东北印度洋沉积岩芯热释光与古气候演变研究
|
摘要
东北印度洋地处喜马拉雅山以南,是青臧高原与喜马拉雅山隆升剥蚀产物的主要沉积区,孟加拉扇是世界著名的深海扇,以沉积厚度巨大、保存有高分辨率的古环境信息而著称,一直是古海洋、古气候研究的热点地区。论文首次尝试利用海洋沉积物热释光(Thermoluminescence,简称TL)技术研究古气候变化。结合已有丰富的岩芯资料和能代表气候变化的氧同位素地层、碳酸岩地层、生物地层、磁化率地层以及粒度、粘土矿物、色谱等资料,详细开展热释光与古气候变化的对比研究。
论文对东北印度洋地区不同地理位置的MD81349、MD77190、MD77181、BAR9427四支岩芯的全岩热释光和MD81349岩芯纯净有孔虫的热释光测量,与已知氧同位素地层资料对比后发现四支岩芯的热释光变化与氧同位素地层揭示的气候变化及可能的隆升事件有良好的对应关系。尤以位于东经90°海岭上的以远洋沉积作用为主的MD81349岩芯最为理想,陆源剥蚀产物在其沉积记录中所占比例较少,有孔虫和超微化石为代表的远洋成因的灰白色生物软泥构成主要的沉积组分。无论全岩还是有孔虫,它们的热释光均与氧同位素δ~(18)O有极好的对应关系,热释光高值区与氧同位素指示的间冰期(1、3、5、7期)相对应;热释光低值区与氧同位素指示的冰期(2、4、6、8期)相对应。进一步研究发现MD81349岩芯纯净有孔虫壳体(方解石)的热释光与碳酸盐含量不存在显著正相关,说明有孔虫热释光变化与碳酸盐矿物有关,但并不主要受碳酸盐量的控制,反应的是质的差异,相反全岩热释光与CaCO_3含量表现出显著正相关,说明物质成分的差异仍然对热释光有影响。
采用Pearson相关分析法对MD81349岩芯的全岩热释光、有孔虫热释光、δ~(18)O、CaCO_3含量、Mg/Ca、色谱、有孔虫含量7项指标进行相关分析和显著性检验。结果表明,有孔虫热释光与δ~(18)O相关性最好,呈显著正相关(R=0.418,r_(0.01)=0);TL与Mg/Ca比呈显著负相关(R=-0.365,r_(0.01)=0);TL与有孔虫含量(R=-0.222)和碳酸钙含量(R=-0.114)、色谱(R=-0.104)都呈负相关。
MD77190岩芯位于孟加拉下扇的沟道间,岩芯碳酸盐含量在12.25%-56.85%之间,氧同位素可分出1、2、3、4、5期,与全岩热释光1、2、3、4、5期的界线一致,受岩性变化的影响,热释光的效果没有MD81349好,但对一些特殊变化的反应,如3期气候波动强烈、4期向3期缓慢过度、5期高于3期等与氧同位素曲线有很好的可比性。
MD77181岩芯位于孟加拉上扇与中扇的结合部位,受陆源输入物的影响最大,全岩热释光结果与氧同位素对应关系不理想。该岩芯热释光的特点是在9米深左右,距今约0.15Ma左右,热释光值突然增大,而磁化率则突然失去变化,表明沉积环境发生了突变,与青藏高原隆升的共和运动(0.15MaB.P.)在时间上相一致。
BAR9427岩芯位于苏门答腊岛北部,氧同位素只测到1、2、3期,3期尚未测试完全,热释光显示1期最高,2期最低,3期高于2期,与氧同位素的界线基本一致。
有孔虫热释光的微观结构研究表明,在冰川旋回的不同阶段,热释光主要受样品中结晶矿物的结晶程度控制。间冰期有孔虫壳体的热释光曲线类似于人工晶体,发光强度也大于冰期的有孔虫壳体。说明间冰期有孔虫壳体结晶程度好,晶体排列整齐,晶体内影响热释光的杂质和缺陷与冰期不同。无论冰期还是间冰期,热释光只有单一的发光峰,峰值温度在375℃-395℃之间,平均387℃,与陆地沉积型碳酸盐晶体有多个发光峰的热释光特征明显不同。
代表了有孔虫(方解人结晶体)特有的标地矿物特征。
为了获得可靠的测量结果和对热释光机理进行解释,还研究了热释光与粒度、岩性的关
系,以及与其它元素的相关性。研究表明,热释光随测试物质粒度的减小而降低,说明细粒
样品中结晶矿物校少以及在破碎过程中,机械磨擦、碰撞作川使原有的热释光受到损大。岩
性变化对热彩光的影响规律是:砂岩比泥岩的热郑光高。
放射性核素的含量与热释光的关系比较复杂。通过新疆、江西相山、渤海等地区不同类
型样品的热释光测量结果与U、Ra、Th、K结果做相关分析后发现,热释光指标与_已述核素
之间没有明显的正相关性,相山铀矿石与渤海沉积物的热秆光甚至与U、Ra、Th、Ky显关
负相关。
从新疆十使铜矿的多元素与热释光的相关分析和显著性检验结果看出:①热释光与常量
元素的相关性不显著,与引;(R。0.426)和 K。O(R=0.4if)的相关性最好,其次是Na;O,
A12O。。②与微量兀素 CSy显公止相关(R—0.56,f005—0刀13),其次是 Hf、Rb;与 CO兀票
上显著负相关(R二0.48,r00;一0.037),其次是 Ni、Cr、Ba、Cu。③与 U(R—0.02)、Th(R—0.247)
含员z上相关,但相关性不显著。④与稀土元素 EU 的含量是显具负相关(R二0497,
r。。。一0刀26),其次是 Gd,其余稀士元素均与热释光是上相关。说明常量元素的氧化物S。、
hO、*。;O、A!。Q可能在矿物中以单晶体的形式存在。微量元素*。、*I、*r、*。、*u在
浓度达到一定量时对热种光起犯灭作川。稀十元素除EU、口d外,多数有可能成为热释光的
释光中心。
论文
The Northeastern Indian Ocean lies to the south of Himalayas. It is the main sedimentary areas of the denudation due to the uplift of Qinghai-Tibet Plateau and Himalayas.The Bay of Bengal and its adjacent water hosted a great deal of terrigenous sediments have denuded from the Tibetan plateau and transported by the GangeBrahampoutra fluvial system. The oceanic sediment in Northeastern Indian not only distributes widely but also is of high deposit rate. In addition, these sediments also contain reliable high-resolution paleoenvironmental information both with long-timescale and short-timescale. Therefore, this area is an ideal one for the research on the paleoceanography and paleoclimate.
For the last decade Thermoluminescence (TL) has been used for a viable tool for age determination of a variety of rock types and sediments. The TL in oceanic sediments has been used for the first time to study paleoclimatic change successfully. Based on the elaborate research on the stable Oxygen isotope stratigraphy, carbonate stratigraphy, biostratigraphy, magnetic susceptibility, grain size and clay mineral of cores marked MD81349, MD77190, MD77181 and BAR9427 in the Northeastern Indian Ocean, this thesis focus on the application of the TL properties in the above cores to infer the paleoclimatic change, and discuss the response of TL of sedimentary records with climatic cycles during the last 300,000 years. The results improve our understanding of the utility of TL as an indicator of sedimentary environment and provide insight into what types of ocean sediments are amenable for study.
