Devonian Sequence Stratigraphy and Sea Level Change Cycles in South China

The Devonian is well developed in South China and has drawn a great attention from the geologists both at domestic and abroad. On the basis of study on the sequence stratigraphy in more than 10 sections in Guizhou, Guangxi, Longmenshan and Southern Qinling within South China we have identified 21 sequences and T-R cycles that correspond to third-order sea level changes. These sea level change cycles were controlled by autorhythm(Pragian,Eifelian), allorhythm(Lochkovian,Emsian,Givetian) and coupling rhythm mechanisms (frasian, Famennian and F-F boundary).

Devonian Sea-Level Change Rhythms in South China and Coupling Relationships Among the Earth-spheres

Twenty orthosequences and their corresponding sea-level change (SLC) cycles have been recognized in the Devonian overlying the Caledonian unconformity, of which 9, 5.5 and 5.5 occurred in the Lower, Middle and Upper Devonian respectively. They can be grouped into 4 orthosequence sets, in which the maximum flooding surfaces lie in the sulcutus Zone (D12), perbonus Zone (D13), Middle and Upper varcus Zone (D22) and gigas Zone (D21) respectively. Four instant palaeogeographical reconstructions of South China have been made in the Emsian and Givetian. Devonian sea-level change rhythms of South China can be divided into 3 categories: the autorhythmic, the worldwide and regional allorhythmic, and the coupling-rhythmic. They developed respectively in the Famennian, Pragian, Eifelian, Lochkovian, Emsian, Givetian, Frasnian and the F / F (between the Frasnian and Famennian) event. The cause of the worldwide allorhythmic SLC of the Pragian and Eifelian under comparatively dry, warm and tranquil conditions may be related to the pulsating expanding and contracting of the oceanic basin volume or the earth volume pulsation, rather than the common glaciation and plate tectonism. The coupling-rhythmic SLC related to the F/ F event is a sensitive indicator of the interaction between terrestrial and extraterrestrial factors, and coordinated action among the earth-spheres.

Cambrian Sequence Stratigraphy and Sea Level Cycles of North China Platform

The Cambrian of the North China platform consists chiefly of shallow water deposits and shows the sedimentary characters of an epicontinental sea basin. Controlled mainly by global sea level changes and sedimentary influx, the depositional sequences all exhibit as composite sequences. From bottom upward, 14 sequences (3rd order) are recognized, which may be grouped into 5 sequence sets and further into 2 mesosequences (2nd order). It is suggested herein that the Cambrian/Ordovician boundary may better be set at the MFS (maximum flooding surface) of the sequence OSq1, above which the conodont Cordylodus lindstroemi occurs. This position is about 40 m above the traditional Cambrian/Ordovician boundary and is within the Yeli Formation.

Devonian Frasnian-Famennian Transitional Milankovitch Cycles and High-Resolution Stratigraphic Correlation

Four hierarchical cyclothems, superbundlesets, bundlesets, bundles and laminae, have been identified from the Devonian Frasnian-Famennian carbonate strata in Guangxi, South China. Their hierarchical structures, ratio relationships and sequence in conodont zones are continuous and stable and can be traced across different facies zones and sedimentary basins. Our data show that hierarchically organized superbundlesets, bundlesets, bundles and laminae correspond to the long eccentricity, eccentricity, obliquity or precession and sub-Milankovitch cycles respectively. Their periods were 400,000, 100,000, 33,333, 16,667 and 8,000–17,000 a, respectively. The ratios of long eccentricity to eccentricity, eccentricity to obliquity, and eccentricity to precession in the Devonian are 1:4, 1:3 and 1:6 respectively. Using these hierarchical Milankovitch cyclothems, chronostratigraphical division and correlation can be realized at a resolution of 100 ka or 10 ka at the Frasnian-Famennian transition. The time intervals of the Upper rhenana Zone, linguiformis Zone, and the Lower, Middle and Upper triangularis Zone are 0.6, 0.8, 0.3, 0.3 and 0.3 Ma, respectively. Sea-level changes of the Frasnian-Famennian transition were not coherent and synchronous at the resolution of 100 ka or 10 ka in the basin-slope carbonate sequences of Guangxi, South China.

