| Summary: | LOVECLIM was used to simulate the climate response to insolation and CO2 forcings during the nine interglacials of the last 800,000 years. The relative impacts of insolation and CO2 on different climatic variables and on different regions are quantified through simulations with LOVECLIM and using the factor separation technique. The results show that the relative contribution of insolation and CO2 on the warmth intensity varies from one interglacial to another. They also show that CO2 plays a dominant role on the variations of the global annual mean temperature and the southern high latitude temperature and sea ice, whereas, insolation plays a dominant role on the variations of monsoon precipitation, vegetation and of the northern high latitude temperature and sea ice. Our simulations also help to understand the origin of the Mid- Brunhes Transition (MBE) which is characterized by change in the interglacial amplitude about 430,000 years ago. As far as the surface climate is concerned, MBE appears mainly in the variables dominated by CO2 and it is not clear in the variables dominated by insolation. This explains the absence of MBE in some regional records. However, the oceanic response to insolation is more complex depending significantly on the interactions between the atmosphere and the ocean. Insolation alone can induce a MBE in some oceanic processes which are critical for the carbon cycle. This might contribute to the understanding of the origin of the MBE in the atmospheric CO2 concentration.
|
|---|