The comparison of the 18O with the TL cycles indicates that the TL dose display the expected coupling relation with interglacial and glacial climate cycles. It is noteworthy that TL dose shows an increase associated with the interglacial cycles (Oxygen Isotopic Stage 1,3,5,7) and a decrease associated with the glacial cycles (Oxygen Isotopic Stage 2,4,6,8). The carbonate content is high during the interglacial interval and low during the glacial interval. However the TL dose of pure foraminiferan (Calcite) dose not have direct correlation with the carbonate, which leads to a result that the TL changes in the samples might be induced by the difference of crystallization. Temperature and pressure play key roles for the TL properties of a crystal, even the temperature difference between glacial and interglacial is very small. The TL capacity of crystal of calcite is closely related to the type and quantity of lattice defects existed in the crystal resulting from the physical-chemical conditions which existed
at the time of crystallization. The TL study of samples in the Northeastern Indian Ocean show that there is one peak on the TL glow curve between 375 and 395 while terrestrial calcite show peaks between 177 and 456 .
This study also reveal that no direct correlation between the TL does and U, Ra, Th, K activity, exist.
The trace element analyses show negative correlation between Fe, Cu, Cr, Co, Ni, Eu ,clay and TL. and positive correlation between Cs and TL, but the research on concrete mechanism is needed.
论文对东北印度洋地区不同地理位置的MD81349、MD77190、MD77181、BAR9427四支岩芯的全岩热释光和MD81349岩芯纯净有孔虫的热释光测量,与已知氧同位素地层资料对比后发现四支岩芯的热释光变化与氧同位素地层揭示的气候变化及可能的隆升事件有良好的对应关系。尤以位于东经90°海岭上的以远洋沉积作用为主的MD81349岩芯最为理想,陆源剥蚀产物在其沉积记录中所占比例较少,有孔虫和超微化石为代表的远洋成因的灰白色生物软泥构成主要的沉积组分。无论全岩还是有孔虫,它们的热释光均与氧同位素δ~(18)O有极好的对应关系,热释光高值区与氧同位素指示的间冰期(1、3、5、7期)相对应;热释光低值区与氧同位素指示的冰期(2、4、6、8期)相对应。进一步研究发现MD81349岩芯纯净有孔虫壳体(方解石)的热释光与碳酸盐含量不存在显著正相关,说明有孔虫热释光变化与碳酸盐矿物有关,但并不主要受碳酸盐量的控制,反应的是质的差异,相反全岩热释光与CaCO_3含量表现出显著正相关,说明物质成分的差异仍然对热释光有影响。
采用Pearson相关分析法对MD81349岩芯的全岩热释光、有孔虫热释光、δ~(18)O、CaCO_3含量、Mg/Ca、色谱、有孔虫含量7项指标进行相关分析和显著性检验。结果表明,有孔虫热释光与δ~(18)O相关性最好,呈显著正相关(R=0.418,r_(0.01)=0);TL与Mg/Ca比呈显著负相关(R=-0.365,r_(0.01)=0);TL与有孔虫含量(R=-0.222)和碳酸钙含量(R=-0.114)、色谱(R=-0.104)都呈负相关。
MD77190岩芯位于孟加拉下扇的沟道间,岩芯碳酸盐含量在12.25%-56.85%之间,氧同位素可分出1、2、3、4、5期,与全岩热释光1、2、3、4、5期的界线一致,受岩性变化的影响,热释光的效果没有MD81349好,但对一些特殊变化的反应,如3期气候波动强烈、4期向3期缓慢过度、5期高于3期等与氧同位素曲线有很好的可比性。
MD77181岩芯位于孟加拉上扇与中扇的结合部位,受陆源输入物的影响最大,全岩热释光结果与氧同位素对应关系不理想。该岩芯热释光的特点是在9米深左右,距今约0.15Ma左右,热释光值突然增大,而磁化率则突然失去变化,表明沉积环境发生了突变,与青藏高原隆升的共和运动(0.15MaB.P.)在时间上相一致。
BAR9427岩芯位于苏门答腊岛北部,氧同位素只测到1、2、3期,3期尚未测试完全,热释光显示1期最高,2期最低,3期高于2期,与氧同位素的界线基本一致。
有孔虫热释光的微观结构研究表明,在冰川旋回的不同阶段,热释光主要受样品中结晶矿物的结晶程度控制。间冰期有孔虫壳体的热释光曲线类似于人工晶体,发光强度也大于冰期的有孔虫壳体。说明间冰期有孔虫壳体结晶程度好,晶体排列整齐,晶体内影响热释光的杂质和缺陷与冰期不同。无论冰期还是间冰期,热释光只有单一的发光峰,峰值温度在375℃-395℃之间,平均387℃,与陆地沉积型碳酸盐晶体有多个发光峰的热释光特征明显不同。
代表了有孔虫(方解人结晶体)特有的标地矿物特征。
为了获得可靠的测量结果和对热释光机理进行解释,还研究了热释光与粒度、岩性的关
系,以及与其它元素的相关性。研究表明,热释光随测试物质粒度的减小而降低,说明细粒
样品中结晶矿物校少以及在破碎过程中,机械磨擦、碰撞作川使原有的热释光受到损大。岩
性变化对热彩光的影响规律是:砂岩比泥岩的热郑光高。
放射性核素的含量与热释光的关系比较复杂。通过新疆、江西相山、渤海等地区不同类
型样品的热释光测量结果与U、Ra、Th、K结果做相关分析后发现,热释光指标与_已述核素
之间没有明显的正相关性,相山铀矿石与渤海沉积物的热秆光甚至与U、Ra、Th、Ky显关
负相关。
从新疆十使铜矿的多元素与热释光的相关分析和显著性检验结果看出:①热释光与常量
元素的相关性不显著,与引;(R。0.426)和 K。O(R=0.4if)的相关性最好,其次是Na;O,
A12O。。②与微量兀素 CSy显公止相关(R—0.56,f005—0刀13),其次是 Hf、Rb;与 CO兀票
上显著负相关(R二0.48,r00;一0.037),其次是 Ni、Cr、Ba、Cu。③与 U(R—0.02)、Th(R—0.247)
含员z上相关,但相关性不显著。④与稀土元素 EU 的含量是显具负相关(R二0497,
r。。。一0刀26),其次是 Gd,其余稀士元素均与热释光是上相关。说明常量元素的氧化物S。、
hO、*。;O、A!。Q可能在矿物中以单晶体的形式存在。微量元素*。、*I、*r、*。、*u在
浓度达到一定量时对热种光起犯灭作川。稀十元素除EU、口d外,多数有可能成为热释光的
释光中心。
论文
The Northeastern Indian Ocean lies to the south of Himalayas. It is the main sedimentary areas of the denudation due to the uplift of Qinghai-Tibet Plateau and Himalayas.The Bay of Bengal and its adjacent water hosted a great deal of terrigenous sediments have denuded from the Tibetan plateau and transported by the GangeBrahampoutra fluvial system. The oceanic sediment in Northeastern Indian not only distributes widely but also is of high deposit rate. In addition, these sediments also contain reliable high-resolution paleoenvironmental information both with long-timescale and short-timescale. Therefore, this area is an ideal one for the research on the paleoceanography and paleoclimate.
For the last decade Thermoluminescence (TL) has been used for a viable tool for age determination of a variety of rock types and sediments. The TL in oceanic sediments has been used for the first time to study paleoclimatic change successfully. Based on the elaborate research on the stable Oxygen isotope stratigraphy, carbonate stratigraphy, biostratigraphy, magnetic susceptibility, grain size and clay mineral of cores marked MD81349, MD77190, MD77181 and BAR9427 in the Northeastern Indian Ocean, this thesis focus on the application of the TL properties in the above cores to infer the paleoclimatic change, and discuss the response of TL of sedimentary records with climatic cycles during the last 300,000 years. The results improve our understanding of the utility of TL as an indicator of sedimentary environment and provide insight into what types of ocean sediments are amenable for study.