华南泥盆纪海平面变化节律及圈层耦合关系

在加里东不整合面之上的华南纪盆系中，可识别出２０个正层序和相对应的海平面变化旋回，其中下泥盆统９个，中泥盆弦５．５个，上泥盆统５．５个。它们可归并为４个正层序组，最大海泛面分别位于ｓｕｌｃａｔｕｓ带，ｐｅｒｂｏｎｕｓ带（Ｄ＾３１），中、上ｖａｒｃｕｓ带（Ｄ＾２２）和ｇｉｇａｓ带。

华南板块泥盆纪层序地层及海平面变化

华南板块在泥盆纪时期属东亚古特提斯泛大洋中华夏古陆群的一部分，它和冈瓦那大陆与北方大陆群（北美、东欧、西伯利亚等）处于不同的构造背景下。华南泥盆系分布广泛、发育齐全，可以作为东亚泥盆系的典型地区。本文根据华南黔桂、龙门山及南秦岭泥盆系１０余条部面层序地层划分和对比，识别出２１个与二级海平面变化响应的层序和Ｔ—Ｒ旋回，并与Ｊｏｈｎｓｏｎ（１９８５，１９９２）和Ｒｏｓｓ（１９８８）以欧美大陆为代表的泥盆纪的Ｔ—Ｒ旋回进行了对比，并讨论二者之间的异同及其控制因素。

西南地区二叠纪层序地层及海平面变化

西南地区二叠系可划分为２个二级层序、１１个三级层序，它们代表１１次三级海平面升降旋回，其中有６次可与欧美地区二叠纪海平面变化相对比，它们是伦纳德（Ｌｅｏｎａｒｄｉａｎ）早期、瓜达卢普（Ｇｕａｄａｌｕｐｉａｎ）早期、瓜达卢普（Ｇｕａｄａｌｕｐｉａｎ）晚期、卡赞（Ｋａｚａｎｉａｎ）早期、鞑靼（Ｔａｔａｒｉａｎ）早期和鞑靼（Ｔａｔａｒｉａｎ）晚期的海平面旋回。研究表明，该区二叠纪相对海平面变化作为全球海平面变化和同沉积构造活动相互作用的产物，它与欧美地区乃至联合古陆发展具反向效应，即具有以海侵型碳酸盐沉积序列为典型的主体海平面上升的特点。作者认为显生宙全球海平面旋回曲线的二叠纪部分总体具有两种类型或分支：其一是以海侵型碳酸盐沉积序列为主的反映海平面主体上升的特提斯型或华南型；其二是以海陆过渡—陆相海退沉积序列为主的揭示海平面主体下降的经典型或欧美型。作者强调，全球二叠纪海侵型全球海平面旋回曲线应以西南地区为代表。

龙门山泥盆纪层序地层的碳、锶同位素效应

龙门山泥盆纪具准Ⅱ级T-R旋回的层序组,与碳、锶同位素地层曲线演化总趋势所反映的海平面升降变化规律基本一致,具极好的区域性和全球性对比意义。Ⅲ级T-R旋回层序,部分与同位素地层曲线拟合;部分有特征的异常高值波峰或低值波谷。同位素效应分别与正常海平面变化和有机碳高速埋藏、缺氧水体入侵、生物生态萧条或绝灭,以及构造和火山活动等区域性或全球性事件相联系,各具不同的区域性和全球性对比意义。

南海华南陆缘中生界层序地层模式与海平面变化

华南陆缘中生界地层以广东省出露最广,这套地层为陆源碎屑沉积岩,局部为火山岩。上三叠统—上白垩统划分为2个巨层序、7个超层序和15个层序。沉积充填序列展示出本地区经历了海侵-海退过程,沉积环境由海相转化为陆相环境。3个级别的海平面变化控制了层序、超层序和巨层序的发育。粤中--粤东地区中生界发育的Ⅲ级层序可归纳出3种类型:浅水型、深水型和湖盆型;浅水型层序又可以分为浅水Ⅰ型和浅水Ⅱ型。

