從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化

Northern Vietnam is an ideal place to address the influence of Asian summer monsoon (ASM) or Indian Ocean monsoon (IOM) in the Indo-China Peninsula area. Besides, speleothem is an excellent material of terrestrial climate proxy due to continuous growth over thousands of years in different regions an...

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Main Authors:	阮志勇, Chi-Dung, Nguyen
Other Authors:	陳于高, Yue-Gau, Chen, 臺灣大學:地質科學研究所
Format:	Thesis
Language:	English
Published:	2009
Subjects:	No Speleothem;Paleoclimate;Oxygen Isotope;Asian monsoon;Vietnam Greenland Hulu Indian Greenland ice core ice core North Atlantic
Online Access:	http://ntur.lib.ntu.edu.tw/handle/246246/182923 http://ntur.lib.ntu.edu.tw/bitstream/246246/182923/1/ntu-98-R96224219-1.pdf

id	ftntaiwanuniv:oai:140.112.114.62:246246/182923
record_format	openpolar
spelling	ftntaiwanuniv:oai:140.112.114.62:246246/182923 2023-05-15T16:30:43+02:00 從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化 A decadal-resolution stalagmite record of Asian summer monsoon during 22-30 thousand years before present in Northwestern Vietnam 阮志勇 Chi-Dung, Nguyen 陳于高 Yue-Gau, Chen 臺灣大學:地質科學研究所 2009 application/pdf 3197802 bytes http://ntur.lib.ntu.edu.tw/handle/246246/182923 http://ntur.lib.ntu.edu.tw/bitstream/246246/182923/1/ntu-98-R96224219-1.pdf en en_US eng No Speleothem;Paleoclimate;Oxygen Isotope;Asian monsoon;Vietnam thesis 2009 ftntaiwanuniv 2016-02-20T03:20:23Z Northern Vietnam is an ideal place to address the influence of Asian summer monsoon (ASM) or Indian Ocean monsoon (IOM) in the Indo-China Peninsula area. Besides, speleothem is an excellent material of terrestrial climate proxy due to continuous growth over thousands of years in different regions and can be dated precisely by U-Th dating. Twenty-two 230Th ages and 506 δ18O data were obtained from a stalagmite 2.9-3. The chronology is from 22.87±0.07 ka in the top to 30.21±0.12 ka in the bottom with the best precision as 62 years, but one hiatus was found in 27.8-25.4 ka. This study followed Wang et al. (2001) thought and attributed the δ18O decreasing to the amount effect of summer precipitation. Two implied strong ASM periods from 30.21 ka to 27.77 ka were temporally consistent and isotopically comparable with the Hulu record, which confirmed the north Indo-China Peninsula was mainly influenced by ASM. This study thus supported the synchronicity of millennial events all over the world. However, millennial events were punctuated by hundreds-of-year episodes and it left the debatable and unsolved questions for existing and timing of centennial-scale events. Comparing the 2.9-3 record to the Greenland ice core record, three discrepancies were presented. First, the onset of the strong ASM in 30.18-28.47 ka led the GIS 4 warming event about 1.28 ± 0.9 ka. Second, the duration of 1.71 kyrs for the ASM is longer than that of 0.5-0.6 kyrs for GIS4. Third, the symmetry-type strong ASM episode contrasted to the see-saw-type millennial event in the north Atlantic. Lastly based on the spatial comparisons and the oxygen isotope features, the hypothesis was preferred that changes in the dynamics of the tropical atmosphere-ocean system resulted in the cyclic millennial events. List of figure vist of tables viibstract viiihapter 1 Introduction 1.1 Introduction…………………………………………………………………. 1.1.1 Purpose of this study………………………………………….………. 1.1.2 The principle of speleothem as a paleoclimatic archive………………. 2.2 Modern Climate of study area………………………………………………. 6.3 Sampled location………………………………….…………….…………. 6hapter 2. Material and experiments 9.1 Stable isotopes………………………………………………………………. 9.2 230Th dating…………………………………………………………………… 11.2.1 Subsampling process and treatment………………………………. 12.2.2 Sample digestion………………………………………………………. 12.2.3 Iron co-precipitation………………………………………………. 12.2.4 Collection of uranium and thorium……………………………………. 13.2.5 U-Th Measurement - Thermo Electron NEPTUNE………………. 13hapter 3. Results 15.1 The age model……………………………………………………………… 15.2 Stable isotope equilibrium …………………………………………………… 19.3 The δ18O record……………………………………………………………. 21hapter 4. Discussion 25.1 Interpretation of δ18O values from northwestern Vietnam record……………. 25.2 Comparison with others records……………………………………………… 26.2.1 Comparison to Hulu record……………………………………………. 28.2.2 Comparison to ice core record…………………………………………. 32.3 Mechanism support………………………………………………………… 33hapter 5. Conclusions 35eferences 36ppendix A-1: Stable isotope of MAB for stalagmite 2.9-3 43ppendix A-2: Stable isotope of MAB for stalagmite 2.9-05b 44ppendix B-1: Raw data of stalagmite 2.9-3 45ppendix B-2: Raw data of stalagmite 2.9-05b 52 Thesis Greenland Greenland ice core ice core North Atlantic National Taiwan University Institutional Repository (NTUR) Greenland Hulu ENVELOPE(8.610,8.610,62.837,62.837) Indian