The comparison of the 18O with the TL cycles indicates that the TL dose display the expected coupling relation with interglacial and glacial climate cycles. It is noteworthy that TL dose shows an increase associated with the interglacial cycles (Oxygen Isotopic Stage 1,3,5,7) and a decrease associated with the glacial cycles (Oxygen Isotopic Stage 2,4,6,8). The carbonate content is high during the interglacial interval and low during the glacial interval. However the TL dose of pure foraminiferan (Calcite) dose not have direct correlation with the carbonate, which leads to a result that the TL changes in the samples might be induced by the difference of crystallization. Temperature and pressure play key roles for the TL properties of a crystal, even the temperature difference between glacial and interglacial is very small. The TL capacity of crystal of calcite is closely related to the type and quantity of lattice defects existed in the crystal resulting from the physical-chemical conditions which existed
at the time of crystallization. The TL study of samples in the Northeastern Indian Ocean show that there is one peak on the TL glow curve between 375 and 395 while terrestrial calcite show peaks between 177 and 456 .
This study also reveal that no direct correlation between the TL does and U, Ra, Th, K activity, exist.
The trace element analyses show negative correlation between Fe, Cu, Cr, Co, Ni, Eu ,clay and TL. and positive correlation between Cs and TL, but the research on concrete mechanism is needed.
引文
[1] 邹进上主编.气候学研究—“天、地、生”相互影响问题[M].北京:气象出版社,1989.
[2] 曹家欣编著.第四纪地质[M].北京:商务印书馆,1983.
[3] 杨怀仁主编.第四纪地质[M].北京:高等教育出版社,1987.
[4] 方念乔.恒河深海扇东北区域晚第四纪气候和海平面变化对沉积作用的控制[J].现代地质,1990,4(1):10-22.
[5] 方念乔.Riviere粒度资料解释法在孟加拉湾深水扇积物流体动力分析中的应用[J].地质论评,1992,3(4):344-351.
[6] Huntley,J.D. et al;1976,Thermoluminence as a potential means of dating siiceous ocean sediments. Canadian Journal of Earth Sciences, No. 13.
[7] Cini Castagnoli ,G. et al; (1985, 1988), Comparison of TL Profiles in recent sea core. Nuclear Tracks, Vol. 10, No4-6.
[8] Wood PB(1994),Optically stimulated luminescence dating of a late Quaternary shoreline deposit,Tunisia. Quaternary Geochronology (QSR) 13.
[9] D. M. Price, E. A. Bryant, R. W. Young. (1999), Thermoluminescence evidence for the deposition of coastal sediments by tsunami wave action. Quaternary International,56,123-128.
[10] 李虎侯.《热释光断代》[M].Scientist Press International,Inc.1999.
[11] 温孝胜,刘韶,张惠玲等.南海沉积物中U,Th分布特征及其古环境意义[J].热带海洋,1997,16(3):32-39.
[12] 刘韶,温孝胜,余克服等.南沙群岛海区沉积物中铀含量与冰期关系初探[J].海洋地质与第四纪地质,1999,19(2):49-53.
[13] 王湘云,章邦桐.石英热释光的标型意义—相山铀矿床的研究实例[J].矿床地质,1996,15(2):182-187.
[14] 方念乔,丁旋,陈学方等.孟加拉湾MD77190柱状样第3期的韵律沉积记录及快速气候变化[J].第四纪研究,1999,6,511-517.
[15] 方念乔,陈学方,胡超涌等.东北印度洋深海记录基本特征及其对青藏高原隆升的响应[J].第四纪研究,2001,21(6),490-499.
[16] 方念乔,陈学方,丁旋等.盂加拉湾和东经90°海岭260Ka以来的古海洋学记录与印度季风的影响[J].中国科学(D辑),2001,31卷,增刊,280-286.
[17] 李国祯,罗达玲,张纯祥等.MgSO4:Dy,Mn磷光体的热释光和ESR特性研究[J].中山大学学报,2000,39(2):32-39.
[18] 汪品先等.寻求高分辨率的古环境记录[J].第四纪研究,1999,1,1-17.
[19] 侯红明,袁友仁,王宝贵.第四纪研究中的米兰科维奇周期[J].南海研究与开发,1994,4:61-67.
[20] Chen Chi-Chieu. Application of Thermoluminescence Techniques to Mineral Exploration-Principles and Advantages[J]. Journal of China University of Geosciences,2000,11(2): 123-127.
[21] Fang Nianqiao Chen xuefang Hu Chaoyong et al., Rapid Climatic Change during Past 60ka Recorded in NE Indian Ocean and Its Correspondence from South China Land[J]. Journal of China University of Geosciences,2000,11(3):252-258.
[22] 丁旋.孟加拉湾十五万年来的古海洋学研究[D].中国地质大学博士论文,1998,北京.
[23] 陈学方.东北印度洋古海洋学研究[D].中国地质大学博士论文,2001,北京.
[24] 李怀渊.勘查隐伏砂岩型铀矿物化探方法的研究与应用[D].中国地质大学博士论文,2001,北京.
[25] 张纯祥,唐强,罗达玲.掺稀土元素Dy和Mn,P,Cu的MgSO_4的热释发光光谱[J],物理学报,2000,49(10):2072-2077.
[26] 韦刚健,桂训唐,于津生.南海NS90-103沉积物柱样沉积年代研究[J].地球化学,1996,25(5):494-502.
[27] A.C.马尔富宁著,蔡秀成,富毓德,阚学敏等译.矿物的谱学、发光和辐射中心[M].北京:科学出版社,1984.
[28] 赵其渊等编,海洋地球化学[M].北京:地质出版社,1989.
[29] 汪品先等编,海洋微体古生物论文集[M].北京:海洋出版社,1980.
[30] 吴大清,彭金莲,刁桂仪等.沉积CaCO_3与金属离子界面反应动力学研究[J].地球化学,2000,29(1):56-61.
[31] 韦刚健,李献华,陈毓蔚.NS93-5钻孔沉积物高分辨率过渡金属元素变化及其古海洋记录[J].地球化学,2001,30(5):450-458.
[32] M.Oberhofer A.Scharmann等著,张彤,华钟亮,李湘葆等译,李颖,李元芳校.应用热释光剂量学[M].北京:中国计量出版社,1988.
[33] 王维达主编.中国热释光与电子自旋共振测定年代研究[M].北京:中国计量出版社,1997.
[34] 程业勋,章晔,王南萍等.土壤天然热释光测量在油田勘探中的初步应用[J].物探与化探.1996,20(4):188-294.
[35] Siegal, F.R.,Chen, R.,Vaz, J.E.,Mathur, V.K.,The integrated radiation environment at well sites-an adjunct to petroleum exploration[J]. Oil Gas J.,1997,Oct. 6,91-96.
[36] N.E. Yanaki, D. Ashery, J. Kronfeld. Gamma-ray analysis of the sediments overlyingthe Helez and Kochav oil fields, Israel[J].Journal of Geochemical Exploration 66.1999,249-254.
[37] 刘海生,程业勋,王南萍等.沉积物天然热释光在海洋油气勘查中的应用[J].海洋地质与第四纪地质,2001 21(1)107-112.
[38] [美]S.W.S.Mckeever著,蔡干钢 吴方 王所亭译.固体热释光[M].原子能出版社,1993,9-14.
[39] 李志远,祝汉民,程荣林等译,李正德等校.海洋放射性调查方法[M].北京:海洋出
版社,1981,P39-41.
