Dissolved fluxes of nutrients and carbon at the sediment-water interface in the Adriatic Sea: review of early data and methods from the Italian National Research Council (CNR)

Q3 Earth and Planetary Sciences Advances in Oceanography and Limnology Pub Date : 2023-06-22 DOI:10.4081/aiol.2023.11094

F. Spagnoli, M. Ravaioli

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Abstract

We report the measurement of the Fluxes of Dissolved Compounds at the Sediment-Water Interface (DFSWIs), obtained by analyzing data collected in the Italian Exclusive Economic Zone (EEZ) of the Northern and Central Adriatic Sea from 1982. We also describe the methods, honed by Italy’s Consiglio Nazionale delle Ricerche (CNR), employed to measure and calculate DFSWIs, including benthic chambers and landers, sediment-water interface micro-profiling, on-board incubation, and pore water modeling. Data analysis demonstrated that in situ measurements are the most reliable approaches, but that on-board collected data also supply interesting results. The DFSWI data allowed to divide the Adriatic seafloor into areas with similar DFSWI types and intensities and to define the role of sediments as sources or sinks of chemicals such as nutrients, Dissolved Inorganic Carbon (DIC), and metals. DFSWIs mainly depend on dissolved and solid river inputs, Marine Organic Matter (mOM) production, and sediment reworking. They show a seasonal temperature-related trend, which in summer induces increased chemical reaction kinetics and microbial activity. DFSWIs decline from the Po River mouths southward, along the Holocene mud wedge. North of the Po River Delta, the DFSWIs are weaker and confined to the areas in front of the major river mouths, due to poor Organic Matter (OM) inputs and strong reworking of bottom sediments. The area south of the Po Delta cusp is characterized by strong DFSWIs, due to the high deposition of solid inputs from the Po River, strong primary production, and protection from the Western Adriatic Current and Bora storms; in summer, higher temperatures, and calm hydrodynamic conditions generate near-bottom hypoxic to anoxic environments in this area. In Northern and Central Adriatic offshore areas, negative DIC and phosphate fluxes are due to poorly reactive OM reaching this area and to the mainly carbonate composition and oxic environment of local bottom sediments. DFSWI data analysis highlighted the important contribution of sediments to marine carbon and nutrient cycles. This is particularly important for carbon, which plays a major role in seawater acidification and global climate change. The study also provides average DFSWI data for each diagenetic area, which allow calculating the carbon and nutrient budgets in the Adriatic Sea.

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亚得里亚海沉积物-水界面营养物和碳的溶解通量:意大利国家研究委员会(CNR)早期数据和方法综述

我们报告了沉积物-水界面(DFSWIs)溶解化合物通量的测量，该通量是通过分析1982年以来在亚得里亚海北部和中部的意大利专属经济区(EEZ)收集的数据获得的。我们还描述了由意大利CNR (Consiglio Nazionale delle Ricerche)开发的用于测量和计算DFSWIs的方法，包括底栖室和着陆器、沉积物-水界面微观剖面、机载孵化和孔隙水建模。数据分析表明，现场测量是最可靠的方法，但船上收集的数据也提供了有趣的结果。DFSWI数据允许将亚得里亚海海底划分为具有相似DFSWI类型和强度的区域，并定义沉积物作为化学物质(如营养物、溶解无机碳(DIC)和金属)的来源或汇的作用。DFSWIs主要依赖于溶解和固体河流输入、海洋有机质(mOM)生产和沉积物再加工。它们表现出季节性的温度相关趋势，在夏季引起化学反应动力学和微生物活性的增加。沿全新世泥楔向南，从波河河口开始，DFSWIs逐渐减弱。在波河三角洲以北，由于有机质(OM)输入较差和底部沉积物的强再加工，DFSWIs较弱且局限于主要河口前地区。波河三角洲尖端以南地区，由于波河固体输入沉积量大，初级生产强度强，并受到西亚得里亚海流和波拉风暴的保护，具有较强的DFSWIs特征;在夏季，较高的温度和平静的水动力条件在该地区产生近底部的缺氧环境。在亚得里亚海北部和中部近海地区，负的DIC和磷酸盐通量是由于到达该地区的反应性有机质较差，以及当地底部沉积物的碳酸盐组成和氧环境。DFSWI数据分析强调了沉积物对海洋碳和养分循环的重要贡献。这对碳尤其重要，因为碳在海水酸化和全球气候变化中起着重要作用。该研究还提供了每个成岩区域的平均DFSWI数据，从而可以计算亚得里亚海的碳和营养预算。

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来源期刊

Advances in Oceanography and Limnology Agricultural and Biological Sciences-Aquatic Science

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Advances in Oceanography and Limnology was born in 2010 from the 35 years old Proceedings of the national congress of the Italian Association of Oceanology and Limnology. The AIOL Journal was funded as an interdisciplinary journal embracing both fundamental and applied Oceanographic and Limnological research, with focus on both single and multiple disciplines. Currently, two regular issues of the journal are published each year. In addition, Special Issues that focus on topics that are timely and of interest to a significant number of Limnologists and Oceanographers are also published. The journal, which is intended as an official publication of the AIOL, is also published in association with the EFFS (European Federation for Freshwater Sciences), which aims and objectives are directed towards the promotion of freshwater sciences throughout Europe. Starting from the 2015 issue, the AIOL Journal is published as an Open Access, peer-reviewed journal. Space is given to regular articles, review, short notes and opinion paper