渤海湾全新世贝壳堤与牡蛎礁:古气候与海面变化

讨论了早全新世晚期以来渤海湾西岸贝壳堤平原成堤、西北岸牡蛎礁平原(及毗邻浅海区)建礁过程的同时性特征和气候变化与这一特征之间的关系,以及堤、礁记录的相对海面变化。堤、礁大致同时发育,可分为6期,依次分别被寒冷事件5、4、3、2和1分隔。堤底板前、后缘高差大致对应3m的大潮差、礁顶板大致对应海平面。据二者分别重建了南部贝壳堤平原、北部牡蛎礁平原的相对海面变化:南部自7ka cal BP以来基本与现代海平面等高,小的波动在±1m之间,压实固结作用抵消了中全新世的相对高海面;北部中全新世的相对海平面位置因新构造和固结压实双重下沉作用的影响,已位于现代海平面2~3m以下。     

福建深沪湾地区古生物奇观成因研究

通过对深沪湾地区晚更新世以来东部与西部阶地对比研究,证明了在深沪湾地区全新世以来活动断层的存在,从而为古生物奇观———古森林与古牡蛎礁共生的成因解译提供了新证据。同时在对深沪湾地区晚更新世以来的地层及新构造等综合研究基础上,提出了深沪湾的古森林与古牡蛎礁共生是海平面升降与新构造活动的共同作用下形成的认识。     

中国全新世中期的高海平面

根据中国沿海全新世海进海退时代的一致性及对渤海沿岸平原、苏北平原和长江三角洲平原的牡蛎礁、贝壳堤底板和海侵层项板等古海面标志物的高程、年代及其与古海面关系的分析对比,消除了地壳运动的影响。本文认为中国沿海全新世中期5000—7000aBp存在着+2—+3m的高海平面,它是当时全球温暖气候通过海水温度—体积效应造成的全球平均海平面变化(eustatic change)的反映;同时区域大地水准面的垂直变化和水平移动对海平面的影响值得深入研究;此外大陆径流量,沿海降水量季及风环流的变化也可能对沿海海平面产生过一定影响。     

中国全新世中期的高海平面

根据中国沿海全新世海进海退时代的一致性及对渤海沿岸平原、苏北平原和长江三角洲平原的牡蝠礁、贝壳堤底板和海侵层项板等古海面标志物的高程、年代及其与古海面关系的分析对比，消除了地壳运动的影响。本文认为中国沿海全新世中期5000-7000aBp存在着+ 2~+3m的高海平面，它是当时全球温暖气侯通过海水温度—体积效应造成的全球平均海平面变化(eustatic change )的反映;同时区域大地水准面的垂直变化和水平移动对海平面的影响值得深人研究;此外大陆径流量，沿海降水量季及风环流的变化也可能对沿海海平面产生过一定影响。     

白云-荔湾深水区新生界生物礁识别与发育模式及主控因素探讨

白云-荔湾地区新生界是否发育大型生物礁一直是珠江口盆地(东部)碳酸盐岩油气勘探的核心问题之一。根据已有的地质资料,总结了该区新生界碳酸盐岩及生物礁发育层段的规律性,并在此基础上首次总结了研究区生物礁地震识别特征、发育模式及其主控因素。研究表明:①白云-荔湾地区发育的大型生物礁在不同层段零星分布,多呈丘形、透镜体状外形,顶部具有强-中反射特征,底部连续可追踪,侧向上多见超覆不整合接触,内部多见加积、进积或退积地震发射特征、偶见杂乱至空白反射;②基于构造活动及古隆起背景,本区建立了3种类型的生物礁发育模式:Ⅰ台地边缘礁发育模式、Ⅱ古隆起斜坡礁发育模式、Ⅲ古隆起顶部礁发育模式;③构造运动及全球海平面变化是该区碳酸盐岩及生物礁发育的主控因素。     

渤海湾西部现代有孔虫群垂直分带的特征及其对全新世海面、地质环境变化的指示

对渤海湾西部潮间带和浅海区106个表层底质样品的活体与死有孔虫进行分析,筛选出8个优势种。利用死体有孔虫研究了优势种随水深(高程)变化的垂直分布特征,讨论了不同属种、不同有孔虫垂直组合带与地质环境、海面的定量关系。结果表明,有孔虫属种和组合的指示范围决定其作为地质环境及海面变化指标的灵敏性和精度。确立了研究区有孔虫海相性评价指数及与水深(高程)的相关性。根据对研究结果的实例应用的分析,恢复了研究区一个局部地点的相对海面变化曲线,为全新世地质环境和海面变化研究提供了一个新的尝试案例。     