[40] 郑公望.热释光及其在石油勘探中的应用[J].石油勘探与开发,1993,20(4):49-51.
[41] 王南萍.核技术(放射性方法)勘查油气田的机理与数据处理方法技术研究[D].中国地质大学北京博士学位论文,1996.
[42] Roy A. MacDIARMID, Natural Thermoluminescence as a prospecting tool for hydrothermal ores in carbonate host rocks, in: Thermoluminescence of Geological Materials, London-New York,Academic Press,547-556,1968.
[43] DAVID, J. McDOUGALL, Natural Thermoluminescence of igneous rooks and associated ore deposits, in: Thermoluminescence of Geological Materials, London-New York,Academic Press,527-544,1968.
[44] Frederic R.Siegel, and J.Eduardo Vaz, Thermoluminescence of clay minerals,in: Thermoluminescence of Geological Materials, London-New York,Academic Press,547-556,1968.
[45] 王南萍,王平,程业勋.第四纪沉积物天然热释光测量勘查深部油气藏的方法原理及应用[J].现代地质,1996,10(4):543-549.
[46] 张健,郭勇.电离辐射剂量监测用热释光探测器[J]军事医学科学院院刊,1994,18(3):183-193.
[47] Martinson, D.G., Pisias,N.G., Hays, J.D., Imbrie,J., Moore, T. C., Jr. and Shackleton, N.J.,1987,Age dating and the orbital theory of the ice ages: development of a high resolution 0-300000 years chronostratigraphy. Quaternary Research,27:1-29.
[48] Fang Nianqiao, 1987,Le controle climatique de la sedimentation Quatemative Recente dans La region moyenne Du come Profond du gange (Ocean Indian). Memoires des sciences de la Terre, Academie de Paris University Pierre et Marie Curie.
[49] N. Fang, X.Ding, X.Chen and H. Nie. Rapid climatic and oceanographic changes in Bengal Bay, Northeastern Indian ocean. Paleoceanographic Congress Ⅵ. 1998,Lisbon.82.
[50] 方念乔,丁旋,陈学方等.6万年以来孟加拉湾的快速气候变化记录及其与高纬度地区记录的遥相关[J].第四纪研究,1999,(6):511-517.
[51] 丁旋,方念乔,万晓樵.孟加拉湾晚第四纪冰期和间冰期古生产力演变研究[J].海洋地质与第四纪地质,1999,19(3):49-58.
[52] 丁旋,方念乔,万晓樵.孟加拉湾晚第四纪季风气候及其古海洋学记录[J].现代地质,2000,14(2):295-300.
[53] 吴世迎,刘焱光,王湘芹等.冲绳海槽中段沉积岩芯碳酸岩和烧失量的古环境意义[J].黄渤海海洋,2001,19(2):17-24.
[54] 李虎侯.氧化铝对α辐射的热释光效应[J].第四纪研究,1999,6:571.
[55] M.C.A.Jannette, H. B .Paul. Cosmic ray radiation history examined using high temperature Thermoluminescence. Lunar and planetary Science Conference 29,1998.
[56] 杜德文,孟宪伟,王永吉等.沉积物物源组成的定量判别方法及其在冲绳海槽的应用[J].海洋与湖沼,1999,30(5):532-539.
[57] 陈忠,颜文.海洋沉积物粘土矿物与古气候、古环境演化响应的研究进展[J].海洋科学,2000,24(2):25-26.
[58] 刘广山,黄奕谱,陈敏等.南沙海区表层沉积物放射性核素分布特征[J].海洋科学,2001,
25(5):1-6.
[59] 王成善,胡修棉,李祥辉.古海洋容解氧与缺氧和富氧问题研究[J].海洋地质与第四纪地质,1999,19(3):39-48.
[60] 吴世炎,尹明瑞,曾宪章等.大洋表层水中~(226)Ra的分布[J].热带海洋学报,2001,20(2):54-59.
[61] 赖忠平,周杰,卢演涛.风成沉积物红外及绿光释光测年比较研究[J].海洋地质与第四纪地质,2000,20(1):57-62.
[62] 王文远,刘嘉麒,潘懋。末次间冰期以来黄土—古土壤的热释光测年—渭南、会宁剖面的对比研究[J].海洋地质与第四纪地质,2000,20(3):67-72。
[63] 蓝先洪,申顺喜.南黄海中部沉积岩芯的地球化学特征[J].海洋地质与第四纪地质,2000,20(2):33-38.
[64] 陈志华,石学法,王湘芹.南黄海表层沉积物碳酸盐及Ca、Sr、Ba分布特征[J].海洋地质与第四纪地质,2000,20(4):9-16.
[65] 房殿勇,成鑫荣,吴国瑄.南沙南部近30ka来的古海洋学记录[J].海洋地质与第四纪地质,2000,20(4):81-86.
[66] 李双林.东海陆架HY126EAl孔沉积物稀土元素地球化学[J].海洋学报,2001,23(3):127-132.
[67] 胡修棉,王成善,李祥辉.大洋缺氧事件的碳稳定同位素响应[J].成都理工学院学报,2001,28(1):1-6.
[68] 程振波,刘振夏,石学法等.东海DGKS96-03岩芯中微体化石的古海洋学特点,δ ~(18)O曲线与AMS~(14)C测年[J].沉积学报,2000,18(4):501-505.
[69] 陈晔,袁林旺,周春林等.柴达木盆地第四纪古气候变化在自然伽玛测井曲线上的记录[J].古地理学报,2001,3(2):29-37.
[70] 李强,倪师军,要全泰.压力对热释光退激效应的探讨[J].成都理工学院学报,1994,21(1):78-83.
[71] 孙云明,宋金明.海洋沉积物—海水界面附近氮、磷、硅的生物地球化学[J].地质论评,2001,47(5):527-534.
[72] 胡守云,邓成龙,E.Appel K.VerDsub.湖泊沉积物磁学性质的环境意义[J].科学通报,2001,46(17):1491-1494.
[73] P.D.Jones, T.J.osborn,k,R.Briffa. The Evalution of climate over the Last Millennium[J].Science,2001,292(5517):662-666.
[74] 孟宪伟,杜德文,程振波.冲绳海槽有孔虫壳体的微量元素Sr,Nd同位素地球化学[J].海洋学报,2001,23(2):62-68.
[75] 向荣,李铁刚,阎军.冲绳海槽表层沉积物中浮游有孔虫壳体的氧同位素分布特征及其影响因素[J].海洋地质与第四纪地质,2001,21(3):11-16.
[76] 陈杰,卢演涛,魏兰英等.第四纪沉积物光释光测年中等效剂量测定方法的对比研究[J].地球化学,1999,28(5):443-452.
[77] 温孝胜,赵焕庭,王丽荣.南沙群岛南永三井岩芯常量元素和微量元素特征及其古环境意义[J].海洋通报,2001,20(4):32-38.
[78] 孙继敏,刁桂仪,文启忠.用黄土地球化学参数进行古气候定量估算的初步尝试[J].地
球化学,1999,28(3):265-272.
[79] 韦刚键,李献华,孔敏等.南海北部珊瑚Ca/Ba比值的季节变化及其环境意义[J].地球化学,2000,29(1):67-72.
[80] 贾国东,翦知湣,彭平安等.南海南部17962柱状样生物硅沉积记录及其古海洋意义[J].地球化学,2000,29(3):293-296.
[81] 周根陶,郑永飞.文石—水体系氧同位素分镏机理的实验研究[J].地球化学,1999,28(6):521-533.
[82] 张峰,王世杰.裂变径迹研究三峡九湾溪断裂带断裂时期[J].地球化学,2000,29(2):162-166.
