簡易檢索 / 詳目顯示

研究生: 黃志遠
Chih-Yuan Huang
論文名稱: 台灣南部晚更新世恆春西臺地腕足動物化石殼體化學成份反映之環境變遷
Late Pleistocene Environmental change reflected by chemical compositions of brachiopod shells from the west Hengchun Hill, Taiwan
指導教授: 米泓生
Mii, Horng-Sheng
學位類別: 碩士
Master
系所名稱: 地球科學系
Department of Earth Sciences
論文出版年: 2005
畢業學年度: 93
語文別: 中文
論文頁數: 86
中文關鍵詞: 穩定同位素微量元素腕足動物恆春西台地
英文關鍵詞: stable isotopes, trace elements, brachiopod, west Hengchun Hill
論文種類: 學術論文
相關次數: 點閱:295下載:84
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  • 本研究採集恆春地區頭溝剖面及貓鼻頭剖面一系列的腕足動物化石,分析其殼體穩定碳氧同位素及微量元素成份,以提供本地區的海洋性同位素地層記錄,並進一步的解析台灣南部恆春西臺地恆春石灰岩及四溝層的古環境變遷。
    我們根據殼體之發光性及不發光殼體中Mn、Fe、Al、Si等微量元素超過最低偵測值的特性來找出受到成岩作用影響的標本點,排除了受到成岩作用影響的數據後,保存良好的殼體穩定碳氧同位素數值均明顯大於保存度不佳之殼體及圍岩之數值,其δ18O值落在-0.61~1.07之間(平均值為0.15 ± 0.31;1σ),δ13C值落在-0.15~2.62之間(平均值為1.44 ± 0.56),保存良好殼體的Mg/Ca比值介於2.2~6.4mmol/mol之間(平均值為3.9 ± 0.9mmol/mol)。保存良好單一殼體氧同位素數值呈現週期性振盪變化,反映出腕足化石殼體記錄了季節性之變化,這更加證明腕足動物碳酸鈣殼體並無受到成岩作用的影響。同一腕足動物化石腕殼及莖殼的氧同位素數值差異不大,因此腕殼及莖殼應該均能與生長當時周圍海水達到同位素平衡,同層位Pictothyris picta、Lequeus orbicularis、Kikaithyris hanzawai平均δ18O值亦相近,故這三個種屬氧同位素數值均能反映出當時的海洋環境。
    恆春石灰岩平均氧同位素數值比四溝層重約0.4,若該地區的溫度變化不大,則恆春石灰岩較偏向形成於冰期時期之環境狀態。當由恆春石灰岩進入四溝層粉砂質泥岩沉積環境時,顯示著一個海進記錄,但氧同位素數值卻不變,故此時的海進主要應是受到構造運動所造成,冰川效應所導致之全球海水面變化可能沒有或只佔極小部份的影響。四溝層下部至上部的腕足動物殼體δ18O值由0.3逐漸變輕至-0.4,但Mg/Ca比值卻只由4.3變輕至4.0 mmol/mol,若腕足動物Mg/Ca比值可類似有孔蟲應用於Mg/Ca比值溫度方程式,則此0.3 mmol/mol之變化僅相當約0.8℃(δ18O約為0.2)之變化,故四溝層沉積時期應處於一融冰的時期。此外,四溝層中期氧同位素數值有一變大0.3 的變化,若溫度及鹽度效應可略,則數值可能反映出全球海水面下降約30公尺,由於此時期恆春半島還是處於一構造活動較劇烈的區域,因此構造活動抬升加上全球海水面下降的雙重影響,造成此時期於四溝層出現一富含生活於半淡水環境下貝類殼體所組成的生物碎屑石灰岩。

    We have analyzed the chemical compositions of brachiopod fossils collected from Toukou and Szekou profiles, Hengchun, Taiwan to construct the Late Pleistocene environment of southern Taiwan. We have collected 124 specimens. Fifty out of these specimens were determined well preserved based on the shell microstructure, luminescent characteristics, minor and trace element compositions, and isotope compositions of samples analyzed.
