冰川沉积物在南极半岛丹科海岸的小海湾中流动

Q4 Agricultural and Biological Sciences Boletin de Investigaciones Marinas y Costeras Pub Date : 2021-05-26 DOI:10.25268/bimc.invemar.2021.50.suplesp.950

C. Rodrigo, Andrés Varas, César Grisales, Diana Quintana, Ricardo Molares

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引用次数: 0

摘要

全球大气变暖和海洋温度上升可促进冰川加速融化，并影响南极半岛海湾和峡湾沉积物流的产生和物理特征。在2015年1月至2月进行的哥伦比亚第一次南极科学考察期间，在南极半岛西部丹科海岸的5个海湾，从非常接近主要冰川锋向近海的水柱中测量了水文变量(温度、盐度、压力和浊度)。然而，在所有海湾中都发现了来自潮汐冰川的冰川沉积物羽状物，其空间延伸和沉积物浓度各不相同，其中丹科海岸中心区的沉积物羽状物范围最广，浓度最高。与往年相比，今年的平均颗粒浓度有所提高。在其他可能的因素中，冰川海洋沉积物的更大流量可能与更大的冰川融化有关

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Glacimarine sediment flows in small bays on the Danco Coast, Antarctic Peninsula

Global atmospheric warming and rising ocean temperatures can contribute to the acceleration of glacier melting and influence the generation and physical characteristics of sediment flows in bays and fjords of the Antarctic Peninsula. During the First Scientific Expedition of Colombia to the Antarctic, carried out between January and February 2015, hydrographic variables (temperature, salinity, pressure and turbidity) were measured in the water column, from very close to the main glacier front towards the offshore, on 5 bays of the Danco Coast, Western Antarctic Peninsula. Glacimarine sediment plumes from the tidewater glacier were identified in all bays, however, with varying spatial extensions as well as the concentration of sediments, being those of the central area of the Danco Coast, the most extensive and concentrated. By comparison with previous years, in this work higher average particle concentrations were recorded. The greater flow of glaciomarine sediments could be associated with greater glacial melting, among other possible factors

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来源期刊

Boletin de Investigaciones Marinas y Costeras Environmental Science-Water Science and Technology

CiteScore

0.70

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0.00%

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