[83] 涂霞,郑范,陈木宏.南海南部NS93-5柱样揭示的晚第四纪以来的古海洋学特征[J].热带海洋,2000,19(4):36-44.
[84] 田玉红,张正斌,刘莲生.南沙群岛海区表层沉积物吸附铜离子的实验研究[J].热带海洋,1999,18(4):69-74.
[85] 涂霞,郑范,陈木宏等.南海南部陆坡区的浮游有孔虫及其所表征的表层古水温[J].热带海洋,2000,19(3):40-49.
[86] 温效胜,涂霞,秦国权等.南沙群岛永暑礁小瀉湖岩芯有孔虫动物群及其沉积环境[J].热带海洋学报,2001,20(4):14-22.
[87] 周厚云,郭国章,余寿华.珠江口SX97孔7000aB.P.以来石英矿物含量反应的气候变化[J].热带海洋学报,2001,20(4):1-5.
[88] 徐建,黄宝琦,陈荣华等.南海东北部表层沉积物中有孔虫的分布及其环境意义[J].热带海洋学报,2001,20(4):6-13.
[89] S.k. Toler,D.Hallock and J.Schijf. Mg/Ca ration in stressed foraminifera, Amphistegina gibbosa,from the Florida keys[J].Marine micropaleontology,2001,43(3-4):199-206.
[90] 吴明清,王贤觉.东海沉积物的稀土和微量元素[J].地球化学,1991,1:40-46.
[91] 沈华悌.深海沉积物中的稀土元素[J].地球化学,1990,4:340-348.
[92] 耿安松,文启忠.陕西洛川黄土中碳酸盐的某些地球化学特征[J].地球化学,1988,3,267-275.
[93] 张丽洁,刘季花,姚德.海底水—沉积物界面系统中稀土元素的变化及配分特征[J].海洋学报,1995,17(1):52-58.
[94] 黄奕谱,姜德盛,徐茂泉等.南海东北部表层海水中~(226)Ra的分布[J].热带海洋,1997,16(2):75-81.
[95] 侯红明,汤贤赞,王保贵等.南沙群岛海域沉积物古地磁参数对米兰科维奇周期的响应[J].热带海洋,1995,14(3):1-7.
[96] 温效胜,赵焕庭,张乔民等.伶仃洋第四纪沉积物的铀含量和年龄分析[J].热带海洋,1994,13(3):90-94.
[97] 古森昌,陈绍谋,吴必豪等.南海表层沉积物稀土元素的地球化学[J].热带海洋,1989,8(2):93-101.
[98] 陈木宏,陈绍谋.南海碳酸盐溶解与深海沉积物类型[J].热带海洋,1989,8(3):20-26.
[99] 刘敬圃.末次盛冰期西太平洋边缘海区古海洋学特征[J].海洋科学,1995,3:14-15.
[100] 韦刚键.海水中Sr同位素组成变化的环境意义与Sr同位素地层学[J].海洋科学,1995,
1:23-25.
[101] 李培泉,康兴伦.海水中的~(18)O/~(16)O比值及其应用[J].海洋科学,1988,6:44-47.
[102] 黄宝林,卢良才.热释光(TL)断代技术对长江三峡地区断层活动的测年应用[J].南海研究与开发,1994,总122期,No.2:51-54.
[103] 陈史坚.孟加拉湾[J].南海研究与开发,1993,总120期,No.4:51-56.
[104] 陈进兴.大亚湾核电站周围海洋沉积物中的放射性本底值的研究[J].南海研究与开发,1991,总112期,No.4:16-18.
[105] 刘季花,梁宏锋,姚德等.东太平洋沉积物U的地球化学[J].海洋地质与第四纪地质,1996,16(1):59-68.
[106] 吴时国,涂霞,罗又郎.南沙群岛海区晚第四纪深海碳酸盐沉积作用[J].海洋地质与第四纪地质,1996,16(3):67-80.
[107] 黄健,许善锦,卢军芳等.稀土离子对溶液体系中碳酸钙生成的影响[J].中国稀土学报,2001,19(5):478-480.
[108] N.E.Yannaki,D.Ashery, J.Kronfeld. Gamma-ray analysis of the sediments overlying the Helez and Kochav oil fields,Israel[J].Journal of Geochemical Exploration, 1999, 66, 249-254.
[109] F.B.Barker,J.O.Johnson,K.W. Edwards and B.P. Robinson,Determination of U in natural waters, U.S.Geol.Survey water-supply paper, 1696-C,1965.
[110] T.L.Ku,An evalution of the 234U/238U method as a tool for dating pelagic sediments,J. Geophys. Res. 70(1964)3457.
[111] F.F. Koczy, Remarks on age determination in deep sea sediments, in: Progress in oceanography, Vol.3 (Pergamon Press, London, New York, 1965)p. 155.
[112] E.D.Goldberg and J.J.Griffin, Sedimentation rates and mineralogy in the south Atlantic,J. Geophys. Res. 69(1969)4293.
[113] 邵孝侯,侯文华,刑光熹.土壤固相不同组成对铜锌的吸附研究[J].环境化学,1994,13(4):340-345.
[114] 王南萍.第四纪沉积物天然热释光测量方法技术研究.中国地质大学(北京),2001.
[115] Nambi,K.S.V.,Bapat, V.N.& Ganguly, A.K.(1974),J. Phys. C:Sol. St. Phys.,7.4403.
[116] Schmidt,K.,Linemann,H.& Giessing,R.(1974).Proc.4th Int. Conf. Lumin. Dosim.(Krakow).
[117] 李大通,张之淦等编译.核技术在水文地质中的应用指南[M].北京:地质出版社,1990.
[118] Ninkovitch,D.,Shackleton,J.J.,Abdel-Monem,A.A.,Obradovitch,J.D.and Lzett, G., 1978,K-Ar dating of a late Pleistoncene Toba Tuff (North Sumatra).Nature,276:574-577.
[119] 汪品先,闵秋宝,卞云华等.十三万年来南海北部陆坡的浮游有孔虫及其古海洋学意义[J].地质学报,1986,(3):215-225.
[120] 同济大学海洋地质系编著,古海洋学概论.上海:同济大学出版社,1989.
[121] Chen,J.,Farrell,J.W., Murray, D.W. and Pell, L.W.,1995, Timescale and Paleoceanographic implications of a 3.6m.y. Oxygen isotope record from the northeast Indian Ocean (ODP site 758).Paleoceanography, 10:21-47.
[122] 李永祺著.海洋的放射性.北京:科学出版社,1978,1-20.
[123] 库兹涅佐夫著.夏明等译.海洋放射年代学.北京:科学出版社,1981.20-117.
[124] 夏正楷.第四纪环境学[M].北京:北京大学出版社,2000.
[125] 王思敬.根据热释光温度确定滑坡滑动速度的研究[J].科学通报,1990,35(18):1409-1412.
[126] 王栽明,秦大地.热释光剂量法在油气勘查中的应用[J].海相沉积区油气地质,4988,2(1):89-96.
[127] 孙少华,龚革联,刘顺生.南海新生界热释光特征[J].大地构造与成矿学,1995,19(3卷64):266-269.
[128] 官晨钟,曲秀华.渤海BC—1孔岩芯剖面的热释光地层学研究[J].海洋地质与第四纪地质,1987,7(3):71—77.
[129] 官晨钟,曲秀华.南黄海4个沉积岩芯的热释光测年及地层划分[J].海洋科学,1991,5:49—52.