    The δ18O and δ13C values of well preserved samples are between -0.61 and 1.07 (0.15 ± 0.31;1σ;N = 175) and between -0.15 and 2.62 (1.44 ± 0.56), respectively. Because the seasonal fluctuation of δ18O values were observed within the single shell, there was no significant difference in δ18O values between brachial and pedicle valves of the same specimens, and there is no significant difference in δ18O values among different genera of the same stratigraphic interval, we concluded that the samples studied were in oxygen isotope equilibrium with the seawater they lived in.
    Sedimentolgic evidence indicate that there was a transgression event from the Hengchun limestone to the overlain Szekou silty mudstone. However, there was no difference in δ18O values crossing this boundary. Therefore, We suggest that this transgression event shown by the facies change, was mainly caused by the tectonic subsidences rather than ice volume effect. We observed the mean δ18O values changed from 0.3 to -0.4 from the bottom of the Szekou Formation to the upper Szekou Formation. The Mg/Ca ratio only showed 0.3 mmol/mol difference (4.3 to 4.0 mmol/mol) between the same interval. Using the Mg/Ca temperature equation established from foraminiferal shells, the 0.3 mmol/mol difference would equivalent to 0.8℃(0.2 in δ18O) change. Thus, the remaining 0.5 difference in δ18O values might indicate decreasing in continental ice volume.

    目錄 頁碼 Abstract………………………………………………………………v 摘要…………………………………………………………………vii 誌謝…………………………………………………………………ix 目錄……………………………………………………………………x 圖目…………………………………………………………………xiii 表目…………………………………………………………………xix 第一章、緒論…………………………………………………………1 1.1前言……………………………………………………1 1.2穩定碳氧同位素的原理及應用………………………2 1.3碳酸鈣殼體微量元素的應用…………………………6 1.4腕足動物及恆春西臺地的相關研究…………………7 1.4.1腕足動物及其應用………………………………7 1.4.2恆春西台地的相關研究…………………………9 1.5研究目的………………………………………………13 第二章、研究區域及標本……………………………………………14 2.1研究區域……………………………………………14 2.1.1恆春石灰岩……………………………………14 2.1.2四溝層…………………………………………16 2.1.3恆春西台地之沉積環境………………………17 2.2腕足動物化石產狀…………………………………19 第三章、研究方法……………………………………………………21 3.1腕足動物化石處理及鑑定…………………………21 