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1.
通过对南海西沙石岛已完钻的科学探井——西科1井进行岩性组合特征、元素地球化学、TEX86等多种指标分析,尝试恢复了西沙地区中新世以来海平面变化,讨论了碳酸盐岩台地形成发育的控制因素。发现受控于南海区域性构造事件及全球海平面变化的双重影响,西沙地区海平面呈现早中新世高—中中新世低—晚中新世到上新世高—第四纪低的变化趋势,海水温度从早中新世到上新世呈整体下降趋势。岩性组合特征揭示,西沙地区碳酸盐岩台地在早中新世开始发育,到中中新世逐渐繁盛,在中中新世末达到顶峰,形成了包含潟湖相在内的大型礁盘;在晚中新世—上新世由于海平面快速上升以及海水温度下降而逐渐衰退淹没,到第四纪进一步持续萎缩。研究发现,西沙地区在早中新世和晚中新世—上新世,出现2次较强的白云岩化作用,与海平面下降造成碳酸盐岩台地暴露剥蚀直接相关。西科1井揭示的碳酸盐岩台地的发育演化过程是南海新生代碳酸盐岩台地繁荣与消亡的代表,是南海新生代构造演化与全球气候变迁相互作用的综合结果。 相似文献
2.
西沙海域中新世碳酸盐台地的时空分布及其油气成藏模式 总被引:1,自引:0,他引:1
本文基于南海北部西沙海域地震数据及钻井资料,结合碳酸盐台地的边缘特征及其地震反射特征,首次建立了研究区中新世碳酸盐台地边界的三个识别标志:岩性突变界面、断层界面和潮汐水道。在对地震数据系统的解释和钻井资料分析基础之上,厘定了该区生物礁及碳酸盐台地的时空分布,总结其分布规律,西沙海域中新世碳酸盐台地可以分为六期,进一步划分三个演化阶段,分别为中中新世早期的繁盛阶段、中中新世晚期的衰退阶段、晚中新世以来的淹没阶段,各阶段碳酸盐台地的沉积相带发育完整,其中生物礁主要分布台地的西-西南缘。统计结果显示,生物礁及碳酸盐台地全面发育时期的面积达到了80000km~2,后期随着台地的衰退而规模有所减小。西沙海域中新世碳酸盐岩分布广泛、规模巨大,而且在发育过程中经历了多期暴露而遭受淋滤,进一步增大了其孔隙度,具备形成优质储层的前提。结合区域油气地质条件分析与探讨,建立生物礁及碳酸盐台地的成藏模式,提出西沙海域碳酸盐台地具有典型"下生上储上盖"的成藏过程,指出西沙海域邻近华光凹陷和中建南盆地北部的碳酸盐台地是油气勘探的两大有利区带。 相似文献
3.
生物礁及碳酸盐台地是南海南部重要的油气储层之一,但目前对万安盆地生物礁的识别及碳酸盐台地沉积相带的划分尚不够深入.基于钻井和地震数据对该区的生物礁及碳酸盐台地进行了精细刻画,万安盆地中生物礁及碳酸盐台地的发育可分为4个演化阶段:早中新世时期,碳酸盐台地初始发育,台地规模小、数量少,零星分布于盆地中部;中中新世台地发育进入繁盛阶段,主要分布于北部隆起、中部隆起及隆起周缘的斜坡之上,横向上呈东、西带状展布,此时期的生物礁以台地边缘礁和块状礁为主;至晚中新世时期,碳酸盐台地开始衰退,而生物礁类型全、数量多,包括台地边缘礁、块状礁、塔礁、点礁等;上新世以来,生物礁及碳酸盐台地全面被淹没,盆地内部不再有生物礁及碳酸盐台地的发育.构造作用和相对海平面变化控制了碳酸盐台地的发育演化过程,古近纪基底断裂产生的地形控制了生物礁及碳酸盐台地初始发育位置及后期发育的空间分布,晚中新世以来的快速沉降和相对海平面变化控制了台地的衰退及淹没过程. 相似文献
4.