相对海平面变化与南海珠江深水扇系统的响应

根据微体古生物分析建立起来的珠江口盆地第三系相对海平面曲线,具有与全球海平面变化相一致的三级旋回和不一致的二级旋回。三级海平面升降导致了各沉积层序体系域在宽广陆架和陆坡之间的迁移,研究证实,位于南中国海北缘、珠江口外的陆坡深水区广泛发育第三系多层序叠置的南海珠江深水扇系统。区域性构造作用使得珠江口盆地二级海平面变化与全球海平面变化具有不一致性,并形成与全球海退趋势相反的海侵型海平面曲线。受相对海平面变化的控制,现今处于陆坡深水区的白云凹陷自32Ma南海扩张以来经历了三台阶式的海侵事件,形成了台阶式退积层序组合,具有下粗上细的沉积序列;造就了23.8Ma以前的浅水三角洲-滨岸砂泥岩沉积组合;23.8~10.5Ma的深水扇砂泥岩为主的沉积组合;以及10.5Ma以来主要为远端的细粒沉积为主。

南海珠江深水扇系统的层序地层学研究

位于古珠江大河及其浅海陆架富砂珠江三角洲下方的陆坡深水区白云凹陷是沉积大型深水扇的有利地域,宏观认识的进展指导了白云深水陆坡区系统的层序地层学研究,并因此发现了多层序叠置的南海珠江深水扇系统,使其成为具有油气勘探潜力的新领域。南海珠江深水扇系统的层序地层学研究包含了以下关键内涵层序地层学解释中在承认各种资料的分辨率、多解性和局限性的同时,强调多学科资料的综合应用、相互印证,强调周期性海平面变化对沉积的控制作用研究,强调地震反射相位等时界面确认的有效性,强调层序界面的反复确认,强调生物地层时代、相对海平面、全球海平面与层序界面的响应研究,强调层序格架内各沉积体的相互响应关系研究等。层序地层格架的建立导致了珠江深水扇系统的发现,揭示了珠江大河流域、陆架区大型珠江三角洲系统与陆坡区珠江深水扇系统的耦合关系,揭示了珠江深水扇与海平面变化的响应关系,揭示了珠江深水扇与古地理的响应关系。珠江深水扇系统的发现有力地推动了南海陆坡深水区的油气勘探。

末次冰期以来南海东北部陆源有机碳埋藏通量演变:海平面和季风驱动

大陆边缘盆地是大陆风化剥蚀产物的主要沉积汇,其中有机碳的埋藏通量及其控制机制的研究对于理解全球碳循环具有重要科学意义。本研究基于南海东北部台西南盆地TWS-1岩芯的AMS14C测年、总有机碳、总氮含量和稳定碳同位素组成的分析,探讨了末次盛冰期23ka BP以来南海东北部陆源有机碳的来源、历史和影响机制。与潜在物源端元对比表明,台湾是研究站位沉积物陆源有机碳的主要物源,相对海源其贡献比例约为58%,陆源物质可能主要通过海底峡谷水道和低海平面时期陆架河流输入。重建的陆源有机碳通量在末次冰消期早期(19-13kaBP)和中全新世(7-4ka BP)期间有两个峰值,分别约0.16g/(cm^2·ka)和0.09g/(cm^2·ka)。综合分析表明,二者分别受控于冰期低海平面时期增强的陆架风化剥蚀和全新世季风强盛期降水驱动的古台湾岛剥蚀。我们的工作表明冰期-间冰期循环中海平面和季风分别驱动的大陆边缘有机碳埋藏可能对全球碳循环和大气CO2浓度演变有重要影响。

南海珠江深水扇系统及其油气勘探前景

依据浅水陆架区大量的探井资料和二维地震资料,应用层序地层学方法对珠江口盆地距今21～10.5Ma地层段的研究表明,该段地层可划分为6个三级层序,在各层序相应的体系域内均发育深水扇沉积,并且各层序的深水扇都叠置在白云凹陷之上.对盆地内近60口探井的微体古生物定量分析表明,该地层段存在6期三级海平面变化,并与全球三级海平面变化相一致.周期性海平面下降、古珠江大河充足的沉积物供应和白云凹陷长期热沉降作用所形成并保持的陆坡深水条件是南海珠江深水扇系统发育的主要控制因素.南海北部深水陆坡沉积系统与大西洋两岸勘探热点地区的深水沉积系统有许多共同点,如都位于被动大陆边缘、长期的热沉降和大型古河流提供丰富的物源.白云凹陷北坡大型天然气田的发现也证实了白云凹陷下第三系巨厚湖相烃源岩的资源潜力.垂向叠置在烃源岩之上的多期深水扇必将成为重要的油气勘探领域.