闽南、粤东全新世海平面变化

本文对7类古海面标志物的137个样品年龄数据进行沉积深度校正、构造升降幅度校正和潮差校正后,绘出闽南、粤东全新世以来海平面变化曲线。闽南、粤东出现全新世第一次高海面时间为6300aB.P.前后。闽南、粤东全新世海平面变化曲线反映海水进退的波动情况基本相似。海平面发生波动的时间从东往西逐渐推迟。海平面变化曲线与硅藻垂向变化、孢粉所反映的气候变化、滨岸沙堤形成期和古文化遗址堆积的变化有较好的一致性。     

未来江苏中部沿海相对海面变化预测

相对海面变化是由全球绝对海面变化和区域性地面和海面因素共同控制。通过对江苏沿海近几十年来的潮位记录的分析,得出江苏沿海近期的相对海面变化速率。在此基础上根据近期绝对海面的变化速率计算出局地因素对江苏沿海相对海面变化的贡献量。在假设未来局地因素影响基本不变的前提下与IPCC对未来100年绝对海面的变化趋势 进行叠加,预测了江苏沿海未来相对海面变化的趋势。结果显示,江苏中部沿海海面在2000-2100年的100年间将上升15～152 cm,较IPCC对同期全球平均海平面上升的预测结果大的多。最后就区域性海面气压对相对海面变化的影响进行了讨论。     

南海北部陆缘早侏罗世海平面变化的古盐度记录

早侏罗世南海北部陆缘粤东地区发生大规模海侵。古盐度的变化记录了海平面的变化。反映古盐度变化的Sr/Ba和B/Ga比值与海平面升降有关,前者为正相关,后者为负相关。本区m曲线（m= MgO/ Al2O3×100）与B/Ga曲线相似,但在幅度方面有差异。结合沉积充填序列、沉积环境、沉积相演变,确定了本区海平面变化经历了两次海侵和一次海退。早侏罗世南海北部陆缘构造背景相对活动,前陆再旋回造山带或前陆隆起成为物源区,海丰地区具有周缘前陆盆地的性质。古盐度记录揭示的海平面变化可能受古特堤斯闭合的影响。     

上海地区全新世海面变化及环境演化

收集和整理上海地区各类古海面标志的地质意义及~(14)C测年资料,建立了上海地区全新世海面变化曲线。并结合上海地区地层建造、微古化石、孢粉及古人类遗址的发掘资料,探讨了上海地区全新世的环境演化,及环境变化对古人类活动的影响。     

万安盆地生物礁及碳酸盐台地的发育演化及控制因素

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.      

南海西北部珊瑚礁记录所反映的新构造运动*

珊瑚礁是发育于热带海洋环境中由生物作用和地质作用共同形成的地质体,具有独特的新构造运动意义。南海西北部珊瑚礁记录所反映的新构造运动主要有火山活动、地壳升降运动和地震活动等。珊瑚礁区第四纪火山活跃,到现代已停止活动,部分火山构成珊瑚礁的基座,个别出露海面为火山岛;地壳升降运动差异较大,雷州半岛西南部珊瑚礁呈上升趋势,上升率为0.02~0.05mm/a;西沙群岛等岛礁地壳运动则呈下降趋势,下降率为-0.07~-0.10mm/a,岛礁中的造礁石珊瑚生长率、礁顶和灰沙岛的堆积率均相当于或大于地壳下降率与现代海平面上升率的总和;南海西北部珊瑚礁区内地震活动较强,尤其是1994年12月31日和1995年1月10日在雷州半岛西南部海域发生了6.1级和6.2 级地震,这两次地震对该区珊瑚礁的发育有较大的影响。     

湖平面相对升降对断陷湖盆充填过程影响的数值模拟

数值模拟工作的研究对象多为海相被动大陆边缘盆地, 湖平面相对升降对盆地充填过程影响的数值模拟尚处于起步阶段.根据松辽断陷盆地的充填特征, 采用数值模拟方法, 模拟了在湖平面总体上升背景下, 3个湖平面变化周期的断陷湖盆充填特征.在模拟过程中, 假定构造沉降和碎屑供应为常数, 湖平面升降为一正弦函数.模拟结果表明: (1) 每一个湖平面升降周期形成一个相应的层序, 在湖平面升降周期的极小值点形成层序界面; (2) 湖平面升降规模直接控制了所发育的层序规模, 所模拟的3个湖平面升降周期中, 第二周期湖平面升降规模较大, 所形成的层序的分布范围及厚度均较大; (3) 湖平面升降所形成的沉积层序要很好地保存下来, 必须具备以下条件: ①湖平面保持总体上升, 在总体上升的背景上叠加次一级的湖平面升降; ②在湖平面发生周期性变化的同时, 叠加盆地基底的沉降.在具备上述条件下所得到的模拟结果与实际剖面吻合较好.      

