Add to ORKG6ka_PanMonsoons, Liu et al., final revision, 09/05/2003 2 The response of the six major summer monsoon systems (the North American monsoon, the northern Africa monsoon, the Asia monsoon, the northern Australasian monsoon, the South America monsoon and the southern Africa monsoon) to mid-Holocene orbital forcing has been investigated using a coupled ocean-atmosphere general circulation models (FOAM), with the focus on the distinct roles of the direct insolation forcing and oceanic feedback. The simulation result is also found to compare well with the NCAR CSM. The direct effects of the change in insolation produce an enhancement of the Northern Hemisphere monsoons and a reduction of the Southern Hemisphere monsoons. Ocean feedbacks produce a...
Simulations of the climatic response to mid-Holocene (6 ka BP) orbital forcing with two coupled ocea...
This study seeks to improve our mechanistic understanding of how the insolation changes associated w...
International audienceIt is now widely recognised that the slow variations of the Earth's orbital pa...
The response of the six major summer monsoon systems (the North American monsoon, the northern Afric...
In this study, we use a sophisticated high-resolution atmosphere-ocean coupled climate model, EC-Ear...
The importance of orbital forcing and ocean impact on the Asian summer monsoon in the Holocene is in...
International audienceThe role of ocean feedback on monsoon variations at 6 and 9.5 kyr Before Prese...
International audienceThe role of the ocean in the 6 kyr BP climate change is investigated by compar...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
International audienceWe used a coupled ocean-atmosphere General Circulation Model without flux corr...
Simulations of the climatic response to mid-Holocene (6 ka BP) orbital forcing with two coupled ocea...
Simulations of the climatic response to mid-Holocene (6 ka BP) orbital forcing with two coupled ocea...
This study seeks to improve our mechanistic understanding of how the insolation changes associated w...
International audienceIt is now widely recognised that the slow variations of the Earth's orbital pa...
The response of the six major summer monsoon systems (the North American monsoon, the northern Afric...
In this study, we use a sophisticated high-resolution atmosphere-ocean coupled climate model, EC-Ear...
The importance of orbital forcing and ocean impact on the Asian summer monsoon in the Holocene is in...
International audienceThe role of ocean feedback on monsoon variations at 6 and 9.5 kyr Before Prese...
International audienceThe role of the ocean in the 6 kyr BP climate change is investigated by compar...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
We investigate the role of the ocean feedback on the climate in response to insolation forcing durin...
International audienceWe used a coupled ocean-atmosphere General Circulation Model without flux corr...
Simulations of the climatic response to mid-Holocene (6 ka BP) orbital forcing with two coupled ocea...
Simulations of the climatic response to mid-Holocene (6 ka BP) orbital forcing with two coupled ocea...
This study seeks to improve our mechanistic understanding of how the insolation changes associated w...
International audienceIt is now widely recognised that the slow variations of the Earth's orbital pa...