A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon

The Dongge Cave speleothem δ18O record, which lies in the Pearl River basin (China), has been interpreted as recording a regional decline in Asian Summer Monsoon precipitation over the last 6.5 ka. The same overall trend is seen in the bulk sedimentary organic δ13Corg record from a core in the Pearl...

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Main Authors: Strong, D., Flecker, R., Valdes, P.J., Wilkinson, I.P., Rees, J.G., Michaelides, K., Zong, Y.Q., Lloyd, J.M., Pancost, R.D., Yu, Fengling.
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/106008
http://hdl.handle.net/10220/17913
http://dx.doi.org/10.1016/j.quascirev.2013.07.034
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spelling sg-ntu-dr.10356-1060082019-12-06T22:02:49Z A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon Strong, D. Flecker, R. Valdes, P.J. Wilkinson, I.P. Rees, J.G. Michaelides, K. Zong, Y.Q. Lloyd, J.M. Pancost, R.D. Yu, Fengling. The Dongge Cave speleothem δ18O record, which lies in the Pearl River basin (China), has been interpreted as recording a regional decline in Asian Summer Monsoon precipitation over the last 6.5 ka. The same overall trend is seen in the bulk sedimentary organic δ13Corg record from a core in the Pearl River Estuary. However, the two records differ in detail and the regional nature of the Dongge palaeoprecipitation signal has therefore been questioned. Our study re-evaluates both records by constructing, for the same estuarine core, biomarker and compound-specific δ13C records, which have better constrained terrestrial and marine end members than δ13Corg, providing additional insights into the evolution of the Asian Summer Monsoon. The Branched Isoprenoidal Tetraether (BIT) index reflects the ratio of soil versus marine organic matter. The BIT record from the estuarine core co-varies with the Dongge Cave δ18O record suggesting the two share a common control which is likely to be driven by regional climate. By contrast, the sterols, n-alcohols and n-fatty acid ratios show the same overall trend as Dongge, but parallel the δ13Corg record's variability between 6.5 and 2 ka indicating a partial decoupling between soil and land-plant organic matter fluxes in the Pearl River Basin. There is clear divergence between the biomarker and 13Corg records from 2 ka to present. Analysis of the leaf wax δ13C suggests that this results from an abrupt change in vegetation probably resulting from local, anthropogenic cultivation two thousand years ago. The basin scale of these estuarine records equates to up to 15 grid cells in typical Earth System Models used for simulating global climate. This permits comparison of Palaeoclimate Model Intercomparison Project simulations of the mid-Holocene with spatially equivalent data relating to the Summer Asian Monsoon, for the first time. 2013-11-29T04:53:10Z 2019-12-06T22:02:49Z 2013-11-29T04:53:10Z 2019-12-06T22:02:49Z 2013 2013 Journal Article Strong, D., Flecker, R., Valdes, P. J., Wilkinson, I. P., Rees, J. G., Michaelides, K., et al. (2013). A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon. Quaternary science reviews, 78, 65-76. 0277-3791 https://hdl.handle.net/10356/106008 http://hdl.handle.net/10220/17913 http://dx.doi.org/10.1016/j.quascirev.2013.07.034 en Quaternary science reviews
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description The Dongge Cave speleothem δ18O record, which lies in the Pearl River basin (China), has been interpreted as recording a regional decline in Asian Summer Monsoon precipitation over the last 6.5 ka. The same overall trend is seen in the bulk sedimentary organic δ13Corg record from a core in the Pearl River Estuary. However, the two records differ in detail and the regional nature of the Dongge palaeoprecipitation signal has therefore been questioned. Our study re-evaluates both records by constructing, for the same estuarine core, biomarker and compound-specific δ13C records, which have better constrained terrestrial and marine end members than δ13Corg, providing additional insights into the evolution of the Asian Summer Monsoon. The Branched Isoprenoidal Tetraether (BIT) index reflects the ratio of soil versus marine organic matter. The BIT record from the estuarine core co-varies with the Dongge Cave δ18O record suggesting the two share a common control which is likely to be driven by regional climate. By contrast, the sterols, n-alcohols and n-fatty acid ratios show the same overall trend as Dongge, but parallel the δ13Corg record's variability between 6.5 and 2 ka indicating a partial decoupling between soil and land-plant organic matter fluxes in the Pearl River Basin. There is clear divergence between the biomarker and 13Corg records from 2 ka to present. Analysis of the leaf wax δ13C suggests that this results from an abrupt change in vegetation probably resulting from local, anthropogenic cultivation two thousand years ago. The basin scale of these estuarine records equates to up to 15 grid cells in typical Earth System Models used for simulating global climate. This permits comparison of Palaeoclimate Model Intercomparison Project simulations of the mid-Holocene with spatially equivalent data relating to the Summer Asian Monsoon, for the first time.
format Article
author Strong, D.
Flecker, R.
Valdes, P.J.
Wilkinson, I.P.
Rees, J.G.
Michaelides, K.
Zong, Y.Q.
Lloyd, J.M.
Pancost, R.D.
Yu, Fengling.
spellingShingle Strong, D.
Flecker, R.
Valdes, P.J.
Wilkinson, I.P.
Rees, J.G.
Michaelides, K.
Zong, Y.Q.
Lloyd, J.M.
Pancost, R.D.
Yu, Fengling.
A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
author_facet Strong, D.
Flecker, R.
Valdes, P.J.
Wilkinson, I.P.
Rees, J.G.
Michaelides, K.
Zong, Y.Q.
Lloyd, J.M.
Pancost, R.D.
Yu, Fengling.
author_sort Strong, D.
title A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
title_short A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
title_full A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
title_fullStr A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
title_full_unstemmed A new regional, mid-Holocene palaeoprecipitation signal of the Asian Summer Monsoon
title_sort new regional, mid-holocene palaeoprecipitation signal of the asian summer monsoon
publishDate 2013
url https://hdl.handle.net/10356/106008
http://hdl.handle.net/10220/17913
http://dx.doi.org/10.1016/j.quascirev.2013.07.034
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