The vegetation and monsoon variations at the desert-loess transition belt at Midiwan in northern China for the last 13 ka
Fine-resolution palaeovegetation and palaeomonsoon proxies for the last 13 ka have been established at the desert-loess transition belt in northern China. These are based on pollen, organic carbon and delta(13)C analysis of samples from a peat section at Midiwan. Results show that the palaeovegetati...
Published in: | The Holocene |
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Main Authors: | , , , |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
ARNOLD, HODDER HEADLINE PLC
2003
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Subjects: | |
Online Access: | http://ir.ieecas.cn/handle/361006/11924 https://doi.org/10.1191/0959683603hl664rr |
Summary: | Fine-resolution palaeovegetation and palaeomonsoon proxies for the last 13 ka have been established at the desert-loess transition belt in northern China. These are based on pollen, organic carbon and delta(13)C analysis of samples from a peat section at Midiwan. Results show that the palaeovegetation underwent nine major changes: desert-grassland, grassland, semi-desert, humid grassland, desert, sparse-wood-grassland, steppe, humid grassland and desert-grassland. An interval with semi-desert, humid grassland and desert is associated with rapid oscillation events of cold-dry conditions (11200 -10600 C-14 yr BP) to cool-humid conditions (10600 - 10200 C-14 yr BP), followed by a change to a cold-dry climate (10200 - 10000 C-14 yr BP). The Holocene optimum (10000 - 7500 C-14 yr BP) and another humid interval (4500 - 3500 C-14 yr BP) have also been detected in the area. During the last 3000 years, dry conditions have prevailed and human impact may have affected the location of desert-loess transition zone. The record therefore shows a sensitive response to climate on sub-Milankovitch timescales, and this suggests that possible forcing factors linked to processes in the north Atlantic and their influence on the Northern Hemisphere Westerlies, and the South China Sea and its influence on Summer Monsoon precipitation, have been important controls on climates and human activity in eastern Asia. |
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