3.2腕足動物化石切片標本製作………………………21 3.3穩定碳氧同位素分析………………………………22 3.4微量元素分析………………………………………23 第四章、結果與討論…………………………………………………25 4.1腕足動物化石保存度………………………………25 4.1.1標本觀察………………………………………25 4.1.2透射光及陰極射線顯微鏡下觀察……………30 4.1.3微量元素………………………………………32 4.1.4穩定碳氧同位素………………………………38 4.2穩定同位素紀錄……………………………………40 4.3氧同位素的週期變化與環境意義…………………45 4.4恆春西台地晚更新世環境變遷……………………57 4.4.1氧同位素地層…………………………………57 4.4.2與海洋岩芯氧同位素地層對比之可能性……60 4.4.3恆春西台地晚更新世古環境重建……………62 第五章、結論…………………………………………………………64 參考文獻………………………………………………………………66 附錄一、腕足動物化石種屬鑑定及數量……………………………76 附錄二、穩定同位素分析之數值……………………………………78 附錄三、電子微探針化學元素分析之數值…………………………82 圖目 圖 頁碼 圖1.1腕足動物殼體示意圖(取自Shrock and Twenhofel, 1953)。A:背視;B:側視;C:後視;D:前視……………9 圖1.2恆春西台地地層層序及接觸關係圖,曲折黑線區域代表不整合接觸(符號說明請參照圖1.3;取自吳 及陳,1990) …………………………………………………11 圖1.3恆春西台地地層層序、接觸關係圖及柱狀圖符號說明 (取自吳及陳1990)。………………………………………12 圖2.1恆春西台地地理位置及其北段之地質圖(取自吳及陳, 1990)。………………………………………………………15 圖2.2恆春西臺地晚更新世地層之沉積體系及沉積環境變遷圖(WLT:萬里桐剖面,SGT:蟳廣嘴剖面;SK1: 頭溝剖面;地層剖面符號說明請參照圖1.3;取自 吳及陳1990)。………………………………………………18 圖2.3腕足動物化石採樣層位及其產狀。A:四溝層腕足動物化石產狀(殼體均保持完整);B:頭溝石灰岩體腕足動物化石呈種屬群聚性;C:貓鼻頭石灰岩體腕 足動物化石產狀(地層剖面符號說明請參照圖1.3)。……20 圖3.1切片於透射光顯微鏡(PL)及陰極射線顯微鏡(CL)下觀察 殼體之微細構造並區分殼體發光和不發光的部分。………22 圖3.2電子微探分析標本的影像處理,的位置上方做記號,圖中黑色的點為以針筆做的記號,紅色的點代表要分析的 位置。 ………………………………………………………24 圖4.1各層位標本保存度比較(SK:四溝層;TK:頭溝石灰岩 體;MBT:貓鼻頭石灰岩體)。 …………………………27 圖4.2各層位化石平均殼長、殼寬及殼厚(SK:四溝層;TK: 頭溝石灰岩體;MBT:貓鼻頭石灰岩體)。………………29 圖4.3殼體標本切片(SK1CF01)於透射光(上圖)及陰極射線(下圖)顯微鏡下的微細構造及發光現象。可觀察到有部份 化石殼體構造不明顯,且有再結晶的現象。………………31 圖4.4殼體標本切片(SK1CF01)於透射光(上圖)及陰極射線(下圖)顯微鏡下的微細構造及發光現象。可觀察到發光較明顯的部位主要集中在殼體破裂處、邊緣以及生長紋附 近。……………………………………………………………33 圖4.5殼體標本切片(SK1PP01)於透射光(上圖)及陰極射線(下圖)顯微鏡下的微細構造及發光現象。可觀察到標本殼 體內部有絲狀發光的現象,以及有一明顯發光區塊。……34 圖4.6殼體標本(SK4PP03)切片於透射光(上圖)及陰極射線(下圖)顯微鏡下的微細構造及發光現象。可觀察到在喙部 有較大的發光區域。…………………………………………35 圖4.7恆春西台地晚更新世腕足動物殼體Mn、Fe、Al、Si元素 含量對Ca含量的莫耳比值(單位:mmol/mol)。………37 圖4.8恆春西台地晚更新世腕足動物殼體的δ18O值對δ13C值分 佈圖。…………………………………………………………39 圖4.9頭溝剖面碳氧同位素地層(SK:四溝層;TK:頭溝石灰 岩體;地層剖面符號說明請參照圖1.3;error bars:2σ)。……42 圖4.10貓鼻頭剖面碳氧同位素地層(MBT:貓鼻頭石灰岩體地 層剖面符號說明請參照圖1.3;error bars:2σ)。…43 圖4.11MBT1PP01標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼 (Brachial valve)生長紋的位置。……………………………47 圖4.12 MBT4PP03標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼 (Brachial valve)生長紋的位置。