[130] Akridge-Jannette-M-C, Benoit-Paul-H et al. Cosmicray radiation history examined using high temperature TL[J]. Abstrats of papers submitted to the lunar and planetary science conference, 29,1998.
[131] REENA DE, C.N. RAO and I.K. KAUL. Diagenesis and thermoluminescence characteristics of the deep sea carbonate oozes from the Indian ocean[J]. Modern Geology, 1981,7:231-241.
[132] G. Cini Castagnoli, G. Bonino, and A. Provenzale. The 206-Year cycle in tree Ring Radiocarbon data and in the thermoluminescence profile of a recent sea sediment[J].Journal of geophysical research, 94(A9):11971-11976.
[133] REENA DE and I.K. KAUL et al. Thermoluminescence characteristics of the deep sea oozes from the Arabian sea[J]. Indian Journal of Earth Sciences, 1982, 9(2):196-200.
[2] 曹家欣编著.第四纪地质[M].北京:商务印书馆,1983.
[3] 杨怀仁主编.第四纪地质[M].北京:高等教育出版社,1987.
[4] 方念乔.恒河深海扇东北区域晚第四纪气候和海平面变化对沉积作用的控制[J].现代地质,1990,4(1):10-22.
[5] 方念乔.Riviere粒度资料解释法在孟加拉湾深水扇积物流体动力分析中的应用[J].地质论评,1992,3(4):344-351.
[6] Huntley,J.D. et al;1976,Thermoluminence as a potential means of dating siiceous ocean sediments. Canadian Journal of Earth Sciences, No. 13.
[7] Cini Castagnoli ,G. et al; (1985, 1988), Comparison of TL Profiles in recent sea core. Nuclear Tracks, Vol. 10, No4-6.
[8] Wood PB(1994),Optically stimulated luminescence dating of a late Quaternary shoreline deposit,Tunisia. Quaternary Geochronology (QSR) 13.
[9] D. M. Price, E. A. Bryant, R. W. Young. (1999), Thermoluminescence evidence for the deposition of coastal sediments by tsunami wave action. Quaternary International,56,123-128.
[10] 李虎侯.《热释光断代》[M].Scientist Press International,Inc.1999.
[11] 温孝胜,刘韶,张惠玲等.南海沉积物中U,Th分布特征及其古环境意义[J].热带海洋,1997,16(3):32-39.
[12] 刘韶,温孝胜,余克服等.南沙群岛海区沉积物中铀含量与冰期关系初探[J].海洋地质与第四纪地质,1999,19(2):49-53.
[13] 王湘云,章邦桐.石英热释光的标型意义—相山铀矿床的研究实例[J].矿床地质,1996,15(2):182-187.
[14] 方念乔,丁旋,陈学方等.孟加拉湾MD77190柱状样第3期的韵律沉积记录及快速气候变化[J].第四纪研究,1999,6,511-517.
[15] 方念乔,陈学方,胡超涌等.东北印度洋深海记录基本特征及其对青藏高原隆升的响应[J].第四纪研究,2001,21(6),490-499.
[16] 方念乔,陈学方,丁旋等.盂加拉湾和东经90°海岭260Ka以来的古海洋学记录与印度季风的影响[J].中国科学(D辑),2001,31卷,增刊,280-286.
[17] 李国祯,罗达玲,张纯祥等.MgSO4:Dy,Mn磷光体的热释光和ESR特性研究[J].中山大学学报,2000,39(2):32-39.
[18] 汪品先等.寻求高分辨率的古环境记录[J].第四纪研究,1999,1,1-17.
[19] 侯红明,袁友仁,王宝贵.第四纪研究中的米兰科维奇周期[J].南海研究与开发,1994,4:61-67.
[20] Chen Chi-Chieu. Application of Thermoluminescence Techniques to Mineral Exploration-Principles and Advantages[J]. Journal of China University of Geosciences,2000,11(2): 123-127.
[21] Fang Nianqiao Chen xuefang Hu Chaoyong et al., Rapid Climatic Change during Past 60ka Recorded in NE Indian Ocean and Its Correspondence from South China Land[J]. Journal of China University of Geosciences,2000,11(3):252-258.
[22] 丁旋.孟加拉湾十五万年来的古海洋学研究[D].中国地质大学博士论文,1998,北京.
[23] 陈学方.东北印度洋古海洋学研究[D].中国地质大学博士论文,2001,北京.
[24] 李怀渊.勘查隐伏砂岩型铀矿物化探方法的研究与应用[D].中国地质大学博士论文,2001,北京.
[25] 张纯祥,唐强,罗达玲.掺稀土元素Dy和Mn,P,Cu的MgSO_4的热释发光光谱[J],物理学报,2000,49(10):2072-2077.
[26] 韦刚健,桂训唐,于津生.南海NS90-103沉积物柱样沉积年代研究[J].地球化学,1996,25(5):494-502.
[27] A.C.马尔富宁著,蔡秀成,富毓德,阚学敏等译.矿物的谱学、发光和辐射中心[M].北京:科学出版社,1984.
[28] 赵其渊等编,海洋地球化学[M].北京:地质出版社,1989.
[29] 汪品先等编,海洋微体古生物论文集[M].北京:海洋出版社,1980.
[30] 吴大清,彭金莲,刁桂仪等.沉积CaCO_3与金属离子界面反应动力学研究[J].地球化学,2000,29(1):56-61.
[31] 韦刚健,李献华,陈毓蔚.NS93-5钻孔沉积物高分辨率过渡金属元素变化及其古海洋记录[J].地球化学,2001,30(5):450-458.
[32] M.Oberhofer A.Scharmann等著,张彤,华钟亮,李湘葆等译,李颖,李元芳校.应用热释光剂量学[M].北京:中国计量出版社,1988.
[33] 王维达主编.中国热释光与电子自旋共振测定年代研究[M].北京:中国计量出版社,1997.
[34] 程业勋,章晔,王南萍等.土壤天然热释光测量在油田勘探中的初步应用[J].物探与化探.1996,20(4):188-294.
[35] Siegal, F.R.,Chen, R.,Vaz, J.E.,Mathur, V.K.,The integrated radiation environment at well sites-an adjunct to petroleum exploration[J]. Oil Gas J.,1997,Oct. 6,91-96.
[36] N.E. Yanaki, D. Ashery, J. Kronfeld. Gamma-ray analysis of the sediments overlyingthe Helez and Kochav oil fields, Israel[J].Journal of Geochemical Exploration 66.1999,249-254.
[37] 刘海生,程业勋,王南萍等.沉积物天然热释光在海洋油气勘查中的应用[J].海洋地质与第四纪地质,2001 21(1)107-112.
[38] [美]S.W.S.Mckeever著,蔡干钢 吴方 王所亭译.固体热释光[M].原子能出版社,1993,9-14.
[39] 李志远,祝汉民,程荣林等译,李正德等校.海洋放射性调查方法[M].北京:海洋出
版社,1981,P39-41.
[40] 郑公望.热释光及其在石油勘探中的应用[J].石油勘探与开发,1993,20(4):49-51.
[41] 王南萍.核技术(放射性方法)勘查油气田的机理与数据处理方法技术研究[D].中国地质大学北京博士学位论文,1996.
[42] Roy A. MacDIARMID, Natural Thermoluminescence as a prospecting tool for hydrothermal ores in carbonate host rocks, in: Thermoluminescence of Geological Materials, London-New York,Academic Press,547-556,1968.
[43] DAVID, J. McDOUGALL, Natural Thermoluminescence of igneous rooks and associated ore deposits, in: Thermoluminescence of Geological Materials, London-New York,Academic Press,527-544,1968.
