Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before

The vermiculated red soil (VRS) in southern China is widely distributed in the region south of the Yangtze River, covering an area of about 2.2 × 106 km2. Chronological studies consistently indicate a mid-Pleistocene age of the VRS, correlative to the S4 and S5 soil units in the Loess Plateau in no...

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Main Authors: Yin, Qiuzhen, Guo, Zhengtang
Format: Conference Object
Language:English
Published: 2006
Subjects:
EPICA
Online Access:http://hdl.handle.net/2078/122721
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spelling ftunivlouvain:oai:dial.uclouvain.be:boreal:122721 2024-05-19T07:39:46+00:00 Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before Yin, Qiuzhen Guo, Zhengtang 2006 http://hdl.handle.net/2078/122721 eng eng boreal:122721 http://hdl.handle.net/2078/122721 info:eu-repo/semantics/conferenceObject 2006 ftunivlouvain 2024-04-24T01:39:46Z The vermiculated red soil (VRS) in southern China is widely distributed in the region south of the Yangtze River, covering an area of about 2.2 × 106 km2. Chronological studies consistently indicate a mid-Pleistocene age of the VRS, correlative to the S4 and S5 soil units in the Loess Plateau in northern China and to marine ï¤18O stages 11, 13, and 15. Soil micromorphological, mineralogical and chemical characteristics of the VRS indicate an extremely strong East Asian summer monsoon in mid-Pleistocene. What might be the origin of these strong monsoons climate documented by VRS, S4 and S5 soils? Prell and Kutzbach (1987) concluded that under interglacial conditions, increased northern hemisphere solar radiation produce strong East Asian summer monsoon. It is remarkable that around the peak of MIS-11, -13 and -15, such maxima also occur. For example for these three MIS, at 60°N in June, insolation is 34, 48 and 55 Wm-2 above the present-day value of 476 Wm-2. Does it mean that the conclusion of Prell and Kutzbach offering an astronomical origin to the strong East Asia monsoon may be extrapolated to the interglacials MIS-11 to MIS-15? Apparently not. Deep-sea records reveal indeed that MIS-13 and -15 are more glaciated than the following interglacials MIS-11 to -1. Moreover, ice-records from EPICA document a lower-than-average temperature for the Southern Hemisphere during these interglacials, opposite to the warm extreme reflected by the northern hemispheric soils in China. The CO2 concentration during MIS-13 and MIS-15 is also lower than during the other interglacials. Actually, the amplitude of the glacial-interglacial cycles is significantly reduced before MIS-11 in all these cores with cool interglacials and cold glacials. The great warmth and humidity of VRS, S4, S5-1 and S5-3 soils cannot therefore be easily related to global ice-volume variations as they appear to be exceptional, especially S5-1, whereas the interglacials are on the contrary much less pronounced. Although it remains to demonstrate from ... Conference Object EPICA DIAL@UCLouvain (Université catholique de Louvain)
institution Open Polar
collection DIAL@UCLouvain (Université catholique de Louvain)
op_collection_id ftunivlouvain
language English
description The vermiculated red soil (VRS) in southern China is widely distributed in the region south of the Yangtze River, covering an area of about 2.2 × 106 km2. Chronological studies consistently indicate a mid-Pleistocene age of the VRS, correlative to the S4 and S5 soil units in the Loess Plateau in northern China and to marine ï¤18O stages 11, 13, and 15. Soil micromorphological, mineralogical and chemical characteristics of the VRS indicate an extremely strong East Asian summer monsoon in mid-Pleistocene. What might be the origin of these strong monsoons climate documented by VRS, S4 and S5 soils? Prell and Kutzbach (1987) concluded that under interglacial conditions, increased northern hemisphere solar radiation produce strong East Asian summer monsoon. It is remarkable that around the peak of MIS-11, -13 and -15, such maxima also occur. For example for these three MIS, at 60°N in June, insolation is 34, 48 and 55 Wm-2 above the present-day value of 476 Wm-2. Does it mean that the conclusion of Prell and Kutzbach offering an astronomical origin to the strong East Asia monsoon may be extrapolated to the interglacials MIS-11 to MIS-15? Apparently not. Deep-sea records reveal indeed that MIS-13 and -15 are more glaciated than the following interglacials MIS-11 to -1. Moreover, ice-records from EPICA document a lower-than-average temperature for the Southern Hemisphere during these interglacials, opposite to the warm extreme reflected by the northern hemispheric soils in China. The CO2 concentration during MIS-13 and MIS-15 is also lower than during the other interglacials. Actually, the amplitude of the glacial-interglacial cycles is significantly reduced before MIS-11 in all these cores with cool interglacials and cold glacials. The great warmth and humidity of VRS, S4, S5-1 and S5-3 soils cannot therefore be easily related to global ice-volume variations as they appear to be exceptional, especially S5-1, whereas the interglacials are on the contrary much less pronounced. Although it remains to demonstrate from ...
format Conference Object
author Yin, Qiuzhen
Guo, Zhengtang
spellingShingle Yin, Qiuzhen
Guo, Zhengtang
Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
author_facet Yin, Qiuzhen
Guo, Zhengtang
author_sort Yin, Qiuzhen
title Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
title_short Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
title_full Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
title_fullStr Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
title_full_unstemmed Exceptional East Asian summer monsoons during interglacials 400 kyrs ago and before
title_sort exceptional east asian summer monsoons during interglacials 400 kyrs ago and before
publishDate 2006
url http://hdl.handle.net/2078/122721
genre EPICA
genre_facet EPICA
op_relation boreal:122721
http://hdl.handle.net/2078/122721
_version_ 1799479351457087488

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