……………………………47 圖4.13 SK1CF01標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………48 圖4.14 SK1CF03標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼 (Brachial valve)生長紋的位置。……………………………48 圖4.15 SK4PP02標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………49 圖4.16 SK4PP04標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………49 圖4.17 SK7CF02標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………50 圖4.18 SK7CF03標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………50 圖4.19 SK7PP03標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………51 圖4.20 SK8Kh02標本中穩定氧同位素數值於殼體內變化圖;圖中各點均為殼體不發光部分,黑色虛線表示腕殼(Brachial valve)生長紋的位置;灰色虛線表示莖殼 (Pedicle valve)生長紋的位置。………………………………51 圖4.21台灣附近海域水深二十公尺四季鹽度變化。(取自國科 會海洋科學研究中心海洋資料庫網頁)……………………52 圖4.22各層平均Mg/Ca比值和各層平均δ18O的比較(TK:頭溝石灰岩體;SK:四溝層;△T℃vsSK1=各層溫度-SK1 溫度)。………………………………………………………55 圖4.23台灣附近海域水深二十公尺四季平均溫度變化。(取自 國科會海洋科學研究中心海洋資料庫網頁)………………56 圖4.24恆春西臺地晚更新世地層之沉積體系、沉積環境及氧同 位素變遷圖(地層剖面符號說明請參照圖1.3;修改自吳 及陳、1990)。…………………………………………………58 圖4.25頭溝及貓鼻頭剖面氧同位素地層嘗試對比海洋岩芯17950-2及SPECMAP氧同位素地層(修改自游, 2002)。………………………………………………………61 表目 表 頁碼 表3.1電子微探針分析各元素的測定時間以及最低偵測值。……24 表4.1 各層位採到的化石數量及標本保存度(SK:四溝層;TK: 頭溝石灰岩體;MBT:貓鼻頭石灰岩體)。………………26 表4.2各層位化石平均殼長、殼寬及殼厚(SK:四溝層;TK: 頭溝石灰岩體;MBT:貓鼻頭石灰岩體)。………………28 表4.3恆春西台地晚更新世腕足動物化石不發光(NL)殼體、發光(L)殼體、發光圍岩(LM)穩定碳氧同位素數值()統計 比較結果。……………………………………………………41

    六角兵吉、牧山鶴彥,1934,高雄州恆春油田調查報告,第660號,台灣總督府殖產局出版。
    方中權、謝凱旋,1985,恆春西台地上新統至更新統的沉積環境:慶祝國立台灣大學成立四十週年地質學術研討會手冊,16-17頁。
    王明惠,1985,恆春西台地之超微化石研究:經濟部中央地質調查所年報73年度,49-56頁。
    王鈺、金鈺玕、方大衛編,1966,腕足動物化石,科學出版社,共702頁。
    半澤正四郎,1931,台灣琉球石灰岩之層位與地形:地理學評論,第七卷,196-213頁。
    石同生、劉平妹、簡淑華、汪中和,1992,電子自旋共振定年法在大南灣層和四溝層貝類化石上的定年研究:中國地質學會慶祝成立七十週年慶冀八十一年會員大會手冊,116頁。
    石再添、蔡文彩、許民陽、目崎茂和、木庭元睛,1989,墾丁國家公園地區的珊瑚礁定年及地形研究:墾丁國家公園管理處保育研究報告,第57號,58頁。
    石崎和彥,1942,西恆春臺地附近地質學的觀察:台灣地學記事,第十三卷,第2-3期,45-64頁。
    李偉彰,1992,台灣南部西恆春台地更新統之沉積環境研究:國立台灣大學地質學研究所碩士論文,共計87頁。
    宋國城,1987,恆春半島晚新第三紀地層及其古沉積環境之研究:國立台灣大學地質學研究所博士論文。
    宋國城,1989,恆春半島的地質問題:經濟部中央地質調查所台灣地質研討會<問題與回顧>論文摘要,33-34頁。
    林怡美,2002,恆春地區晚更新世二枚貝類殼體穩定同位素及化學元素訊號所指示之環境變遷:國立師範大學地球科學研究所碩士論文,共計68頁。