[44] Frederic R.Siegel, and J.Eduardo Vaz, Thermoluminescence of clay minerals,in: Thermoluminescence of Geological Materials, London-New York,Academic Press,547-556,1968.
[45] 王南萍,王平,程业勋.第四纪沉积物天然热释光测量勘查深部油气藏的方法原理及应用[J].现代地质,1996,10(4):543-549.
[46] 张健,郭勇.电离辐射剂量监测用热释光探测器[J]军事医学科学院院刊,1994,18(3):183-193.
[47] Martinson, D.G., Pisias,N.G., Hays, J.D., Imbrie,J., Moore, T. C., Jr. and Shackleton, N.J.,1987,Age dating and the orbital theory of the ice ages: development of a high resolution 0-300000 years chronostratigraphy. Quaternary Research,27:1-29.
[48] Fang Nianqiao, 1987,Le controle climatique de la sedimentation Quatemative Recente dans La region moyenne Du come Profond du gange (Ocean Indian). Memoires des sciences de la Terre, Academie de Paris University Pierre et Marie Curie.
[49] N. Fang, X.Ding, X.Chen and H. Nie. Rapid climatic and oceanographic changes in Bengal Bay, Northeastern Indian ocean. Paleoceanographic Congress Ⅵ. 1998,Lisbon.82.
[50] 方念乔,丁旋,陈学方等.6万年以来孟加拉湾的快速气候变化记录及其与高纬度地区记录的遥相关[J].第四纪研究,1999,(6):511-517.
[51] 丁旋,方念乔,万晓樵.孟加拉湾晚第四纪冰期和间冰期古生产力演变研究[J].海洋地质与第四纪地质,1999,19(3):49-58.
[52] 丁旋,方念乔,万晓樵.孟加拉湾晚第四纪季风气候及其古海洋学记录[J].现代地质,2000,14(2):295-300.
[53] 吴世迎,刘焱光,王湘芹等.冲绳海槽中段沉积岩芯碳酸岩和烧失量的古环境意义[J].黄渤海海洋,2001,19(2):17-24.
[54] 李虎侯.氧化铝对α辐射的热释光效应[J].第四纪研究,1999,6:571.
[55] M.C.A.Jannette, H. B .Paul. Cosmic ray radiation history examined using high temperature Thermoluminescence. Lunar and planetary Science Conference 29,1998.
[56] 杜德文,孟宪伟,王永吉等.沉积物物源组成的定量判别方法及其在冲绳海槽的应用[J].海洋与湖沼,1999,30(5):532-539.
[57] 陈忠,颜文.海洋沉积物粘土矿物与古气候、古环境演化响应的研究进展[J].海洋科学,2000,24(2):25-26.
[58] 刘广山,黄奕谱,陈敏等.南沙海区表层沉积物放射性核素分布特征[J].海洋科学,2001,
25(5):1-6.
[59] 王成善,胡修棉,李祥辉.古海洋容解氧与缺氧和富氧问题研究[J].海洋地质与第四纪地质,1999,19(3):39-48.
[60] 吴世炎,尹明瑞,曾宪章等.大洋表层水中~(226)Ra的分布[J].热带海洋学报,2001,20(2):54-59.
[61] 赖忠平,周杰,卢演涛.风成沉积物红外及绿光释光测年比较研究[J].海洋地质与第四纪地质,2000,20(1):57-62.
[62] 王文远,刘嘉麒,潘懋。末次间冰期以来黄土—古土壤的热释光测年—渭南、会宁剖面的对比研究[J].海洋地质与第四纪地质,2000,20(3):67-72。
[63] 蓝先洪,申顺喜.南黄海中部沉积岩芯的地球化学特征[J].海洋地质与第四纪地质,2000,20(2):33-38.
[64] 陈志华,石学法,王湘芹.南黄海表层沉积物碳酸盐及Ca、Sr、Ba分布特征[J].海洋地质与第四纪地质,2000,20(4):9-16.
[65] 房殿勇,成鑫荣,吴国瑄.南沙南部近30ka来的古海洋学记录[J].海洋地质与第四纪地质,2000,20(4):81-86.
[66] 李双林.东海陆架HY126EAl孔沉积物稀土元素地球化学[J].海洋学报,2001,23(3):127-132.
[67] 胡修棉,王成善,李祥辉.大洋缺氧事件的碳稳定同位素响应[J].成都理工学院学报,2001,28(1):1-6.
[68] 程振波,刘振夏,石学法等.东海DGKS96-03岩芯中微体化石的古海洋学特点,δ ~(18)O曲线与AMS~(14)C测年[J].沉积学报,2000,18(4):501-505.
[69] 陈晔,袁林旺,周春林等.柴达木盆地第四纪古气候变化在自然伽玛测井曲线上的记录[J].古地理学报,2001,3(2):29-37.
[70] 李强,倪师军,要全泰.压力对热释光退激效应的探讨[J].成都理工学院学报,1994,21(1):78-83.
[71] 孙云明,宋金明.海洋沉积物—海水界面附近氮、磷、硅的生物地球化学[J].地质论评,2001,47(5):527-534.
[72] 胡守云,邓成龙,E.Appel K.VerDsub.湖泊沉积物磁学性质的环境意义[J].科学通报,2001,46(17):1491-1494.
[73] P.D.Jones, T.J.osborn,k,R.Briffa. The Evalution of climate over the Last Millennium[J].Science,2001,292(5517):662-666.
[74] 孟宪伟,杜德文,程振波.冲绳海槽有孔虫壳体的微量元素Sr,Nd同位素地球化学[J].海洋学报,2001,23(2):62-68.
[75] 向荣,李铁刚,阎军.冲绳海槽表层沉积物中浮游有孔虫壳体的氧同位素分布特征及其影响因素[J].海洋地质与第四纪地质,2001,21(3):11-16.
[76] 陈杰,卢演涛,魏兰英等.第四纪沉积物光释光测年中等效剂量测定方法的对比研究[J].地球化学,1999,28(5):443-452.
[77] 温孝胜,赵焕庭,王丽荣.南沙群岛南永三井岩芯常量元素和微量元素特征及其古环境意义[J].海洋通报,2001,20(4):32-38.
[78] 孙继敏,刁桂仪,文启忠.用黄土地球化学参数进行古气候定量估算的初步尝试[J].地
球化学,1999,28(3):265-272.
[79] 韦刚键,李献华,孔敏等.南海北部珊瑚Ca/Ba比值的季节变化及其环境意义[J].地球化学,2000,29(1):67-72.
[80] 贾国东,翦知湣,彭平安等.南海南部17962柱状样生物硅沉积记录及其古海洋意义[J].地球化学,2000,29(3):293-296.
[81] 周根陶,郑永飞.文石—水体系氧同位素分镏机理的实验研究[J].地球化学,1999,28(6):521-533.
[82] 张峰,王世杰.裂变径迹研究三峡九湾溪断裂带断裂时期[J].地球化学,2000,29(2):162-166.
[83] 涂霞,郑范,陈木宏.南海南部NS93-5柱样揭示的晚第四纪以来的古海洋学特征[J].热带海洋,2000,19(4):36-44.
[84] 田玉红,张正斌,刘莲生.南沙群岛海区表层沉积物吸附铜离子的实验研究[J].热带海洋,1999,18(4):69-74.
[85] 涂霞,郑范,陈木宏等.南海南部陆坡区的浮游有孔虫及其所表征的表层古水温[J].热带海洋,2000,19(3):40-49.
[86] 温效胜,涂霞,秦国权等.南沙群岛永暑礁小瀉湖岩芯有孔虫动物群及其沉积环境[J].热带海洋学报,2001,20(4):14-22.