珠江口盆地新生代碳酸盐岩形成地质条件 总被引:2,自引:0,他引:2
珠江口盆地新生代碳酸盐岩分布面积大,已发现我国海上最大生物礁油田,具有重要研究价值。本文根据南海新生代构造演化及珠江口盆地新生代构造沉积演化,研究碳酸盐岩形成地质条件。发现南海新生代碳酸盐岩分布与新生代古南海消亡及新南海扩张密切相关,适宜碳酸盐岩发育的窗口期正是新南海扩张期,明显受新南海扩张的控制。新南海在渐新世—中新世的两期扩张,与新特提斯弧后扩张有关。珠江口盆地发育两种类型的碳酸盐台地,即古隆起镶边碳酸盐台地和火山建隆孤立碳酸盐台地。古隆起或火山建隆分布、构造沉降及全球海平面升降是珠江口盆地碳酸盐岩及生物礁发育的主控因素。 相似文献
5.
碳酸盐岩礁滩体系是南海海域重要的油气储层之一.南海西沙岛屿全取心的科学钻井——西科1井, 为南海碳酸盐岩礁滩体系的详细研究提供极好的条件.通过西科1井岩心的宏观描述及微观分析, 结合高分辨岩心扫描及大量分析测试结果, 对碳酸盐岩礁滩体系展开了精细研究.根据识别出的6个暴露面、2个淹没面, 将西科1井中中新世以来划分为9个三级层序.其中晚中新世黄流组和第四系乐东组为主要成礁期, 以海泛面和暴露面为标志, 将礁体归纳为淹没型生长单元和暴露型生长单元两大类, 暴露型又进一步细分为硬基底和软基底两类, 淹没型可细分为快速淹没和缓慢淹没两类.垂向上形成了极具特色的礁体组合, 即慢步礁(或淹没礁)、同步礁(加积礁)、快步礁(暴露礁).研究成果对于南海生物礁生长过程及碳酸盐岩礁滩储层勘探具有重要参考价值. 相似文献
6.
新近纪以来,在大陆边缘以及火山基底隆起等构造背景下,安达曼海域广泛分布生物礁碳酸盐。为了更好地了解安达曼海域的构造演化以及区域古环境特征,通过高分辨率地震剖面,将台地边缘地层划分为5个地震层序。在建立的地震层序格架下,探讨了区域中新世生物礁演化模式及发育控制因素。研究认为安达曼海域东部台缘阶地中新世生物礁生长发育以及空间展布形态主要受中新世时期构造作用所形成的地势形态和海平面升降等因素联合控制。安达曼海中新世经历了裂谷期至弧后走滑拉分期,且伴随着海平面的上升。南部实皆断裂造成的东高西低的地势形态为东部阶地生物礁碳酸盐发育提供了有利场所,次级断裂造成了生物礁东西分割的格局,而海平面的稳定上升使得生物礁稳定生长。 相似文献
7.
南海新生代碳酸盐台地分布面积广、厚度巨大,但大部分已经淹没,成为淹没碳酸盐台地,它们孕育着南海海盆演变的
重要信息.南海碳酸盐台地伴随着南海陆缘张裂而发育,最初主要发育在两个共轭陆缘伸展地块的构造高地.南海经历了大陆
边缘伸展、岩石圈减薄和地幔剥露等过程,始新世到早渐新世的第二期NE-SW 向扩张,形成了破裂不整合面,随之发生了晚
渐新世至早中新世的海底扩张,形成中央海盆.构造沉降提供了台地生长的可容纳空间,构造掀斜作用、断裂作用和前陆盆地
前沿挤压褶皱的迁移控制了台地各单元厚度、沉积相和地震反射终止特征在横向上的变化,构造控制的相对海平面的变化控
制了不同级序生物礁碳酸盐台地的沉积旋回,而后期加速沉降导致碳酸盐台地淹没. 相似文献
8.