Depositional sequences and correlation of middle(?) to late Miocene carbonate complexes,Las Negras and Nijar areas,southeastern Spain

During Serravallian through Messinian time, marine carbonates flanked topographic highs that rimmed Neogene basins in the Western Mediterranean. Middle to upper Miocene carbonate strata in the Las Negras and Nijar areas (southeastern Spain) are 50-150 m thick and display 50-200 m of shelf-to-basin relief over 1-2 km. Detailed studies in those areas document the effects of relative sea-level change on sedimentation, biotic composition, and reef development. We identify three previously unrecognized, regionally correlatable depositional sequences (DS1, DS2, DS3) that occur between the underlying basement and the overlying Terminal Carbonate Complex. The lower depositional sequences (DS1, DS2) are mostly normal marine shelf (ramp) carbonates deposited on the flanks of basement highs. The basal part of DS2 locally contains some megabreccia reef blocks composed of Tarbellastraea and Porites. These blocks are the first evidence of reef growth in the area and represent a previously unrecognized period of reef development prior to the fringing reef development. The reef blocks probably formed as upslope patch reefs that were eroded and transported to distal slope locations. The upper sequence (DS3) is characterized by clinoform strata of a Porites-dominated fringing reef complex that prograded basinward in a downstepping style with successively younger reefs forming in a topographically lower and more basinward position as a result of a net sea-level drop. Regional correlation of Miocene shallow-marine strata between basins in Spain and elsewhere in the western Mediterranean is complicated because basins were semi-isolated from adjacent basins making physical correlation impossible. In addition, age-definitive biostratigraphic markers are poorly preserved in most of the Miocene shallow-water strata; basinal sediments that are more easily dated by microfossils do not typically interfinger with the shallow-marine strata in outcrop. Even where datable microfossils are found, resolution of dating is poor. Our studies in the Las Negras and Nijar areas illustrate the usefulness of integrating sedimentological, geometric and biotic data with locally derived relative sea-level (accommodation space) curves for correlation. The relative sea-level curves for each area show remarkable similarities in shape and magnitude of sea-level changes. These curves indicate several relative sea-level fluctuations during Miocene carbonate deposition prior to the major sea-level drop at the end of DS3 deposition that culminated in the exposure of the basin margin deposits and the deposition of evaporites in basinal areas during the Messinian. The depositional sequences in the Las Negras and Nijar areas may correlate with depositional sequences of similar age throughout the southern Cabo de Gata area, in Mallorca some 600 km to the northeast, and possibly in other Mediterranean locations. The widespread occurrence and possible correlation of the depositional sequences suggest regional processes such as eustacy or tectonism for their formation. The integration of sedimentological, palaeontological and sequence stratigraphic studies, and the construction of relative sea-level (accommodation space) curves may help in the interpretation of depositional histories of shallow-marine carbonate complexes and correlation of these strata between isolated areas. Other dating methods, in addition to microfossil dating, may allow for better age determination of the sequences and aid in identifying the importance of eustacy and tectonism in sequence development.     

Relative Sea-Level Change During the Late Holocene on the Island of Vis (Croatia) – Issa Harbour Archaeological Site

The 2.4 ka shoreline evolution on the Island of Vis has been investigated. It represents a particularly interesting area for this kind of investigation due to the existence of the submerged archaeological remains, the antique port of Issa, as well as to the existence of geomorphological and biological sea-level markers. The actual depths of the different parts of the submerged quay have been mapped and measured with respect to the present mean sea-level, applying corrections for tide and atmospheric pressure values at the time of the surveys. The functional heights related to the sea level at the time of construction have also been taken into account. These data were further compared with predictions derived from a glacio-hydro-isostatic model associated with the Last Glacial cycle. During the investigation of the coast, tidal notches and algal rims were found. They were mapped, measured and correlated with results of the submerged port remains, as well as with other available data along the Croatian coast.

