南极陆地海冰的大量营养物质生物地球化学:来自环极数据汇编的见解

IF 3 3区 地球科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Marine Chemistry Pub Date : 2023-10-07 DOI:10.1016/j.marchem.2023.104324
Sian F. Henley , Stefano Cozzi , François Fripiat , Delphine Lannuzel , Daiki Nomura , David N. Thomas , Klaus M. Meiners , Martin Vancoppenolle , Kevin Arrigo , Jacqueline Stefels , Maria van Leeuwe , Sebastien Moreau , Elizabeth M. Jones , Agneta Fransson , Melissa Chierici , Bruno Delille
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引用次数: 0

摘要

南极海冰在南大洋生物地球化学和调节地球气候系统中起着重要作用。然而,我们对海冰生物地球化学循环的理解受到足够时间和空间尺度上相关数据的限制。在这里,我们提供了一个新的公开的汇编,收集了来自南极陆地海冰的大量营养素浓度数据,涵盖了整个季节周期,使用了来自南极洲周围的数据集,以及邻近海水中大量营养素浓度的较小数据集。我们发现了一个强烈的季节性循环,在秋季和冬季,由于来自地下地表水的供应,营养物质浓度很高,然后在春季和夏季被由硅藻和非硅质物种组成的混合冰藻群落利用。我们的数据表明,冰藻初级生产存在一定程度的营养限制,其中硅限制可能最为普遍,尽管海冰藻类对每种营养物质的亲和力仍然存在不确定性。有机物质的再矿化和营养物质的再循环使无机氮、磷酸盐和硅酸在一些冰芯中的大量积累,其浓度远远超过地表水中的浓度。盐水对流、血小板冰的积累和并入冰基质以及冰下潮流增强了对快冰的营养供应,而海冰表面的营养吸附、生物膜的形成以及非生物矿物的沉淀和溶解也会影响快冰的营养循环。快冰中硝酸盐、铵和硅酸的浓度普遍高于南极浮冰的报道,这可能支持在快冰环境中通常观察到的较高的藻类生物量。
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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Macronutrient biogeochemistry in Antarctic land-fast sea ice: Insights from a circumpolar data compilation

Antarctic sea ice plays an important role in Southern Ocean biogeochemistry and mediating Earth's climate system. Yet our understanding of biogeochemical cycling in sea ice is limited by the availability of relevant data over sufficient temporal and spatial scales. Here we present a new publicly available compilation of macronutrient concentration data from Antarctic land-fast sea ice, covering the full seasonal cycle using datasets from around Antarctica, as well as a smaller dataset of macronutrient concentrations in adjacent seawater. We show a strong seasonal cycle whereby nutrient concentrations are high during autumn and winter, due to supply from underlying surface waters, and then are utilised in spring and summer by mixed ice algal communities consisting of diatoms and non-siliceous species. Our data indicate some degree of nutrient limitation of ice algal primary production, with silicon limitation likely being most prevalent, although uncertainties remain around the affinities of sea-ice algae for each nutrient. Remineralisation of organic matter and nutrient recycling drive substantial accumulations of inorganic nitrogen, phosphate and to a lesser extent silicic acid in some ice cores to concentrations far in excess of those in surface waters. Nutrient supply to fast ice is enhanced by brine convection, platelet ice accumulation and incorporation into the ice matrix, and under-ice tidal currents, whilst nutrient adsorption to sea-ice surfaces, formation of biofilms, and abiotic mineral precipitation and dissolution can also influence fast-ice nutrient cycling. Concentrations of nitrate, ammonium and silicic acid were generally higher in fast ice than reported for Antarctic pack ice, and this may support the typically observed higher algal biomass in fast-ice environments.

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来源期刊
Marine Chemistry
Marine Chemistry 化学-海洋学
CiteScore
6.00
自引率
3.30%
发文量
70
审稿时长
4.5 months
期刊介绍: Marine Chemistry is an international medium for the publication of original studies and occasional reviews in the field of chemistry in the marine environment, with emphasis on the dynamic approach. The journal endeavours to cover all aspects, from chemical processes to theoretical and experimental work, and, by providing a central channel of communication, to speed the flow of information in this relatively new and rapidly expanding discipline.
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