Mediterranean–Black Sea gateway exchange: scientific drilling workshop on the BlackGate project

IF 1.6 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Scientific Drilling Pub Date : 2022-10-28 DOI:10.5194/sd-31-93-2022

W. Krijgsman, I. Vasiliev, A. Beniest, T. Lyons, J. Lofi, G. Tari, C. Slomp, N. Cagatay, M. Triantaphyllou, R. Flecker, D. Palcu, C. McHugh, H. Arz, P. Henry, Karen J. Lloyd, G. Çifçi, Ö. Sipahioglu, D. Sakellariou

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Abstract

Abstract. The MagellanPlus workshop “BlackGate” addressed fundamental questions concerning the dynamic evolution of the Mediterranean–Black Sea (MBS) gateway and its palaeoenvironmental consequences. This gateway drives the Miocene–Quaternary circulation patterns in the Black Sea and governs its present status as the world's largest example of marine anoxia. The exchange history of the MBS gateway is poorly constrained because continuous Pliocene–Quaternary deposits are not exposed on land adjacent to the Black Sea or northern Aegean. Gateway exchange is controlled by climatic (glacio-eustatic-driven sea-level fluctuations) and tectonic processes in the catchment as well as tectonic propagation of the North Anatolian Fault Zone (NAFZ) in the gateway area itself. Changes in connectivity trigger dramatic palaeoenvironmental and biotic turnovers in both the Black Sea and Mediterranean domains. Drilling a Messinian to Holocene transect across the MBS gateway will recover high-amplitude records of continent-scale hydrological changes during glacial–interglacial cycles and allow us to reconstruct marine and freshwater fluxes, biological turnover events, deep biospheric processes, subsurface gradients in primary sedimentary properties, patterns and processes controlling anoxia, chemical perturbations and carbon cycling, growth and propagation of the NAFZ, the timing of land bridges for Africa and/or Asia–Europe mammal migration, and the presence or absence of water exchange during the Messinian salinity crisis. During thorough discussions at the workshop, three key sites were selected for potential drilling using a mission-specific platform (MSP): one on the Turkish margin of the Black Sea (Arkhangelsky Ridge, 400 m b.s.f., metres below the seafloor), one on the southern margin of the Sea of Marmara (North İmrali Basin, 750 m b.s.f.), and one in the Aegean (North Aegean Trough, 650 m b.s.f.). All sites target Quaternary oxic–anoxic marl–sapropel cycles. Plans include recovery of Pliocene lacustrine sediments and mixed marine–brackish Miocene sediments from the Black Sea and the Aegean. MSP drilling is required because the JOIDES Resolution cannot pass under the Bosporus bridges. The wider goals are in line with the aims and scope of the International Ocean Discovery Program (IODP) “2050 Science Framework: Exploring Earth by Scientific Ocean Drilling” and relate specifically to the strategic objectives “Earth's climate system”, “Tipping points in Earth's history”, and “Natural hazards impacting society”.

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地中海-黑海门户交流:关于黑门项目的科学钻探研讨会

摘要麦哲伦plus研讨会“黑门”讨论了有关地中海-黑海(MBS)门户的动态演变及其古环境后果的基本问题。这个门户驱动了黑海中新世-第四纪环流模式，并决定了黑海目前作为世界上最大的海洋缺氧例子的地位。MBS门户的交换历史很少受到约束，因为连续的上新世-第四纪沉积物没有暴露在黑海或爱琴海北部附近的陆地上。入口交换受气候(冰川-海水升降驱动的海平面波动)和汇水地区的构造过程以及北安那托利亚断裂带(NAFZ)在入口地区本身的构造传播控制。连通性的变化引发了黑海和地中海地区的古环境和生物剧变。在theMBS通道上钻探一个迈西尼亚到全新世的样带，将恢复冰期-间冰期期间大陆尺度水文变化的高振幅记录，并使我们能够重建海洋和淡水通量、生物周转事件、深层生物圈过程、初级沉积特性的地下梯度、控制缺氧的模式和过程、化学扰动和碳循环、NAFZ的生长和繁殖。非洲和/或亚欧哺乳动物迁徙陆桥的时间，以及墨西尼亚盐度危机期间水交换的存在与否。在研讨会的深入讨论中，选择了三个关键地点进行潜在的钻井作业，使用特定任务平台(MSP):一个在黑海的土耳其边缘(Arkhangelsky Ridge, 400m b.s.f);一个在马尔马拉海的南部边缘(北İmrali盆地，750米b.s.f.)，一个在爱琴海(北爱琴海槽，650米b.s.f.)。所有的位点都针对季氧-缺氧泥灰岩-泥砂推进旋回。计划包括恢复来自黑海和爱琴海的上新世湖泊沉积物和混合海洋-半咸淡中新世沉积物。MSP钻井是必需的，因为JOIDES resolution无法从博斯普鲁斯大桥下通过。更广泛的目标符合国际海洋发现计划(IODP)“2050科学框架:通过科学海洋钻探探索地球”的目标和范围，并具体涉及“地球气候系统”、“地球历史的转折点”和“影响社会的自然灾害”的战略目标。

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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