Abstract
Abstract. The impacts of various scenarios of a gradual snow and glaciers developing over the Tibetan Plateau on climate change in Afro-Asian monsoon region and other regions during the Holocene (9 kyr BP–0 kyr BP) are studied by using the Earth system model of intermediate complexity, CLIMBER-2. The simulations show that the imposed snow and glaciers over the Tibetan Plateau in the mid-Holocene induce global summer temperature decreases over most of Eurasia but in the Southern Asia temperature response is opposite. With the imposed snow and glaciers, summer precipitation decreases strongly in North Africa and South Asia as well as northeastern China, while it increases in Southeast Asia and the Mediterranean. For the whole period of Holocene (9 kyr BP–0 kyr BP), the response of vegetation cover to the imposed snow and glaciers cover over the Tibetan Plateau is not synchronous in South Asia and in North Africa, showing an earlier and a more rapid decrease in vegetation cover in North Africa from 9 kyr BP to 6 kyr BP while it has only minor influence on that in South Asia until 5 kyr BP. The precipitation decreases rapidly in North Africa and South Asia while it decreases slowly or unchanged during 6 kyr BP to 0 kyr BP with imposed snow and glacier cover over the Tibetan Plateau. The different scenarios of snow and glacier developing over the Tibetan Plateau would result in differences in variation of temperature, precipitation and vegetation cover in North Africa, South Asia and Southeast Asia. The model results suggest that the development of snow and ice cover over Tibetan Plateau represents an additional important climate feedback, which amplify orbital forcing and produces a significant synergy with the positive vegetation feedback.
Highlights
Holocene climate change is one of the focus themes both in paleoclimate modeling and proxy data reconstruction communities
In a previous model study using CLIMBER-2, Jin et al (2005) studied the impacts of ice and snow cover over the Tibetan Plateau on Holocene climate change and the simulation results suggest that the snow and glacier environment over the Tibetan Plateau is an important factor for Holocene African-Asian monsoon retreat and an amplifier for monsoon regional climate variability
Because the different scenarios of snow and glaciers developing on the Tibetan Plateau may have different effects on climate change, here, as a follow-up research of Jin et al (2005), we conduct a series of sensitivity experiments by using CLIMBER-2 focusing on the impacts of different scenarios of snow and glaciers developing over the Tibetan Plateau on Holocene climate changes in African-Asian monsoon region and other regions
Summary
Holocene climate change is one of the focus themes both in paleoclimate modeling and proxy data reconstruction communities. In a previous model study using CLIMBER-2, Jin et al (2005) studied the impacts of ice and snow cover over the Tibetan Plateau on Holocene climate change and the simulation results suggest that the snow and glacier environment over the Tibetan Plateau is an important factor for Holocene African-Asian monsoon retreat and an amplifier for monsoon regional climate variability. In their transient modeling experiments (Jin et al, 2005), the changes of snow and glaciers over the Tibetan Plateau was set to be linear increasing from 9 kyr BP to present. Because the different scenarios of snow and glaciers developing on the Tibetan Plateau may have different effects on climate change, here, as a follow-up research of Jin et al (2005), we conduct a series of sensitivity experiments by using CLIMBER-2 focusing on the impacts of different scenarios of snow and glaciers developing over the Tibetan Plateau on Holocene climate changes in African-Asian monsoon region and other regions
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