forcing at 6 kyr BP has been i...
Previous climate model simulations of the early Last Interglacial (LIG) underestimated the temperatu...
Abstract: The response of a coupled atmosphere-ocean general circulation model to insolation represe...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
We have used the BIOME4 biogeography–biochemistry model and comparison with palaeovegetation data to...