Our results demonstrate a 199±25 cm sea-level change during 2.4 ka on the Island of Vis. Taking into account the total relative sea-level change, an average rate of around ~0.83 mm/yr is derived. If the isostatic-eustatic component is separated, a tectonic subsidence rate ranges between 0.17 and 0.3 mm/yr depending on the predicted model used. Compared to the Northern Adriatic area, the Island of Vis shows a much smaller component of tectonic subsidence.     

Third-order depositional sequences controlled by synsedimentary extensional tectonics: evidence from Upper Triassic carbonates of the Carnian Prealps (NE Italy)

ABSTRACT The Upper Triassic platform-margin deposits of the Carnian Prealps fail to show the succession of the two global sea-level lowerings predicted for the Norian and Rhaetian by the Haq global sea-level curve. In both cases a relative sea-level rise occurs, a discrepancy that can be explained by an increase in tectonically controlled subsidence, a consequence of the plate-scale rifting in the NW Tethys Gulf preceding oceanic spreading in the Jurassic. Pulses of tectonic subsidence followed by relative quiescence are capable of generating depositional sequences similar in gross geometry and duration to the third-order eustatic cycles of Haq et al . The Late Triassic part of the Exxon global sea-level curve, partly derived from correlatable strata within the same palaeogeographical domain, is likely to reflect pulses of tectonically induced subsidence rather than eustatic sea-level changes.     

Alexandria-Nile Delta coast,Egypt: update and future projection of relative sea-level rise

Previous studies have indicated that the Nile River deltaic plain is vulnerable to a number of aspects, including beach erosion, inundation, and relatively high rates of land subsidence. This issue motivates an update and analysis of new tide-gauge records, from which relative sea-level changes can be obtained. Estimated rates from five tide gauges are variable in terms of magnitude and temporal trend of rising sea level. Analysis of historical records obtained from tide gauges at Alexandria, Rosetta, Burullus, Damietta, and Port Said show a continuous rise in mean sea level fluctuating between 1.8 and 4.9 mm/year; the smaller rate occurs at the Alexandria harbor, while the higher one at the Rosetta promontory. These uneven spatial and temporal trends of the estimated relative sea-level rise (RSLR) are interpreted with reference to local geological factors. In particular, Holocene sediment thickness, subsidence rate and tectonism are correlated with the estimated rates of relative sea-level change. From the relatively weak correlation between them, we presume that tectonic setting and earthquakes, both recent and historical ones, contribute more to accelerated RSLR than that of dewatering and compression/dewatering of Holocene mud underlying the Nile Delta plain. As a result, large areas of the coastal plain have been subsided, but some sectors have been uplifted in response to tectonic activities of thick underlying older strata. Projection of averaged sea-level rise trend reveals that not all the coastal plain of the Nile Delta and Alexandria is vulnerable to accelerated sea-level rise at the same level due to wide variability of the land topography, that includes low-lying areas, high-elevated coastal ridges and sand dunes, accretionary beaches, and artificially protective structures. Interaction of all aspects (tectonic regime, topography, geomorphology, erosion rate, and RSLR rate) permitted to define risk areas much vulnerable to impacts of sea incursion due to accelerated sea-level rise.     

Sea-level change during the Holocene in Sardinia and in the northeastern Adriatic (central Mediterranean Sea) from archaeological and geomorphological data

We provide new data on relative sea-level change from the late Holocene for two locations in the central Mediterranean: Sardinia and NE Adriatico. They are based on precise measures of submerged archaeological and tide notch markers that are good indicators of past sea-level elevation. Twelve submerged archaeological sites were studied: six, aged between 2.5 and 1.6 ka BP, located along the Sardinia coast, and a further six, dated ∼2.0 ka BP, located along the NE Adriatic coast (Italy, Slovenia and Croatia). For Sardinia, we also use beach rock and core data that can be related to Holocene sea level. The elevations of selected significant archaeological markers were measured with respect to the present sea level, applying corrections for tide and atmospheric pressure values at the time of surveys. The interpretation of the functional heights related to sea level at the time of their construction provides data on the relative changes between land and sea; these data are compared with predictions derived from a new glacio–hydro-isostatic model associated with the Last Glacial cycle. Sardinia is tectonically relatively stable and we use the sea-level data from this island to calibrate our models for eustatic and glacio–hydro-isostatic change. The results are consistent with those from another tectonically stable site, the Versilia Plain of Italy. The northeast Adriatic (Italy, Slovenia and Croatia) is an area of subsidence and we use the calibrated model results to separate out the isostatic from the tectonic contributions. This indicates that the Adriatic coast from the Gulf of Trieste to the southern end of Istria has tectonically subsided by ∼1.5 m since Roman times.     