institution	Open Polar
collection	National Taiwan University Institutional Repository (NTUR)
op_collection_id	ftntaiwanuniv
language	English
topic	No Speleothem;Paleoclimate;Oxygen Isotope;Asian monsoon;Vietnam
spellingShingle	No Speleothem;Paleoclimate;Oxygen Isotope;Asian monsoon;Vietnam 阮志勇 Chi-Dung, Nguyen 從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
topic_facet	No Speleothem;Paleoclimate;Oxygen Isotope;Asian monsoon;Vietnam
description	Northern Vietnam is an ideal place to address the influence of Asian summer monsoon (ASM) or Indian Ocean monsoon (IOM) in the Indo-China Peninsula area. Besides, speleothem is an excellent material of terrestrial climate proxy due to continuous growth over thousands of years in different regions and can be dated precisely by U-Th dating. Twenty-two 230Th ages and 506 δ18O data were obtained from a stalagmite 2.9-3. The chronology is from 22.87±0.07 ka in the top to 30.21±0.12 ka in the bottom with the best precision as 62 years, but one hiatus was found in 27.8-25.4 ka. This study followed Wang et al. (2001) thought and attributed the δ18O decreasing to the amount effect of summer precipitation. Two implied strong ASM periods from 30.21 ka to 27.77 ka were temporally consistent and isotopically comparable with the Hulu record, which confirmed the north Indo-China Peninsula was mainly influenced by ASM. This study thus supported the synchronicity of millennial events all over the world. However, millennial events were punctuated by hundreds-of-year episodes and it left the debatable and unsolved questions for existing and timing of centennial-scale events. Comparing the 2.9-3 record to the Greenland ice core record, three discrepancies were presented. First, the onset of the strong ASM in 30.18-28.47 ka led the GIS 4 warming event about 1.28 ± 0.9 ka. Second, the duration of 1.71 kyrs for the ASM is longer than that of 0.5-0.6 kyrs for GIS4. Third, the symmetry-type strong ASM episode contrasted to the see-saw-type millennial event in the north Atlantic. Lastly based on the spatial comparisons and the oxygen isotope features, the hypothesis was preferred that changes in the dynamics of the tropical atmosphere-ocean system resulted in the cyclic millennial events. List of figure vist of tables viibstract viiihapter 1 Introduction 1.1 Introduction…………………………………………………………………. 1.1.1 Purpose of this study………………………………………….………. 1.1.2 The principle of speleothem as a paleoclimatic archive………………. 2.2 Modern Climate of study area………………………………………………. 6.3 Sampled location………………………………….…………….…………. 6hapter 2. Material and experiments 9.1 Stable isotopes………………………………………………………………. 9.2 230Th dating…………………………………………………………………… 11.2.1 Subsampling process and treatment………………………………. 12.2.2 Sample digestion………………………………………………………. 12.2.3 Iron co-precipitation………………………………………………. 12.2.4 Collection of uranium and thorium……………………………………. 13.2.5 U-Th Measurement - Thermo Electron NEPTUNE………………. 13hapter 3. Results 15.1 The age model……………………………………………………………… 15.2 Stable isotope equilibrium …………………………………………………… 19.3 The δ18O record……………………………………………………………. 21hapter 4. Discussion 25.1 Interpretation of δ18O values from northwestern Vietnam record……………. 25.2 Comparison with others records……………………………………………… 26.2.1 Comparison to Hulu record……………………………………………. 28.2.2 Comparison to ice core record…………………………………………. 32.3 Mechanism support………………………………………………………… 33hapter 5. Conclusions 35eferences 36ppendix A-1: Stable isotope of MAB for stalagmite 2.9-3 43ppendix A-2: Stable isotope of MAB for stalagmite 2.9-05b 44ppendix B-1: Raw data of stalagmite 2.9-3 45ppendix B-2: Raw data of stalagmite 2.9-05b 52
author2	陳于高 Yue-Gau, Chen 臺灣大學:地質科學研究所
format	Thesis
author	阮志勇 Chi-Dung, Nguyen
author_facet	阮志勇 Chi-Dung, Nguyen
author_sort	阮志勇
title	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
title_short	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
title_full	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
title_fullStr	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
title_full_unstemmed	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
title_sort	從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化
publishDate	2009
url	http://ntur.lib.ntu.edu.tw/handle/246246/182923 http://ntur.lib.ntu.edu.tw/bitstream/246246/182923/1/ntu-98-R96224219-1.pdf
long_lat	ENVELOPE(8.610,8.610,62.837,62.837)
geographic	Greenland Hulu Indian
geographic_facet	Greenland Hulu Indian
genre	Greenland Greenland ice core ice core North Atlantic
genre_facet	Greenland Greenland ice core ice core North Atlantic
_version_	1766020458212229120

從越南北部高解析度之石筍紀錄探討三萬至二萬二千年前的亞洲夏季季風變化

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