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Paleoenvironmental significance of compound-specific δ13C variations in n-alkanes in the Hongyuan peat sequence from southwest China over the last 13 ka
Title: | Paleoenvironmental significance of compound-specific δ13C variations in n-alkanes in the Hongyuan peat sequence from southwest China over the last 13 ka |
Authors: | Yamamoto, Shinya Browse this author | Kawamura, Kimitaka Browse this author →KAKEN DB | Seki, Osamu Browse this author | Meyers, Philip A. Browse this author | Zheng, Yanhong Browse this author | Zhou, Weijian Browse this author |
Keywords: | peat | stable carbon isotopes | n-alkane | leaf wax | Holocene Climate Optimum | Asian monsoon |
Issue Date: | May-2010 |
Publisher: | Elsevier |
Journal Title: | Organic Geochemistry |
Volume: | 41 |
Issue: | 5 |
Start Page: | 491 |
End Page: | 497 |
Publisher DOI: | 10.1016/j.orggeochem.2010.01.006 |
Abstract: | Compound-specific 13C/12C ratios of the C23, C25, C27, C29 and C31 n-alkanes in the Hongyuan peat sequence from southwest China were measured to decipher paleoenvironmental information recorded in the δ13C variations over the last 13 ka. The δ13C values of the n-alkanes range between -35.4 and -30.5‰, which fall within the range of those of modern C3 peat-forming vegetation. However, their vertical trends do not match with those in the δ13C value of the C3 peat-forming plant cellulose. Such a discrepancy between the δ13C profiles implies that the n-alkane δ13C values are unlikely to reflect the emersed aquatic plant signals in the bog. Because submerged/floating aquatic plants are major contributors of mid-chain (C23 and C25) n-alkanes in the Hongyuan peat sequence, the decoupling between the C23 and C25 n-alkanes and the peat cellulose likely reflects these mid-chain homologues primarily record the isotopic signals of submerged/floating aquatic plants. The stratigraphic profile of δ13C values of submerged/floating aquatic plant n-alkanes (C23 and C25) reveals two prominent positive excursions (0.8 to 2.4‰) during the early to middle Holocene. The excursions coincide with peat accumulation maxima and stronger Indian monsoon activity in southwest China, indicating that the δ13C variations in submerged/floating aquatic plants are closely related to changes in bog primary productivity controlled by the Asian monsoon activity. |
Type: | article (author version) |
URI: | http://hdl.handle.net/2115/43101 |
Appears in Collections: | 低温科学研究所 (Institute of Low Temperature Science) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)
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Submitter: 山本 真也
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