《现代地质》2016,(4)
生物礁是由原地的固着生物所建造的块状碳酸盐岩沉积。西沙海域自中新世以来发育了厚层生物礁地层。通过对最新全取心钻井西科1井岩心的宏观观察和微观分析,结合古生物及岩心测试成果,发现西科1井中新世和第四纪为主要造礁期,形成了两套分别以珊瑚藻和珊瑚为主要造礁生物的生物礁序列,底栖有孔虫为主要的附礁生物,而上新统为一套滩相沉积。生物礁序列发育骨架岩、粘结岩和障积岩三种礁相岩石,以骨架岩含量最高,非礁相岩石包括泥灰岩、颗粒灰岩和生物碎屑灰岩三种。白云岩地层以晚中新世到上新世早期最为发育,多为准同生白云石化作用所致,并受热液活动的影响。对生物礁序列的沉积分析,可为后期南海油气勘探以及生物礁储层分布研究提供一些基础材料。 相似文献
9.
西科1井由于矿化重结晶作用和白云岩化作用普遍发育, 无法采用传统的氧同位素地层学方法进行地层年代标定.但是该井δ13C变化曲线与南海及全球主要大洋的碳同位素变化曲线完全相同, 可以用来准确标定200 ka以来的地层年龄.该井0~50 m深度对应全球氧同位素1~7期, 5 m处地层时代为14 ka, 为氧同位素1期的底界年龄; 11.70 m处为氧同位素2期的底界, 年龄为29 ka; 13.90 m深度年龄为57 ka; 到35.65 m为氧同位素6期底界, 年龄为191 ka, 同时δ13C值表现出冰期低而间冰期高的特点, 取自25.21 m的珊瑚U-Th定年年龄为131.062±2.320 ka.通过碳同位素定年发现, 石岛缺失近代5 ka以来的沉积物, 在间冰期向冰期转换时因海平面下降造成碳酸盐台地暴露剥蚀.全球气候变化是石岛碳酸盐台地δ13C值发生突变的主要原因. 相似文献
10.
"巫山黄土"是指分布于长江三峡地区的黄土状堆积物,是中国黄土的重要组成部分,具有重要的古气候环境意义.微生物四醚膜脂是反演古气候环境的灵敏指标,为了进一步理解巫山黄土中蕴含的古气候意义,通过测定巫山黄土中微生物醚类化合物(glycerol dialkyl glycerol tetraethers,GDGTs)并分析其分布特征,基于支链GDGTs(bGDGTs)的甲基化指数(methylation index of branched tetraethers,MBT)和环化指数(cyclization ration of branched tetraethers,CBT)重建该地44.4~22.8 ka.BP的古温度年平均气温(mean annual air temperature,MAAT),MAAT与频率磁化率曲线和北大西洋沉积物有孔虫曲线对比,其变化趋势具有一致性,反映了其指标的可靠性.巫山黄土的陆源输入指数(BIT值,bGDGTs vs.crenarchaeol)在0.5~1.0之间,大部分值接近于1.0,但有几个极低值,分析为干旱事件.根据MAAT和BIT指标,巫山地区在冰期气候有剧烈的波动,在36.2±3.6 ka.BP、26.0±2.7 ka.BP、23.7±2.3 ka.BP时相对比较干旱,推测可能分别对应着H4、H3和H2事件,表明该区气候变化响应全球气候变化. 相似文献
11.
Miocene carbonate platforms cover a large part of the Central Vietnamese South China Sea margin. Early carbonate deposition took place on two regional platforms separated by a narrow depression developed along the trace of the East Vietnam Boundary Fault Zone. West of the East Vietnam Boundary Fault Zone, the Tuy Hoa Carbonate Platform fringes the continental margin between Da Nang and Nha Trang. Here, platform growth initiated during the Early Miocene and continued until Middle Miocene time when regional uplift led to subaerial exposure, termination of platform growth and karstification. East of the fault zone, the Triton Carbonate Platform was also initiated during the Early Miocene. Carbonate growth thrived during Early and part of Middle Miocene time and a thick, clean Lower and Middle Miocene carbonate succession cover the Triton Horst and the Qui Nhon Ridge. During the Middle Miocene, partial drowning resulted in the split-up of the Triton Carbonate Platform. Repeated partial drowning events throughout the Middle and Late Miocene resulted in westwards retreat of platform growth and eventual platform drowning and termination of carbonate deposition. Modern carbonate growth continues on isolated platforms hosting the Paracel Islands farther seawards. The onset of widespread carbonate deposition largely reflects the Early Miocene transgression of the area linked with early post-rift subsidence and the opening of the South China Sea. The mid-Neogene shift in carbonate deposition is interpreted as a consequence of regional uplift and denudation of central and south Indochina starting during Middle Miocene time when the Tuy Hoa Carbonate Platform became subaerially exposed. Stressed carbonate growth conditions on the Triton Carbonate Platform probably resulted from increased inorganic nutrient input derived from the uplifted mainland, possibly enhanced by deteriorated climatic conditions and rapid sea-level fluctuations promoting platform drowning. 相似文献
12.
