Late Pleistocene Geomorphic Evolution of Cephalonia Island, Western Greece, Inferred from Uplifted Marine Terraces

IF 2.3 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Quaternary Pub Date : 2022-08-06 DOI:10.3390/quat5030035
K. Tsanakas, G. Saitis, N. Evelpidou, E. Karymbalis, A. Karkani
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引用次数: 1

Abstract

Combined with eustatic sea-level changes, uplifted Quaternary marine terraces provide insight into the tectonics of coastal areas. Cephalonia Island lies 35 km off the western coast of mainland Greece and 15 km northeast of the Hellenic subduction zone. Late Pleistocene eustatic sea-level oscillations and the long-term tectonic movements are imprinted on the landscape of the southern part of the island, in the form of seven uplifted marine terraces. In the present study we aim to identify and map in detail these terraces, applying Digital Elevation Model analysis, utilizing Geographic Information Systems techniques and extensive fieldwork. The GIS-based analysis combined with field geomorphological observations revealed a sequence of seven marine terraces at the southern part of the main island ranging in elevation between 4 m and 176 m asl. Microscope, petrological and microgeomorphological analyses on two caprock samples suggest strong marine influence during the deposition of the sediments covering the marine terraces. The age of the formation of the 32 m marine terrace was assigned to the MIS 3e, based on OSL dating of a caprock sample, and an average uplift rate of 1.4 ± 0.35 mm a−1 was calculated for the last 61 ± 5.5 ka. Assuming a uniform uplift rate for the Late Pleistocene allowed us to correlate the marine terrace with the sea-level highstands and constrain their ages.
从隆起的海洋阶地推断希腊西部Cephalonia岛晚更新世的地貌演化
结合海平面升降的变化,抬升的第四纪海洋阶地提供了对沿海地区构造的深入了解。Cephalonia岛位于希腊大陆西海岸35公里处,希腊俯冲带东北15公里处。晚更新世的海平面升降振荡和长期的构造运动以七个隆起的海洋阶地的形式印在该岛南部的景观上。在本研究中,我们旨在应用数字高程模型分析,利用地理信息系统技术和广泛的实地调查,详细识别和绘制这些阶地。基于地理信息系统的分析结合实地地貌观测,揭示了主岛南部的七个海洋阶地序列,海拔在4 m至176 m之间。对两个盖层样品的显微镜、岩石学和微观地球形态分析表明,在覆盖海洋阶地的沉积物沉积过程中,海洋具有强烈的影响。根据盖层样品的OSL测年,将32 m海洋阶地的形成年龄分配给MIS 3e,并计算出最后61±5.5 ka的平均抬升速率为1.4±0.35 mm a−1。假设晚更新世的抬升速率一致,我们就可以将海洋阶地与海平面高位联系起来,并限制它们的年龄。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Quaternary
Quaternary GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.30
自引率
4.30%
发文量
44
审稿时长
11 weeks
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