在地中海地区尚不清楚其他的盘绕变化

S. Prillo, J. Mehaj, J. Prillo
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引用次数: 1

摘要

本文对阿尔巴尼亚亚得里亚海沿岸前深(PAF)的zvernecv - vlora和Kavaja-Durres地区托尔顿期至上新世早期含Globorotalia acostaensis的所有样品进行了定性和定量研究。结果表明,与目前已知的地中海地区不同的是,在托尔顿区,响尾蛇在响尾蛇和斜响尾蛇极带发生了卷卷比方向的变化。这一时间间隔并不短,更确切地说,是在G. extremus带的上部,从G. acostaensis首次出现到G. suterae首次出现。另一个有文献记载并能解释的不整合与上新世沉积物的开始有关。在古石竹居群中,至少有4个疏离的左旋和右旋旋变化。此外,本文还介绍了该物种的研究历史,这可能是该物种在地中海省,特别是在我国作为地带性标志种使用较晚的原因。地层学家和古生物学家的主要目标是寻找一个连续的剖面,可能在最长的地质时间内不间断地沉积。关于这一现象,可以解释为导致本研究中弓形海螺盘绕率变化与迄今为止在地中海地区就此进行的其他研究不一致。这里很难理解托尔顿期主体部分的不整合,其持续时间超过2 m.在Kavaja-Durres地区中新世/上新世边界发现的另一个不整合非常重要。在这些地区发现了比目前已知的更早的上新世沉积,这是根据上新世Sphaeroidinellopsis顶点带之前Globorotalia acostaensis的盘绕方向变化而得出的。这些资料与基于同位素地层学的资料一致,给出了5.32 M.Y.中新世/上新世界线的新定义,而不是以往基于绝对年龄给出的5.1或5.2 M.Y.。盘绕的变化,在我们的例子中,是对气候变化或不同的冷暖水种群交替的反应,这是由于上新世开始时大西洋水团溢出地中海地区时水团之间边界的变化造成的。本文还提出了对新第三系古气候曲线的校正,以参考古气候曲线的范围分布区间。
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Other coiling changes in Globoratalia Acostaensis unknown till now in Mediterranean area
In this study, all samples from Tortonian to Early Pliocene sediments of Zvernec-Vlora and Kavaja-Durres regions within Peri-Adriatic Foredeep (PAF) of Albania containing Globorotalia acostaensis were studied qualitatively and quantitatively. Based on these analyses resulted that G. acostaensis have changed coiling ratio direction during G. acostaensis and G. obliquus extremus Zone of Tortonian, differently from that known in Mediterranean area up to now. This is not a short time interval, which more exactly is from the first appearance of G. acostaensis to first appearance of G. suterae, at the upper part of G. extremus Zone. Another documented and explaining unconformity here is related with beginning of Pliocene sediments. There are at least four alienating sinistral and dextral coiling changes in G.acostaensis populations. Also in this work is given the history of the study of G acostaensis and which maybe causes that this species in Mediterranean province and especially in our country is used relatively late as zonal marker species. The main object of stratigraphers and paleontologists has been finding a successive section, with uninterrupted sedimentation, possibly for the longest geological time. Regarding to this phenomenon could be explained resulting unconformity between coiling ratio changes in Globorotalia acostaensis of the present study and other studies carried out in Mediterranean area on this occasion up to now. It is difficult to understand here the resulting unconformity during the main part of Tortonian age, which prolonged more than 2 m.y. Another resulting unconformity discovered at the Miocene/Pliocene boundary of the Kavaja-Durres regions is very significant. In these regions was discovered an earlier Pliocene sedimentation than known up to now according to resulting alternations of coiling direction of Globorotalia acostaensis prior to Pliocene Sphaeroidinellopsis Acme zone. These data are in favour of those based on the isotopie stratigraphy, which give a new definition at 5.32 M.Y. Miocene/Pliocene boundary instead of 5.1 or 5.2 M.Y. given previously based on absolute age. Coiling changes, in our case that of G. acostaensis are in response to changing climates or alternation of different cold and warm water populations resulting from changes in the boundaries between water masses as at the beginning of the Pliocene when the water masses of the Atlantic Ocean overflowed the Mediterranean area. Here is also proposed to correct the Neogene paleoclimatic curve referring, for the interval of G. acostaensis range distribution.
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