YAN Wei ZHANG Guangxue XIA Bin ZHANG Li YANG Zhen LEI Zhenyu YAO Huiqiang 《《地质学报》英文版》2020,94(5):1651-1661
The Beikang Basin is located in the southern part of the South China Sea (SCS), which is one of most tectonically complex sea areas. It is a deepwater sedimentary basin that was mainly deposited during the Cenozoic era. Owing to data restrictions, the research on carbonate platforms of this area is still in its infancy. High-resolution seismic data are analyzed to identify the Miocene carbonate platforms and reconstruct the architecture and growth history. The carbonate platforms of Beikang Basin began to develop in the Late Oligocene-Early Miocene, were extended in the Middle Miocene, and declined in the Late Miocene. The carbonate platform mainly developed during two periods: the Oligocene to the Early Miocene, and the Middle Miocene. The carbonate platforms that developed in the Middle Miocene were the most prosperous. The Middle Miocene carbonate platform in the Beikang Basin can be divided into three stages. In the first stage, the platforms had wide range which were thin. During the second stage, the platforms had a smaller range that was controlled by faults. In the third stage, the platforms were gradually submerged. The platform structure developed in the Middle Miocene at the Beikang Basin was controlled by the rate of rising/falling of the sea level and the carbonate growth rate. Based on an analysis of these changes and relationship, the platform can be divided into several patterns: retrogradation, submerged, aggradation, progradation, outward with up-stepping, outward with down-stepping, and down-stepping platforms. At the top of the carbonate platforms in the Beikang Basin a set of carbonate wings or mushrooms usually appeared. These were formed during a period of relative sea-level decline. It is believed that the Miocene carbonate platforms in the Beikang Basin are mainly controlled by tectonic and sedimentary environments, and are also affected by terrestrial detritus. 相似文献
13.
LI Lin WANG Bin YANG Taotao YANG Zhili LI Li LU Yintao WANG Xuefeng WU Jingwu SUN Guozhong 《《地质学报》英文版》2021,95(1):142-152
Newly-acquired seismic data reveal widespread carbonate deposits covering a large part of the northwestern South China Sea margin.Three carbonate platforms are identified to have developed on the topographic highs inherited from tectonic deformation and volcanic accretion.Across the carbonate platforms,the Miocene strata are characterized by high-amplitude seismic reflections and distinct platform architecture that overlaps older strata.The Guangle and Xisha carbonate platforms grew on faulted blocks due to South China Sea continental rifting,while the Zhongjian carbonate platform developed on a structural high induced by early Miocene volcanism.During the late Miocene,partial drowning resulted in the inhibition of platform growth,eventual platform drowning and termination of most carbonate deposition.The drowning of the Guangle and Zhongjian carbonate platforms is shown by the supply of siliciclastic sediments during the late Miocene and seems to be closely linked to late Neogene volcanic activity,whilst the drowning of the Xisha carbonate platform is primarily related to relative eustatic changes.Our results imply that tectonic activity,volcanism and eustasy are the dominant controls on the evolution of carbonate platforms on the northwestern margin of the South China Sea. 相似文献
14.