    林殷田、汪中和、林曉武,2002, 屏東平原外海的氧同位素組成之季節性變化:「台灣之第四紀」第九次研討會論文集,116-118頁。
    吳樂群、陳華玟,1990,臺灣南部恆春西臺地北段更新世地層之沉積層序:經濟部中央地質調查所彙刊,第六號,13-50頁。
    宮守業,1982,恆春石灰岩沉積環境研究:國立台灣大學地質學研究所碩士論文,共計60頁。
    黃奇瑜、鄭穎敏、葉家正,1985,論恆春半島上墾丁層之成因:地質,第六卷,第一期,21-39頁。
    許中民,1986,台灣南端恆春半島第四紀後期構造運動之研究:國立台灣大學博士論文,共計176頁。
    陳文山,1985,台灣恆春半島之地質:國立台灣大學地質學研究所碩士論文,共計92頁。
    陳文山、鄭穎敏、黃奇瑜,1985,台灣南部恆春半島之地質:地質,第六卷,第二期,47-74頁。
    陳文山、李偉彰、王源,1990,恆春西台地第四紀地層之檢討:中國地質學會79年度年會手冊,第25頁。
    陳文山、李偉彰,1990,西恆春台地地層之檢討:地質,第十卷,第二期,127-140頁。
    陳華玟,1987,台灣南部恆春半島晚更新世四溝層軟體動物化石古生態學研究:國立台灣大學地質學研究所碩士論文,共計85頁。
    彭宗仁、汪中和,1990,現生錐螺與臺南層錐螺化石碳氧同位素組成之初步比較:中國地質學會會刊,33卷,4期,289-301頁。
    游智謙,2002,南海北坡晚第四紀沉積物有機碳碳同位素的變化:國立中山大學海洋地質及化學研究所碩士論文,共計83頁。
    國家海洋科學研究中心海洋資料庫,http://www.ncor.ntu.edu.tw/
    詹新甫,1974,恆春半島之地層與構造並申論中新世傾瀉層:台灣省地質調查所彙刊,第24號,99-108頁。
    鄭潁敏、黃奇瑜,1975,西恆春臺地之生物地層學研究:國立台灣大學理學院地質學系研究報告,第18期,49-59頁。
    鄭穎敏、黃奇瑜、劉平妹,1986,墾丁國家公園及鄰近地區地質古生物調查:墾丁國家公園保育研究報告,第26號,共計215頁。
    顏滄波、吳慶餘,1986,恆春半島之上新世及上覆地層:地質,第七卷,第一期,1-10頁。
    魏國彥、許晃雄編著,1997,全球變遷導論:台灣大學全球變遷研究中心。
    Anderson, T. F., and Arthur, M. A., 1983, Stable isotopes of oxygen and carbon and their application to sedimentologic and paleoenvironmental problems, in Arthur, M. A., Anderson, T. F., Kaplan, I. R., Veizer, J. and Land, L. S., eds, Stable isotopes in sedimentary geology: SEPM Short Course, no. 10, p. 1-151.
    Attendorn, H. G., and Bowen, R. N. C., 1997, Radioactive and Stable Isotope Geology: Chapman & Hall, London, 522p.
    Berner, R. A., 2001, Modeling atmospheric O2 over Phanerozoic time: Geochimica et Cosmochimica Acta, v.65, p.685-694.
    Biq, C. C., 1977, The Kenting Me’lange and the Manila Trench: Proc. Geol. Soc. China, No.20, p.119-122.
    Brand, U., and Veizer, J., 1980. Chemical diagenesis of a multi-component carbonate system-1. Trace elements: Journal of Sedimentary Petrology 50, p.1219– 1236.
    Broecker, W. S., 1992, The glacial world, according to wally: Columbia University Press, 346P.
    Brown, L. R., Renner, M., and Flavin, C., 1997, Vital Signs: The Environmental Trends That Are Shaping Our Future. Worldwatch Institute: New York, 165p.
