國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)

國際海洋古全球變遷研究計劃 IMAGES (International Marine Past Global Change Study) 第三航次在1997 年6 月於南中國海採得八支高品質深海長岩心 (平均每支岩心34 公尺長)。本計劃分析其中一支位於越南東南外海岩心MD972151 （8 o 43.73’N, 109 o 52.17’E ；水深1589 公尺）的古季風/古海洋記錄，並探討引起南中國海古氣候變遷的最主要機制。高解析度碳酸鈣含量與長鏈碳不飽和脂肪酸分析，顯示位在北半球低緯度南中國海高頻率的古海洋變遷現象，不但與高緯度格陵蘭GISP II 冰岩心的氧同位素值（...

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Bibliographic Details
Main Author:	黃奇瑜
Format:	Report
Language:	Chinese
Published:	臺北市：國立臺灣大學地質科學系暨研究所 1998
Subjects:	南中國海; 千年尺度; 長鏈碳不飽和指標 South China Sea; millennial-scale Greenland Sunda GISP Greenland ice cores
Online Access:	http://ntur.lib.ntu.edu.tw/handle/246246/11712 http://ntur.lib.ntu.edu.tw/bitstream/246246/11712/1/872611M002004.pdf

id	ftntaiwanuniv:oai:140.112.114.62:246246/11712
record_format	openpolar
spelling	ftntaiwanuniv:oai:140.112.114.62:246246/11712 2023-05-15T16:19:49+02:00 國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I) Variability of Paleomonsoon and paleoceanography of the South China Sea and West Philippine Sea in the last 300Kyrs (I) 黃奇瑜計畫年度：87;起迄日期：1997-08-01/1998-10-31 1998 application/pdf 26200 bytes http://ntur.lib.ntu.edu.tw/handle/246246/11712 http://ntur.lib.ntu.edu.tw/bitstream/246246/11712/1/872611M002004.pdf zh-TW zh_TW chi 臺北市：國立臺灣大學地質科學系暨研究所國立臺灣大學地質科學系暨研究所南中國海; 千年尺度; 長鏈碳不飽和指標 South China Sea; millennial-scale report 1998 ftntaiwanuniv 2016-02-19T23:12:20Z 國際海洋古全球變遷研究計劃 IMAGES (International Marine Past Global Change Study) 第三航次在1997 年6 月於南中國海採得八支高品質深海長岩心 (平均每支岩心34 公尺長)。本計劃分析其中一支位於越南東南外海岩心MD972151 （8 o 43.73’N, 109 o 52.17’E ；水深1589 公尺）的古季風/古海洋記錄，並探討引起南中國海古氣候變遷的最主要機制。高解析度碳酸鈣含量與長鏈碳不飽和脂肪酸分析，顯示位在北半球低緯度南中國海高頻率的古海洋變遷現象，不但與高緯度格陵蘭GISP II 冰岩心的氧同位素值（反應岩心位置的地面溫度）千年尺度變化現象是相同，且變化時間幾乎是同時可相對比的。當南海岩心中有孔蟲化石殼體氧同位素值越負值時，碳酸鈣含量越高，Uk37 SST 也越高，此時GISP II 冰岩心的氧同位素值越正值。如果比較低緯度南中國海岩心古季風/古海洋指標變化曲線與位於中緯度中國黃土層序顆粒變化曲線（冬季風強度指標）時，也可以發現兩者間的正相關。這種北半球低、中、高緯度海洋、大陸、冰帽古氣候的同時性遙相關性，顯示千年至萬年尺度南中國海氣候變化主要受控於冰川體積大小的改變。而後者除了受控於地球—太陽行星軌道因素外，可能尚有地球內部氣候回饋作用的影響。 High resolution records of an IMAGES deep-sea core (MD 972151; 8 o 43.73’N, 109 o 52.17’E at water depth of 1,598 m) from the semi-closed South China Sea (SCS) reveal a millennial-scale paleoclimatic fluctuations with D-O cycles and Heinrich events reported from the high latitude regions in the Northern Hemisphere. In a long-term Milankovitch orbital time scale, carbonate contents and alkenone stratigraphy are parallel to planktic oxygen isotope stratigraphy. In a short-term millennial scale, both carbonate content and U k’ 37 SST are rapidly fluctuated in a high frequency like Greenland ice cores. In interglacial and the warm interstadial events in the last glacial time, U k’ 37 SST (27-28.5 ℃ in Stages 1 and 5; 25.5-26.5 ℃ in interstadial events) and carbonate contents (20-25 % in Stages 1 and 5; 10-15 % in interstadial events) are relatively high. In contrast, in the last glaciation (Stages 2-3-4), U k’ 37 SST and carbonate contents are relatively low, especially in the stadial events (SST: 24-24.5 ℃, CaCO3 : 3-5 %). Both carbonate contents and U k’ 37 SST in the SCS are primarily controlled by ice volume fluctuations and paleomonsoon conditions. Increase of ice volume in the last glacial time enhanced the atmospheric Siberian high pressure to intensify winter monsoon, thus decreased U k’ 37 SST in the SCS. Meantime, increase of ice volume also resulted in a low standing of sea level, thus exposed the Sunda Shelf to contribute much continental materials to dilute carbonate contents in the SCS marine sediments. The South China Sea paleoceanography is also correlated with paleomonsoon records in the Chinese Loess Plateau, the lower U k’ 37 SST (the stronger winter paleomonsoon) in the SCS the coarser grain sizes in the Chinese loess sequences. Both Milankovitch orbital forcing and the rapid earth internal interactions of ice-atmosphere-ocean climate systems are responsible for millennial-scale paleoclimatic tele-connections among Greenland ice cores, Chinese loess sequences and South China Sea deep-sea core. Report GISP Greenland Greenland ice cores National Taiwan University Institutional Repository (NTUR) Greenland Sunda ENVELOPE(-6.982,-6.982,62.205,62.205)