Ma Yubo Wu Shiguo Lv Fuliang Dong Dongdong Sun Qiliang Lu Yintao Gu Mingfeng 《Journal of Asian Earth Sciences》2011,40(3):770-783
The Xisha carbonate platforms, which include the modern-day Xisha Atoll, occur upon the northern continental margin of the South China Sea (SCS). In this study, we identify the seismic characteristics about various sedimentary facies of the carbonate platform and different types of reef in this area, based on the 2-D seismic data, reefs show high-amplitue moundy continuous reflection at the top and weak chaotic reflections inside. Carbonate platforms show high-amplitude continuous reflection at the top and high reflection alternative with weak reflection. The above analysis provided information about the influence of fluctuations in relative sea level, tectonic movements, paleotopography and the development mechanism of the carbonate platform. Based on the seismic data and data from drillholes (Xichen-1, Xiyong-1), we propose a schematic sedimentary model of the Xisha carbonate platforms at the northern margin of the SCS and outline five stages of development for the carbonate platform. Its sedimentary evolution consists of Initial establishment stage, development stage, exposure stage, drowning stage and large atoll reefs development stage. We also propose that several phases tectonisms supply proper environment and structural position for carbonate platform development, they can also destroyed the exist platforms. Besides, eustasy change was also the main influential factor on the development of the platforms. 相似文献
15.
Occurrence and distribution of tetraether membrane lipids in soils: Implications for the use of the TEX86 proxy and the BIT index 总被引:3,自引:1,他引:3
Johan W.H. Weijers Stefan Schouten Otto C. Spaargaren Jaap S. Sinninghe Damst 《Organic Geochemistry》2006,37(12):1680
A diverse collection of globally distributed soil samples was analyzed for its glycerol dialkyl glycerol tetraether (GDGT) membrane lipid content. Branched GDGTs, derived from anaerobic soil bacteria, were the most dominant and were found in all soils. Isoprenoid GDGTs, membrane lipids of Archaea, were also present, although in considerably lower concentration. Crenarchaeol, a specific isoprenoid membrane lipid of the non-thermophilic Crenarchaeota, was also regularly detected and its abundance might be related to soil pH. The detection of crenarchaeol in nearly all of the samples is the first report of this type of GDGT membrane lipid in soils and is in agreement with molecular ecological studies, confirming the widespread occurrence of non-thermophilic Crenarchaeota in the terrestrial realm. The fluvial transport of crenarchaeol and other isoprenoid GDGTs to marine and lacustrine environments could possibly bias the BIT index, a ratio between branched GDGTs and crenarchaeol used to determine relative terrestrial organic matter (TOM) input. However, as crenarchaeol in soils is only present in low concentration compared to branched GDGTs, no large effect is expected for the BIT index. The fluvial input of terrestrially derived isoprenoid GDGTs could also bias the TEX86, a proxy used to determine palaeo surface temperatures in marine and lacustrine settings and based on the ratio of cyclopentane-containing isoprenoid GDGTs in marine and lacustrine Crenarchaeota. Indeed, it is shown that a substantial bias in TEX86-reconstructed sea and lake surface temperatures can occur if TOM input is high, e.g. near large river outflows. 相似文献
16.
Selective preservation of soil organic matter in oxidized marine sediments (Madeira Abyssal Plain) 总被引:1,自引:0,他引:1
Carme Huguet Gert J. de Lange Jack J. Middelburg Jaap S. Sinninghe Damsté Stefan Schouten 《Geochimica et cosmochimica acta》2008,72(24):6061-6068
In ocean margin sediments both marine and terrestrial organic matter (OM) are buried but the factors governing their relative preservation and degradation are not well understood. In this study, we analysed the degree of preservation of marine isoprenoidal and soil-derived branched glycerol dialkyl glycerol tetraethers (GDGTs) upon long-term oxygen exposure in OM-rich turbidites from the Madeira Abyssal Plain by analyzing GDGT concentrations across oxidation fronts. Relative to the anoxic part of the turbidites ca. 7-20% of the soil-derived branched GDGTs were preserved in the oxidized part while only 0.2-3% of the marine isoprenoid GDGT crenarchaeol was preserved. Due to these different preservation factors the Branched Isoprenoid Tetraether (BIT) index, a ratio between crenarchaeol and the major branched GDGTs that is used as a tracer for soil-derived organic matter, substantially increases from 0.02 to 0.4. Split Flow Thin Cell (SPLITT) separation of turbidite sediments showed that the enhanced preservation of soil-derived carbon was a general phenomenon across the fine particle size ranges (<38 μm). Calculations reveal that, despite their relatively similar chemical structures, degradation rates of crenarchaeol are 2-fold higher than those of soil-derived branched GDGTs, suggesting preferential soil OM preservation possibly due to matrix protection. 相似文献
17.
