Naroa Martinez-Braceras, Aitor Payros, Jaume Dinarès-Turell, Idoia Rosales, Javier Arostegi, Roi Silva-Casal
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引用次数: 0
Abstract
Abstract. Lower Pliensbachian hemipelagic successions from the northern Iberian palaeomargin are characterized by the occurrence of organic-rich calcareous rhythmites of decimetre-thick limestone and marl beds as well as thicker black shale intervals. Understanding the genetic mechanisms of the cyclic lithologies and processes involved along with the nature of the carbon cycle is of primary interest. This cyclostratigraphic study, carried out in one of the black shale intervals exposed in Santiurde de Reinosa (Basque–Cantabrian Basin), reveals that the calcareous rhythmites responded to periodic environmental variations in the Milankovitch-cycle band and were likely driven by eccentricity-modulated precession. The main environmental processes that determined the formation of the rhythmite were deduced on the basis of the integrated sedimentological, mineralogical, and geochemical study of an eccentricity bundle. The formation of precession couplets was controlled by variations in carbonate production and dilution by terrigenous supplies, along with periodic changes in bottom-water oxygenation. Precessional configurations with marked annual seasonality increased terrigenous input (by rivers or wind) to marine areas and boosted organic productivity in surface water. The great accumulation of organic matter on the seabed eventually decreased bottom-water oxygenation, which might also be influenced by reduced ocean ventilation. Thus, deposition of organic-rich marls and shales occurred when annual seasonality was maximal. On the contrary, a reduction in terrestrial inputs at precessional configurations with minimal seasonality diminished shallow organic productivity, which, added to an intensification of vertical mixing, contributed to increasing the oxidation of organic matter. These conditions also favoured greater production and basinward export of carbonate mud in shallow marine areas, causing the formation of limy hemipelagic beds. Short eccentricity cycles modulated the amplitude of precession-driven variations in terrigenous input and oxygenation of bottom seawater. Thus, the amplitude of the contrast between successive precessional beds increased when the Earth's orbit was elliptical and diminished when it was circular. The data also suggest that short eccentricity cycles affected short-term sea level changes, probably through orbitally modulated aquifer eustasy.
摘要伊比利亚古边缘北部的下更新统半沉积层的特点是,在十厘米厚的石灰岩和泥灰岩床以及较厚的黑色页岩层中出现富含有机质的钙质韵律岩。了解循环岩性的成因机制、相关过程以及碳循环的性质是人们最感兴趣的问题。这项循环地层学研究是在 Santiurde de Reinosa(巴斯克-坎塔布里亚盆地)出露的一个黑色页岩岩层中进行的,研究结果表明,钙质韵律岩对米兰科维奇周期带的周期性环境变化做出了反应,很可能是由偏心调制的前向驱动的。在对偏心率束进行沉积学、矿物学和地球化学综合研究的基础上,推断出了决定节律岩形成的主要环境过程。碳酸盐生成量的变化和土著物质的稀释作用,以及底层水含氧量的周期性变化控制着节律对偶的形成。具有明显年度季节性的前向构造增加了(河流或风)对海洋区域的土著输入,提高了表层水的有机生产力。海底有机物的大量积累最终降低了底层水的含氧量,这也可能受到海洋通风减少的影响。因此,富含有机质的泥灰岩和页岩沉积发生在年季节性最强的时候。相反,在季节性最小的前向配置中,陆地输入的减少降低了浅层有机生产力,再加上垂直混合的加强,有助于增加有机物的氧化。这些条件还有利于浅海区碳酸盐泥的大量生产和向海盆输出,从而形成了含石灰质的半沉积床。短偏心率周期调节了前震驱动的陆源输入和底层海水含氧量变化的幅度。因此,当地球轨道为椭圆形时,连续前向海床之间的对比振幅增大,而当地球轨道为圆形时,对比振幅减小。数据还表明,短偏心率周期影响了短期海平面变化,这可能是通过轨道调节含水层的膨胀作用实现的。
期刊介绍:
Climate of the Past (CP) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on the climate history of the Earth. CP covers all temporal scales of climate change and variability, from geological time through to multidecadal studies of the last century. Studies focusing mainly on present and future climate are not within scope.
The main subject areas are the following:
reconstructions of past climate based on instrumental and historical data as well as proxy data from marine and terrestrial (including ice) archives;
development and validation of new proxies, improvements of the precision and accuracy of proxy data;
theoretical and empirical studies of processes in and feedback mechanisms between all climate system components in relation to past climate change on all space scales and timescales;
simulation of past climate and model-based interpretation of palaeoclimate data for a better understanding of present and future climate variability and climate change.