institution	Open Polar
collection	National Taiwan University Institutional Repository (NTUR)
op_collection_id	ftntaiwanuniv
language	Chinese
topic	南中國海; 千年尺度; 長鏈碳不飽和指標 South China Sea; millennial-scale
spellingShingle	南中國海; 千年尺度; 長鏈碳不飽和指標 South China Sea; millennial-scale 黃奇瑜國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
topic_facet	南中國海; 千年尺度; 長鏈碳不飽和指標 South China Sea; millennial-scale
description	國際海洋古全球變遷研究計劃 IMAGES (International Marine Past Global Change Study) 第三航次在1997 年6 月於南中國海採得八支高品質深海長岩心 (平均每支岩心34 公尺長)。本計劃分析其中一支位於越南東南外海岩心MD972151 （8 o 43.73’N, 109 o 52.17’E ；水深1589 公尺）的古季風/古海洋記錄，並探討引起南中國海古氣候變遷的最主要機制。高解析度碳酸鈣含量與長鏈碳不飽和脂肪酸分析，顯示位在北半球低緯度南中國海高頻率的古海洋變遷現象，不但與高緯度格陵蘭GISP II 冰岩心的氧同位素值（反應岩心位置的地面溫度）千年尺度變化現象是相同，且變化時間幾乎是同時可相對比的。當南海岩心中有孔蟲化石殼體氧同位素值越負值時，碳酸鈣含量越高，Uk37 SST 也越高，此時GISP II 冰岩心的氧同位素值越正值。如果比較低緯度南中國海岩心古季風/古海洋指標變化曲線與位於中緯度中國黃土層序顆粒變化曲線（冬季風強度指標）時，也可以發現兩者間的正相關。這種北半球低、中、高緯度海洋、大陸、冰帽古氣候的同時性遙相關性，顯示千年至萬年尺度南中國海氣候變化主要受控於冰川體積大小的改變。而後者除了受控於地球—太陽行星軌道因素外，可能尚有地球內部氣候回饋作用的影響。 High resolution records of an IMAGES deep-sea core (MD 972151; 8 o 43.73’N, 109 o 52.17’E at water depth of 1,598 m) from the semi-closed South China Sea (SCS) reveal a millennial-scale paleoclimatic fluctuations with D-O cycles and Heinrich events reported from the high latitude regions in the Northern Hemisphere. In a long-term Milankovitch orbital time scale, carbonate contents and alkenone stratigraphy are parallel to planktic oxygen isotope stratigraphy. In a short-term millennial scale, both carbonate content and U k’ 37 SST are rapidly fluctuated in a high frequency like Greenland ice cores. In interglacial and the warm interstadial events in the last glacial time, U k’ 37 SST (27-28.5 ℃ in Stages 1 and 5; 25.5-26.5 ℃ in interstadial events) and carbonate contents (20-25 % in Stages 1 and 5; 10-15 % in interstadial events) are relatively high. In contrast, in the last glaciation (Stages 2-3-4), U k’ 37 SST and carbonate contents are relatively low, especially in the stadial events (SST: 24-24.5 ℃, CaCO3 : 3-5 %). Both carbonate contents and U k’ 37 SST in the SCS are primarily controlled by ice volume fluctuations and paleomonsoon conditions. Increase of ice volume in the last glacial time enhanced the atmospheric Siberian high pressure to intensify winter monsoon, thus decreased U k’ 37 SST in the SCS. Meantime, increase of ice volume also resulted in a low standing of sea level, thus exposed the Sunda Shelf to contribute much continental materials to dilute carbonate contents in the SCS marine sediments. The South China Sea paleoceanography is also correlated with paleomonsoon records in the Chinese Loess Plateau, the lower U k’ 37 SST (the stronger winter paleomonsoon) in the SCS the coarser grain sizes in the Chinese loess sequences. Both Milankovitch orbital forcing and the rapid earth internal interactions of ice-atmosphere-ocean climate systems are responsible for millennial-scale paleoclimatic tele-connections among Greenland ice cores, Chinese loess sequences and South China Sea deep-sea core.
format	Report
author	黃奇瑜
author_facet	黃奇瑜
author_sort	黃奇瑜
title	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
title_short	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
title_full	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
title_fullStr	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
title_full_unstemmed	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)
title_sort	國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(i)
publisher	臺北市：國立臺灣大學地質科學系暨研究所
publishDate	1998
url	http://ntur.lib.ntu.edu.tw/handle/246246/11712 http://ntur.lib.ntu.edu.tw/bitstream/246246/11712/1/872611M002004.pdf
op_coverage	計畫年度：87;起迄日期：1997-08-01/1998-10-31
long_lat	ENVELOPE(-6.982,-6.982,62.205,62.205)
geographic	Greenland Sunda
geographic_facet	Greenland Sunda
genre	GISP Greenland Greenland ice cores
genre_facet	GISP Greenland Greenland ice cores
op_rights	國立臺灣大學地質科學系暨研究所
_version_	1766006260054884352

國際海洋古全球變遷研究─(總計畫及子計畫一)過去三十萬年以來的南海及西菲律賓海的古季風與古海洋變遷(I)

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