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Glacial-interglacial water cycle, global monsoon and atmospheric methane changes

Update time:08 30, 2012

Professor GUO Zhengtang and his team explore the CH4 signals in the Antarctic EPICA Dome C and Vostok ice records using the methods of time series analyses and correlate them with insolation and geological records to address the causes of atmospheric methane changes.

The results parse out three distinct groups of CH4 signals attributable to different drivers. These results indicate that bi-hemispheric monsoon changes have been a constant driver of atmospheric CH4.

In the light of these results, They propose that global monsoon can be regarded as a system consisting of two main integrated components, one primarily driven by the oscillations of Inter-Tropical Convergence Zone (ITCZ) in response to the low-latitude summer insolation changes, anti-phase between the two hemispheres (i.e. the ITCZ monsoon component); and another modulated by the glacial-interglacial cycles, mostly synchronous at the global scale (i.e. the glacial-interglacial monsoon component). Although atmospheric CH4 record integrates all wetland processes, including significant non-monsoonal contributions, it is the only and probably the best proxy available to reflect the past changes of global monsoon. However, the utility of CH4 as a proxy of monsoon changes at any specific location is compromised by its bi-hemispheric nature.

Fig.1 The relation of the amount of sunlight at low-latitude in the northern and southern hemispheres and CH4 of the second group. (Image by GUO)

Fig.2 The change of millennium-scale atmospheric CH4 concentration. (Image by GUO)

Guo, Z.T., Zhou, X. and Wu, H.B., Glacial-interglacial water cycle, global monsoon and atmospheric methane changes. Climate Dynamics. DOI: 10.1007/s00382-011-1147-5 (See More>> )

 

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