    Bruckschen, P., Bruhn, F., Meijer, J., Stephan, A., Veizer, J., 1995, Diagenetic alteration of calcitic fossil shells: Proton microprobe (PIXE) as a trace element tool: Nuclear Instruments Methods in Physics Research B, v.104, p.427-431.
    Buening, N., and Carlson, S. J., 1992, Geochemical investigation of growth in selected recent articulate brachiopods: Lethaia, v. 25, p. 331–345.
    Buening, N., and Spero, H. J., 1996, Oxygen and carbon isotope analyses of the articulate brachiopod Laqueus californianus: a record of environmental changes in the subeuphotic zone. Mar. Biol. 127, p.105–114.
    Carpenter, S. J., and Lohmann, K. G., 1995, δ18O and δ13C values of modern brachiopod shells: Geochimica et Cosmochimica Acta, v.59, p.3749~3764.
    Chang, L. S., 1966, A biostraitgaphic study of the Tertiary in the Hengchun Penisula, Taiwan, based on small Foraminifera. (part 3: Southern part): Proc. Geol. Soc. China, no.9 p.55-62.
    Chang, S.S.L. and Chi, W. R., 1983, Neogene nannoplankton biostratigraphy in Taiwan and the tectonic implications: Petrol. Geol. Taiwan, no.19, p.93-147.
    Chen, W. S., and Chen, Y. G., 1990, Field Guide to The Hengchun Peninsula, Southern Taiwan: RocBelgium Quaternary Geological, Environmental and Geotechnical Symposium: Global geologic changes and natural hazards, P.3-15.
    Chen, H. W., Wu, L. C., Huang, C. Y., and Koichiro, M., 1991, Late Pleistocene molluscan paleoecology of lagoon deposits of the Szekou Formation, Hengchun Peninsula, Southern Taiwan:Proceedings of the Geological Society of China, v. 34, No. 1, p. 57-87.
    Cheng, Y. M., and Huang, C. Y., 1975, Biostratigraphic study in the west Hengchun Hill: Acta Geol., Taiwanica, no.18, p.49-59.
    Chung, K. J., 1986, Rhinoceros fossils from Western Hengchun Hills, Southern Taiwan: ibid., no.24, p.263-279.
    Dodd, J.R., 1967, Magnesium and strontium in calcareous skeleton: A review, Journal of Paleontology, no.41, p.1313-1329.
    Dodd, J. R., and Stanton Jr., R. J., 1981, Paleoecology, concepts and applications: John Wiley & Sons, New York, 559p.
    Duplessy, J.C., Shackleton, N.J., Matthews, R.K., Prell, W., Ruddiman, W.F., Caralp, M., and Hendy, C. H., 1984, 13C record benthic foraminifera in the last interglacial ocean : implications for the carbon cycle and the global deep water circulation, Quaternary Research 21, p.225-243.
    Epstein, S., and Mayeda, T., 1953, Variation of 18O content of waters from natural sources: Geochimica et Cosmochimica Acta, v. 4, n. 5, p.213-224.
    Faure, G., 1986, Principles of isotope geology: New York, John Wiley & Sons, 589 p.
    Folland, C. K., Karl, T. R., Nicholis, N., and Vinnikov, K. Ya., 1990, Observed climate variations and change. In "Climate Change : The IPCC Scientific Assessment", J. T. Houghton, G. J. Jenkins, and J. J. Ephraums( eds. ), Cambridge University Press, Cambridge, Cambridge, 199-233.
    Fong, C. C. K, 1987, Brachipods from the Hengchun Peninsula: Ⅰ. Brachipods from the Hengchun Limeston: Memoir Geol. Soc. China, v.8, p.49-62.
    Fong, C. C. K, 1989, Brachipods from the Hengchun Peninsula: Ⅱ. Brachipods from the Maanshan Mudstone and the Szekou Formation: Bul. Cen. Geol. Sur., no.5, p.101-111.
