利用重力資料估算南中國海莫荷面深度

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何佳晉(Chia-Chin Ho) 查詢紙本館藏

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地球科學學系

論文名稱

利用重力資料估算南中國海莫荷面深度

相關論文

★ 苗栗地區之重力研究	★ 利用重力資料估算台灣海峽之莫霍面深度
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★ 利用地磁資料探討磁暴現象	★ 大屯火山群之三維速度構造
★ 屏東麓山帶之地震觀測	★ 利用線形地震陣列探討台灣中南部之二維構造
★ 台灣中部二維密度構造之探討	★ 震源破裂過程及地表強地動特性之陣列分析研究
★ 台東地區三維速度構造	★ 利用重力資料探討台中盆地與埔里盆地之二維地下構造
★ 利用接收函數法分析台灣深部地殼構造	★ 1999年集集大地震前後地震活動、震源機制及地殼應力分佈與變化之研究
★ 台灣地區全磁場時空變化之研究(1989-2004年)	★ 遠近地震所引起地下水位變化之研究

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摘要(中)

南中國海位於歐亞大陸的東南方、屬於歐亞大陸板塊的一部分。近十幾年來，成為研究海底擴張過程的一個天然場所。在南海北部有一系列多頻道震測以及反射震測探勘，但由於地震測深局限於某些特定點以及剖面，不能大範圍的確定南海海域的深部地殼結構。然而重力數據具有可以反演大範圍大尺度構造的優點。在地球物理研究上可以與地震磁力等數據相結合而取得一個良好的效果。本研究利用了南海周圍船測重力資料以及衛星重力資料。經過資料整理之後得到南海地區的重力異常，之後消除海水層、沉積層及海底地形造成的重力效應，得到南海區域布蓋重力異常。代入Parker-Oldenburg關係式計算莫荷面深度，得到南海區域的莫荷面深度起伏。在南海海盆西北方及中沙群島，莫荷面深度約為15至24公里，為一個大陸邊緣的大陸性地殼特徵。在南海海盆內部的莫荷面深度為10公里，其重力異常特性及莫荷面深度都顯示其為一個已達均衡的海洋性地殼，在南海擴張中心周圍的地殼厚度由中心向外的地殼厚度逐漸增厚。呈現一個厚-薄-厚的走向。在南海海盆內部的海底火山處，因為火成作用的影響，其局部地區會有地殼增厚的現象。

摘要(英)

The South China Sea (SCS) is a part of the western Pacific Ocean, bounded by Eurasian Plate in the west and Indo-Australian Plate and Pacific Plate in the east. In the past, several surveys with multi-channel seismic were investigated in SCS. But the seismic data are limited by some specific points or profiles. And then, Gravity study provides useful geophysical information in the shallow depths and large regional area. It’s can be helpful to investigate the analysis.
In this study, the gravity data is used marine and satellite of free-air anomalies, bathymetric model and sediment thickness data from NGDC in South China Sea area. Removing gravity effects generated by the water, sediment layer and seafloor topography, the regional Bouguer gravity anomaly is obtained. Moho depth is computed by the Parker-Oldenburg method from the when regional Bouguer gravity data set. In results, it indicates that the Moho depth beneath in SCS is about 10 km. The characteristic of gravity anomaly and Moho depth indicated the oceanic crust with Isostasy. The Moho depth is 15~24 km in the northwest SCS and Zhongsha Islands. It’s thin continental crust. It suggested that it exist two crust types including the thin continental and oceanic crust in South China Sea area. Moho depth is relatively shallower in spread axis in the central basin and thickens toward both sides of the spread axis.

關鍵字(中)

★ 重力異常
★ 南中國海
★ 莫荷面

關鍵字(英)

★ Gravity anomaly
★ South China sea
★ Moho depth

論文目次

目　　錄
頁數
中文摘要 I
Abstract II
致謝 III
目錄 IV
圖目錄 VI
表目錄 VIII
第一章緒論 1
1.1 研究動機與目的 1
1.2 文獻回顧 2
1.3 本文內容 3
第二章研究區域概述 7
2.1 研究區域位置概述 7
2.2 研究區域地質概述 7
第三章重力修正與重力異常 16
3.1 重力修正 16
3.1.1緯度修正(Latitude Correction) 16
3.1.2自由空間修正(Free-air Correction) 17
3.1.3布蓋修正(Bouguer Correction) 18
3.1.4地形修正(Terrain Correction) 18
3.2 重力異常 20
3.2.1自由空間異常(Free-air Anomaly) 20
3.2.2布蓋異常(Bouguer Anomaly) 20
3.2.3區域重力異常(Regional Gravity Anomaly) 21
3.2.4剩餘重力異常(Residual Gravity Anomaly) 22
3.2 重力資料處理 22
3.3.1海水層與沉積層置換成地殼 23
第四章南中國海莫荷面深度計算 37
4.1 莫荷面深度計算 37
4.2 討論 39
4.2.1南中國海海盆以及鄰近重力異常 39
4.2.2莫荷面起伏合理性 40
4.2.3剖面解釋 41
4.2.3.1 AA剖面 41
4.2.3.2 BB’剖面 42
4.2.3.3 CC’剖面 43
第五章結論 54
參考文獻 56

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指導教授

顏宏元、黃柏壽
(Horng-Yuan Yen、Bor-Shouh Huang)

審核日期

2013-8-16

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