Reef geometries, erosion surfaces and high-frequency sea-level changes, upper Miocene Reef Complex, Mallorca, Spain

The upper Miocene Reef Complex of Mallorca is a 20-km prograding unit which crops out in sea cliffs along the southern side of the island. These vertical and exceptionally clean outcrops permit: (i) identification of different facies (lagoon, reef front, reef slope and open platform) and their geometries and boundaries at different scales, ranging from metre to kilometre, and (ii) construction of a 6-km-long high-resolution cross-section in the direction of reef progradation. This cross-section shows vertical shifts of the reefal facies and erosion surfaces linked to a general progradational pattern that defines the accretional units. Four hierarchical orders of magnitude (1-M to 4-M) of accretional units are identified by consideration of the vertical facies shifts and by which erosion surfaces are truncated by other erosion surfaces. All these orders show similar patterns: horizontal beds of lagoonal facies in the upper part (landward), reefal and slope facies with sigmoidal bedding in the central part, and open-platform facies with subhorizontal bedding in the lower part (basinwards). The boundaries are erosion surfaces, horizontal over the lagoon facies, dipping basinwards over the reef-front facies and connecting basinwards with their correlative conformities over the reef-slope and open-platform facies. The four orders of accretional units are interpreted in terms of four (1-M to 4-M) hierarchies of sea-level cycles because (i) there is a close relation between the coral growth and the sea surface, (ii) there are vertical shifts in the reefal facies and their relation to the erosion surfaces, and (iii) there was very little tectonic subsidence in the study area during the late Miocene. Additionally, all these units can be described in terms of their position relative to the sea-level cycle: (i) the reefs prograde on the open-platform sediments during low stands of sea-level; (ii) aggradation of the lagoon, reef and open-platform facies dominates during sea-level rises, and the lagoonal beds onlap landwards upon the previous erosion surface; (iii) reefal progradation occurs during high stands of sea-level; and (iv) the 2-M sea-level fall produces an off-lapping reef and there is progradation with downward shifts of the reefal facies and erosion landward on the emerged (older) reefal units (A-erosion surfaces); the 3-M and 4-M sea-level falls produce only erosion (B-and C-erosion surfaces). Although precise age data do not exist at present, some speculations upon the frequency of these Miocene relative sea-level cycles can be made by comparisons with Pleistocene cyclicity. There is a good correlation between the Miocene 2-M cycles and the 100-ka Pleistocene cycles. Consequently, the 1-M cycles can be assigned to a fourth order in relation to previously proposed global cycles and the 2-M to fifth-order cycles. All these accretional units could be defined as ‘sequences’, according to the definition as commonly used in sequence stratigraphy. However, they represent higher than third-order sea-level cycles, but are not parasequences. The term subsequence, therefore, is suggested to define ‘a part of a sequence bounded by erosion surfaces (mostly subaerial) and their correlative conformities basinwards'. A hierarchy of subsequences can be established.     

Microborer ichnocoenoses in Quaternary corals from New Caledonia: reconstructions of paleo-water depths and reef growth strategies in relation to environmental changes

Coral reef growth and development depend on several environmental factors, including tectonic and climatic parameters and local ecological drivers. Reef growth is especially sensitive to sea-level variations. Paleo-water depth reconstructions are essential tools used to determine reef growth patterns during different periods of reef growth. Assemblages of corals and/or coralline algae have been commonly used in such paleodepth reconstructions. This study shows that using microendolith ichnocoenoses can sometimes provide better accuracy than traditional coralgal analyses, particularly in the depth-range 0–10 m where coralgal assemblages usually show broad distribution ranges. Holocene and Pleistocene cores from two barrier reef sites on the west coast of Grande Terre in New Caledonia are examined here. Holocene reef development at these sites feature examples of microendolith ichnocoenoses that document rapid environmental changes and small sea-level variations of about 2–5 m in amplitude, and record these changes with more accuracy than coral and coralline algae assemblages which are highly dependant on the hydrodynamic energy of the setting. During the Pleistocene, which was less chronologically constrained, the microendolith ichnocoenoses also reflect paleo-water depths and reef-growth patterns at different periods of reef history.