[87] 周厚云,郭国章,余寿华.珠江口SX97孔7000aB.P.以来石英矿物含量反应的气候变化[J].热带海洋学报,2001,20(4):1-5.
[88] 徐建,黄宝琦,陈荣华等.南海东北部表层沉积物中有孔虫的分布及其环境意义[J].热带海洋学报,2001,20(4):6-13.
[89] S.k. Toler,D.Hallock and J.Schijf. Mg/Ca ration in stressed foraminifera, Amphistegina gibbosa,from the Florida keys[J].Marine micropaleontology,2001,43(3-4):199-206.
[90] 吴明清,王贤觉.东海沉积物的稀土和微量元素[J].地球化学,1991,1:40-46.
[91] 沈华悌.深海沉积物中的稀土元素[J].地球化学,1990,4:340-348.
[92] 耿安松,文启忠.陕西洛川黄土中碳酸盐的某些地球化学特征[J].地球化学,1988,3,267-275.
[93] 张丽洁,刘季花,姚德.海底水—沉积物界面系统中稀土元素的变化及配分特征[J].海洋学报,1995,17(1):52-58.
[94] 黄奕谱,姜德盛,徐茂泉等.南海东北部表层海水中~(226)Ra的分布[J].热带海洋,1997,16(2):75-81.
[95] 侯红明,汤贤赞,王保贵等.南沙群岛海域沉积物古地磁参数对米兰科维奇周期的响应[J].热带海洋,1995,14(3):1-7.
[96] 温效胜,赵焕庭,张乔民等.伶仃洋第四纪沉积物的铀含量和年龄分析[J].热带海洋,1994,13(3):90-94.
[97] 古森昌,陈绍谋,吴必豪等.南海表层沉积物稀土元素的地球化学[J].热带海洋,1989,8(2):93-101.
[98] 陈木宏,陈绍谋.南海碳酸盐溶解与深海沉积物类型[J].热带海洋,1989,8(3):20-26.
[99] 刘敬圃.末次盛冰期西太平洋边缘海区古海洋学特征[J].海洋科学,1995,3:14-15.
[100] 韦刚键.海水中Sr同位素组成变化的环境意义与Sr同位素地层学[J].海洋科学,1995,
1:23-25.
[101] 李培泉,康兴伦.海水中的~(18)O/~(16)O比值及其应用[J].海洋科学,1988,6:44-47.
[102] 黄宝林,卢良才.热释光(TL)断代技术对长江三峡地区断层活动的测年应用[J].南海研究与开发,1994,总122期,No.2:51-54.
[103] 陈史坚.孟加拉湾[J].南海研究与开发,1993,总120期,No.4:51-56.
[104] 陈进兴.大亚湾核电站周围海洋沉积物中的放射性本底值的研究[J].南海研究与开发,1991,总112期,No.4:16-18.
[105] 刘季花,梁宏锋,姚德等.东太平洋沉积物U的地球化学[J].海洋地质与第四纪地质,1996,16(1):59-68.
[106] 吴时国,涂霞,罗又郎.南沙群岛海区晚第四纪深海碳酸盐沉积作用[J].海洋地质与第四纪地质,1996,16(3):67-80.
[107] 黄健,许善锦,卢军芳等.稀土离子对溶液体系中碳酸钙生成的影响[J].中国稀土学报,2001,19(5):478-480.
[108] N.E.Yannaki,D.Ashery, J.Kronfeld. Gamma-ray analysis of the sediments overlying the Helez and Kochav oil fields,Israel[J].Journal of Geochemical Exploration, 1999, 66, 249-254.
[109] F.B.Barker,J.O.Johnson,K.W. Edwards and B.P. Robinson,Determination of U in natural waters, U.S.Geol.Survey water-supply paper, 1696-C,1965.
[110] T.L.Ku,An evalution of the 234U/238U method as a tool for dating pelagic sediments,J. Geophys. Res. 70(1964)3457.
[111] F.F. Koczy, Remarks on age determination in deep sea sediments, in: Progress in oceanography, Vol.3 (Pergamon Press, London, New York, 1965)p. 155.
[112] E.D.Goldberg and J.J.Griffin, Sedimentation rates and mineralogy in the south Atlantic,J. Geophys. Res. 69(1969)4293.
[113] 邵孝侯,侯文华,刑光熹.土壤固相不同组成对铜锌的吸附研究[J].环境化学,1994,13(4):340-345.
[114] 王南萍.第四纪沉积物天然热释光测量方法技术研究.中国地质大学(北京),2001.
[115] Nambi,K.S.V.,Bapat, V.N.& Ganguly, A.K.(1974),J. Phys. C:Sol. St. Phys.,7.4403.
[116] Schmidt,K.,Linemann,H.& Giessing,R.(1974).Proc.4th Int. Conf. Lumin. Dosim.(Krakow).
[117] 李大通,张之淦等编译.核技术在水文地质中的应用指南[M].北京:地质出版社,1990.
[118] Ninkovitch,D.,Shackleton,J.J.,Abdel-Monem,A.A.,Obradovitch,J.D.and Lzett, G., 1978,K-Ar dating of a late Pleistoncene Toba Tuff (North Sumatra).Nature,276:574-577.
[119] 汪品先,闵秋宝,卞云华等.十三万年来南海北部陆坡的浮游有孔虫及其古海洋学意义[J].地质学报,1986,(3):215-225.
[120] 同济大学海洋地质系编著,古海洋学概论.上海:同济大学出版社,1989.
[121] Chen,J.,Farrell,J.W., Murray, D.W. and Pell, L.W.,1995, Timescale and Paleoceanographic implications of a 3.6m.y. Oxygen isotope record from the northeast Indian Ocean (ODP site 758).Paleoceanography, 10:21-47.
[122] 李永祺著.海洋的放射性.北京:科学出版社,1978,1-20.
[123] 库兹涅佐夫著.夏明等译.海洋放射年代学.北京:科学出版社,1981.20-117.
[124] 夏正楷.第四纪环境学[M].北京:北京大学出版社,2000.
[125] 王思敬.根据热释光温度确定滑坡滑动速度的研究[J].科学通报,1990,35(18):1409-1412.
[126] 王栽明,秦大地.热释光剂量法在油气勘查中的应用[J].海相沉积区油气地质,4988,2(1):89-96.
[127] 孙少华,龚革联,刘顺生.南海新生界热释光特征[J].大地构造与成矿学,1995,19(3卷64):266-269.
[128] 官晨钟,曲秀华.渤海BC—1孔岩芯剖面的热释光地层学研究[J].海洋地质与第四纪地质,1987,7(3):71—77.
[129] 官晨钟,曲秀华.南黄海4个沉积岩芯的热释光测年及地层划分[J].海洋科学,1991,5:49—52.
[130] Akridge-Jannette-M-C, Benoit-Paul-H et al. Cosmicray radiation history examined using high temperature TL[J]. Abstrats of papers submitted to the lunar and planetary science conference, 29,1998.
[131] REENA DE, C.N. RAO and I.K. KAUL. Diagenesis and thermoluminescence characteristics of the deep sea carbonate oozes from the Indian ocean[J]. Modern Geology, 1981,7:231-241.
[132] G. Cini Castagnoli, G. Bonino, and A. Provenzale. The 206-Year cycle in tree Ring Radiocarbon data and in the thermoluminescence profile of a recent sea sediment[J].Journal of geophysical research, 94(A9):11971-11976.
[133] REENA DE and I.K. KAUL et al. Thermoluminescence characteristics of the deep sea oozes from the Arabian sea[J]. Indian Journal of Earth Sciences, 1982, 9(2):196-200.