    Frank, J. R., Carpenter, A. B., and Ogleshy, T. W., 1982, Cathodoluminescence and composition of calcite cement in the Taum Sauk Limestone (upper Cambrian), southeast Missouri: Journal of Sedimentary Petrology, v.52, p.631-638.
    Grossman, E. L., and Ku T-L., 1986, Oxygen and carbon isotope fractionation in biogenic aragonite: temperature effects: Chemical Geology. (Isotope Geosciences Section) v. 59, p. 59–74.
    Grossman, E. L., Zhang C., and Yancey, T.E., 1991, Stable-isotope stratigraphy of brachiopods from Pennsylvanian shales in Texas: Geological Society of America Bulletin, v. 103, p.953-965.
    Grossman, E. L., Mii, H. S., and Yancey, T. E., 1993, Stable isotopes in Late Pennsylvanian brachiopods from the United States: Implications for Carboniferous paleoceanography: Geological Society of America Bulletin, v.105, p.1284-1296.
    Grossman, E. L., 1994, The carbon and oxygen isotopic record during the evolution of Pangea: Carboniferous to Triassic, in Klein, G, D., ed., Pangea: Paleoclimate, tectonics, and sedimentation during accretion, zenith, and breakup of a supercontinent: Geological Society of America Special Paper 288, p.207-228.
    Grossman, E. L., Mii, H. S., Zhang, C., and Yancey, T. E., 1996, Chemical variation in Pennsylvanian brachiopod shells-effects of diagenesis, taxonomy, microstructure, and paleoenvironment: Journal of Sedimentary Research, v.66, p.1011-1022.
    Hays, P. D., and Grossman, E. L., 1991, Oxygen isotope in meteoric calcite cements as indicators of continental climate: Geology, v. 19, p. 441-444.
    Hoefs, J., 1987, Stable Isotope Geochemistry: 3rd edition, Springer-Verlag, Berlin, 241p.
    Hu, H. C., 1981, Studies on Ostracode faunas from the Hengchun Limestone (Pleistocene), Southern Taiwan: Quart. Jour. Taiwan Museum34(1,2), p.61-93.
    Hu, H. C., 1983, Octracods from the Maanshan Mudstone, Hengchun Peninsula, Southern Taiwan: Taiwan Petroleum Geol., no.19, p.149-178.
    Hu, H. C., 1987, Unusual fossil corals from Hengchun Peninsula, Sothern Taiwan: Memoir Geol. Soc. China, no.8, p.31-48.
    Huang, C. Y., 1988, Foraminiferal paleoecology of a late Pleistocene lagoonal sequence of the Szekou formation in the Hengchun Peninsula, Southern Taiwan: Proceedings of the geological society of China, v. 33, p. 181-206.
    Klein, R. T., Lohmann, K. C., and Thayer, C. W., 1996, Bivalve skeletons record sea-surface temperature and d18O via Mg/ Ca and 18O/16O ratios: Geology, v. 24, p. 415-418.
    Lowenstam, H.A., 1961, Mineralogy, O18/O16 ratios, and strontium and magnesium contents of recent and fossil brachiopods and their bearing on the history of the oceans: The Journal of geology, v. 69, p. 241-260.
    Meyers, W. J., 1974, Carbonate cement stratigraphy of the Lake Valley Formation (Mississippian), Sacramento Mts., New Mexico: Journal of Sedimentary Petrology, v.44, p.837-861.
    Nrnberg, D., Bijma, J., and Hemleben, C., 1996, Erratum: Assessing the reliability of magnesium in foraminiferal calcite as a proxy for water mass temperatures: Geochimica et Cosmochimica Acta, v. 60, p. 2483-2484.
    O’Neil, J. R., Clyton, R. N., and Mayeda, T.K., 1969, Oxygen isotope fractionation in divalent metal carbonates: Journal of Chemical Physics, v. 51, p. 5547-5558.
    Page, B. M., and Lan, C. Y., 1983, The Kenting me’lange and its record of tectonic events: Memoir Geol. Soc. China, no.5, p.227-248.
