CTD数据分析评估海底活动性喷口场的自然危害:以圣托里尼岛为例

A. Dura, T. Mertzimekis, E. Bakalis, P. Nomikou, Andreas Gondikas, M. Hannington, S. Petersen
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引用次数: 1

摘要

地球上近四分之三的已知火山活动发生在水下。在这样的环境中存在活动热液喷口,对环境、社会和经济都是潜在的自然灾害。尽管对风险评估和减轻风险具有重要意义,但水下火山的偏远和极端条件阻碍了对活动的监测。冬季和夏季在圣托里尼岛上的人口差异很大,所有这些都在一个部分封闭的系统内,使圣托里尼-科伦坡火山场成为详细探索的理想场所。2017年,GEOMAR与雅典国立大学和Kapodistrian大学合作(任务:POS-510 ANYDROS),使用自主水下航行器(AUV)绘制了ne向的圣托里尼-科伦博线,并在那里收集了CTD数据。在此,我们介绍了2017年3月25日进行的15小时调查的初步结果,该调查是在POS-510考察期间进行的,目标是位于圣托里尼火山口北部盆地的喷口场。利用圣托里尼火山口的原始数据重建了详细的CTD三维剖面。由于CTD传感器直接放置在喷口源上方,因此在350 m深度的电导率和盐度剖面中出现了异常。在重建的三维地图中,异常现象很明显,首次显示出在不同地点有相当微弱但潜在的热液喷口活动。由于目前的结果是这次考察产生的第一个结果,需要进一步的调查,纳入完整的数据集。根据这些结果,制定适当的机制和政策以避免有关的自然灾害的影响预计将是巨大的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CTD data profiling to assess the natural hazard of active submarine vent fields: the case of Santorini Island
Almost three quarters of known volcanic activity on Earth occurs in underwater locations. The presence of active hydrothermal vent fields in such environments is a potential natural hazard for the environment, the society, and the economy. Despite its importance for risk assessment and risk mitigation, monitoring of the activity is impeded by the remoteness and the extreme conditions of underwater volcanoes. The large difference of population present on Santorini between the winter and summer seasons, all within a partially enclosed system, make the Santorini-Kolumbo volcanic field, an ideal place for detailed exploration. In 2017, GEOMAR in collaboration with the National and Kapodistrian University of Athens (mission: POS-510 ANYDROS), used an Autonomous Underwater Vehicle (AUV) to map the NE–trending Santorini–Kolumbo line, where it also collected CTD data. Here we present the preliminary results from the 15-hour survey held on the 25th March 2017, during the POS-510 expedition targeting the vent field which is located in the North Basin of Santorini Caldera. Detailed CTD 3D profiles have been reconstructed from the raw data of  Santorini’s vent field.  An anomaly emerges at the depth of 350 m in the  Conductivity and Salinity depth profiles, as the CTD sensor is placed directly above the vent sources. Anomalies were evident in the 3D maps reconstructed, showing for the first time a rather weak, but underlying hydrothermal vent activity at various locations. As the present results are the first ones produced from this expedition, further investigation is required incorporating the full dataset. Based on those results, the impact of developing appropriate mechanisms and policies to avoid the associated natural hazard is expected to be immense.
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