Submarine groundwater discharge into a semi-enclosed coastal bay of the southern Baltic Sea: A multi-method approach

IF 2.6 3区 地球科学 Q2 OCEANOGRAPHY
Cátia Milene Ehlert von Ahn , Olaf Dellwig , Beata Szymczycha , Lech Kotwicki , Jurjen Rooze , Rudolf Endler , Peter Escher , Iris Schmiedinger , Jürgen Sültenfuß , Magdalena Diak , Matthias Gehre , Ulrich Struck , Susan Vogler , Michael Ernst Böttcher
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Abstract

The present study aims to understand the impact of submarine groundwater discharge (SGD) on a coastal area with different lithology and degrees of SGD. Sampling campaigns took place in Puck Bay and the Gulf of Gdańsk, southern Baltic Sea encompassing years between 2009 and 2021. The methodological approach combined geophysical characterization of the surface sediments with detailed spatial and temporal (isotope) biogeochemical investigations of pore and surface waters, and was supported by nearshore groundwater and river surveys. Acoustic investigations identified areas of disturbance that may indicate zones of preferential SGD release. The composition of porewater and the differences in the bay's surface waters disclosed SGD as common phenomenon in the study area. Regional SGD was estimated through a radium mass balance. Local estimation of SGD, based on porewater profiles, revealed highest SGD fluxes at the sandy shoreline, but relatively low elemental fluxes. Though SGD was low at the muddy sites corresponding elemental fluxes of nutrients and dissolved carbon exceeded those determined at the sandy sites due to intense diagenesis in the top sediments. SGD appears to be sourced from different freshwater endmembers; however, diagenesis in surface sediments substantially modified the composition of the mixed solutions that are finally discharged to coastal waters. Overall, this study provides a better understanding of the SGD dynamics in the region by a multi-approach and emphasizes the need to understand the processes occurring at the sediment-water interface when estimating SGD.

波罗的海南部半封闭沿海海湾的海底地下水排放:采用多种方法
本研究旨在了解海底地下水排放(SGD)对具有不同岩性和 SGD 程度的沿海地区的影响。采样活动在波罗的海南部的帕克湾和格但斯克湾进行,时间跨度为 2009 年至 2021 年。该方法将表层沉积物的地球物理特征描述与孔隙水和表层水的详细时空(同位素)生物地球化学调查相结合,并辅以近岸地下水和河流调查。声学调查确定了可能表明 SGD 优先释放区的扰动区域。孔隙水的成分和海湾表层水的差异揭示了 SGD 是研究区域的常见现象。区域 SGD 是通过镭质量平衡估算出来的。根据孔隙水剖面对 SGD 进行的局部估算显示,沙质海岸线的 SGD 通量最高,但元素通量相对较低。虽然泥质地点的 SGD 较低,但由于表层沉积物的强烈成岩作用,营养物质和溶解碳的相应元素通量超过了在沙质地点测定的通量。在这些研究中,我们还发现了一些新的问题,如:在水体中的营养盐和溶解性碳的来源问题;在水体中的营养盐和溶解性碳的来源问题;在水体中的营养盐和溶解性碳的来源问题。总之,这项研究通过多种方法更好地了解了该地区的 SGD 动态,并强调了在估算 SGD 时了解沉积物-水界面过程的必要性。
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
Oceanologia
Oceanologia 地学-海洋学
CiteScore
5.30
自引率
6.90%
发文量
63
审稿时长
146 days
期刊介绍: Oceanologia is an international journal that publishes results of original research in the field of marine sciences with emphasis on the European seas.
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