    Parkinson, D., Curry, G. B., Cusack, M., and Fallick, A. E., 2003, Carbon and oxygen isotope ratios from two brachiopods and a bivalve, coexisting in a modern marine epibenthic community off the west coast of Scotland: Geophysical Research Abstracts, Vol.5, p.02735-02736.
    Pelletier, B., Stephan, J. F., Blanchet, R., Miller, C., and Hu, H. N., 1984, Geology of the Hengchun Peninsula, southern Taiwan: arguments for a middle obduction and for an arc-continental collision since Upper Miocenne (Abs): Sino-French Seminar on Geodynamic of the Eurasian-Philippine Sea Plate Boundary: Taipei, April, 20-30, p.64-65.
    Pierson, B. J., 1981, The control of cathodoluminescence in dolomite by iron and manganese: Sedimentology, v.28, p.601-610.
    Popp, B. N., 1986, The record of carbon, Oxygen, sulfur and strontium isotopes and trace elements in late Paleozoic brachiopods: Ph. D. Thesis, University of Illinois, Urbana ChamPaign, USA, 199p.
    Popp, B. N., Anderson, T. F., and Sandberg, P. A., 1986a, Brachiopods as indicators of original isotopic compositions in some Paleozic limestones: Geological society of America Bulletin, v. 97, p. 1262-1269.
    Popp, B. N., Anderson, T. F., and Sandberg, P. A., 1986b, Textural, elemental, and isotopic variations among constituents in middle Devonian limestones, North Americal: Journal of Sedimentary Petrology, v. 56, p. 715-727.
    Rokkaku, H. and Makiyama, T., 1934, Report ofthe geologic survey of Kosyun oilfield, Takao Pref.: Bureau of Productive Induetries: Government-General of Taiwan, Publication669, p.1-42.
    Ruddiman, W.F., 2000, Earth’s Climate – past and future: W. H. Freeman and company, New York, 441p.
    Rush, P. F., and Chafetz, H. S., 1990 Fabric-retentive non-luminescent brachiopods as indicators of original δ13C and δ18O composition: A test1: Journal of Sedimentary Petology, v.60, p.968-981.
    Savin, S. M., 1977, The history the Earth’s surface temperature during the past 100 million year: Annual Review of Earth and Planetary Sciences, v.5, p.319-355.
    Silver, C. S., and R. S. Defries, 1990, One Earth, On Future: National Academy Press, Washington, D. C., 196p.
    Stanley, S. M., 1999, Earth System History: W. H. Freeman and Company, New York, 615p.
    Tucker, M. E., 1981, Sedimentary Petrology, an Introduction:Blackwell Scientific Publications, London, 251p.
    Urey, H. C., Lowenstam, H. A., Epstein, S., and McKinney, C. R., 1951, Measurement of paleotemperatures and temperatures of the Upper Cretaceous of England, Denmark, and southeastern United States:Geological Society of America Bulletin, v.62, p.399-416.
    Veizer, J., Fritz, P., and Jones, B., 1986, Geochemistry of brachiopods, oxygen and carbon isotopic records of Paleozoic oceans: Geochimica et Cosmochimica Acta, v. 50, no. 8, p. 1679-1696.
    Wang, C. H., Peng, T. R., and Chen, P. F., 1991, Oxygen and carbon isotopic compositions of mollusks from the late Pleistocene Szekou Formation, southern Taiwan:Proc. Natl. Sci. Counc. ROC(A), v. 15, p.455-464.
    Williams A., 1973, The secrelion and structural evolution of the shell of Thecideidine brachiopods: Phil. Trans. Roy. Soc. London B 264, p.439-478.
    Yabe, H., and Hanzawa, S., 1930, Tertiaey foraminiferous rocks of Taiwan (Formosa): Science Reports of Tohoku Imperial University: Second Series (geology), v.14, p.1-46.

    QR CODE