This study investigates the evolution of the Miocene Guangle carbonate platform(or Triton Horst)of the northwestern South China Sea margin.The platform is located at a junction area surrounded by Yinggehai basin,Qiongdongnan basin and Zhongjiannan basin.Well and regional geophysical data allow the identification of the morphologic and stratigraphic patterns.The Guangle carbonate platform was initiated on a tectonic uplift during the Early Miocene.The early platform was limited at Mesozoic granitic basement,pre-Paleogene sediments localized tectonic uplift and was small extension at the beginning stage.While during the Middle Miocene,the carbonate buildup flourished,and grow a thrived and thick carbonate succession overlining the whole Guangle Uplift.The isolated platforms then united afterward and covered an extensive area of several tens of thousands of square kilometers.However,it terminated in the Late Miocene.What are the control factors on the initiation,growth and demise of the Guangle carbonate platform?The onset of widespread carbonate deposits largely reflected the Early Miocene transgression linked with early post-rift subsidence and the opening of the South China Sea.Stressed carbonate growth conditions on the Guangle carbonate platform probably resulted from increased inorganic nutrient input derived from the adjacent uplifted mainland,possibly enhanced by deteriorated climatic conditions promoting platform drowning.Therefore,tectonics and terrigenous input could be two main controlling factors on the development of the Guangle carbonate platforms and main evolution stages. 相似文献
18.
Glycerol dialkyl glycerol tetraethers (GDGTs) and bulk organic geochemical parameters were examined for a short core from the Bohai Sea, a Yellow River-dominated continental margin. A three end member mixing model using branched/isoprenoid tetraethers (BIT) index, δ13C and C/N shows that the average fractions of soil, marine and plant organic matter (OM) during the period of 1933–2011 are 67.7% (38–92%), 26.1% (0–58%) and 6.2% (0–23%), respectively. Abrupt changes of sedimentary OM compositions around 1953, 1976 and 1996 are synchronous with the Yellow River mouth relocations. The BIT index values (0.33–0.80) present a stronger correlation with crenarchaeol abundance (R2 = 0.88) than branched GDGTs abundance (R2 = 0.27), suggesting that variations of marine Thaumarchaeota abundance rather than soil OM inputs is the first order factor controlling the BIT index values, although this proxy has been widely used for soil OM. The comparison between the BIT index, nutrient status and historical Yellow River sediment load indicates that the high sensitivity of the BIT index to the Yellow River channel shifts cannot be explained by a nutrient stimulation mechanism, but instead is likely caused by the restriction of Thaumarchaeota growth in highly turbid water due to the enormous sediment inputs from Yellow River. Our study demonstrates that local conditions should be considered when applying the BIT index as an environmental proxy. 相似文献
19.
The BIT index represents the relative abundances of branched glycerol dialkyl glycerol tetraethers (bGDGTs) and the isoprenoid GDGT, crenarchaeol. While bGDGTs are produced mainly by soil (anaerobic) bacteria, crenarchaeol is known to be a biomarker for aerobic ammonia oxidation by chemolithoautotrophic Thaumarchaeota, particularly in the open ocean or lakes. Thus, the index in marine and lacustrine settings has been widely used as a proxy for soil input. Here, we have investigated GDGT distribution along two transects extending from the lake shore marsh to upland soils on the NE Qinghai-Tibetan plateau. The results show that soil water content (SWC) correlates positively with concentration of bGDGTs and negatively with concentration of crenarchaeol; consequently, there is a significant positive correlation between SWC and the BIT index. Our study highlights a new potential application of BIT as a humidity proxy in loess/soil and peat deposits. 相似文献