The marine methane cycle in the Canadian Arctic Archipelago during summer

IF 1.5 4区地球科学 Q3 ECOLOGY

Polar Science Pub Date : 2024-12-01 DOI:10.1016/j.polar.2024.101128

Alessandra D'Angelo , Cynthia Garcia , Zak Kerrigan , Jacob Strock , Frances Crable , Nikolas VanKeersbilck , Humair Raziuddin , Theressa Ewa , Samira Umar , Andrew L. King , Miquel Gonzalez-Meler , Brice Loose

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Abstract

In the Arctic Ocean, methane concentrations surpassing global averages are prevalent, especially along sub-Arctic and Arctic continental shelf margins. Despite elevated dissolved methane levels, the Arctic Ocean exhibits minimal methane fluxes to the atmosphere, indicating a potential role of water column oxidation in methane processing. During the Northwest Passage Project in the summer of 2019, we integrated thermohaline, chemical, and biological data with in-situ and in-vitro methane data in Canadian Arctic Archipelago (CAA) waters. Elevated in-situ dissolved methane was prominent in near-surface Pacific waters (between 2 and 7 m), particularly in meltwater regions, with av. concentrations of 5.8 ± 2.5 nM within the upper 30m. While methane oxidation constants were generally low (av. 0.006 ± 0.002 d⁻¹), surface waters in Wellington Channel and Croker Bay exhibited higher rates (av. 0.01 ± 0.0004 d⁻¹), associated with Pacific-origin microbial taxa like Oleispira and Aurantivirga. Deeper layers (>200 m) displayed lower methane concentrations (av. 3.1 ± 1.1 nM) and oxidation rates (av. 0.005 ± 0.001 d⁻¹). Sea ice showed elevated dissolved methane concentrations (av. 9.2 ± 5 nM). Waters in the western CAA exhibited a 25% increase in methane concentrations compared to ice-free areas. The overall picture suggested supersaturation of in-situ methane in shallow waters (between 2 and 50 m), coupled with faster oxidation rates in meltwater and Pacific dominant layers, suggesting rapid seasonal cycling of methane and prevention of the methane migration into the atmosphere.

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夏季加拿大北极群岛的海洋甲烷循环

在北冰洋，甲烷浓度普遍超过全球平均水平，特别是沿亚北极和北极大陆架边缘。尽管溶解的甲烷含量升高，北冰洋向大气的甲烷通量却很少，这表明水柱氧化在甲烷加工过程中可能起作用。在2019年夏季的西北航道项目中，我们将加拿大北极群岛（CAA）水域的热盐、化学和生物数据与原位和体外甲烷数据相结合。在太平洋近地表水域（2 - 7米），特别是在融水区，原位溶解甲烷浓度显著升高，在30米以上的水域，ava浓度为5.8±2.5 nM。惠灵顿海峡和克罗克湾的甲烷氧化常数普遍较低（av. 0.006±0.002 d - 1），而威灵顿海峡和克罗克湾的甲烷氧化常数较高（av. 0.01±0.0004 d - 1），与太平洋起源的微生物类群如Oleispira和Aurantivirga有关。深层（>200 m）显示较低的甲烷浓度（av. 3.1±1.1 nM）和氧化速率（av. 0.005±0.001 d - 1）。海冰溶解甲烷浓度升高（平均9.2±5 nM）。与无冰区相比，CAA西部水域的甲烷浓度增加了25%。整体情况表明，浅水（2 - 50米）的原位甲烷过饱和，加上融水和太平洋优势层中更快的氧化速率，表明甲烷的快速季节性循环和阻止甲烷迁移到大气中。

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

Polar Science ECOLOGY-GEOSCIENCES, MULTIDISCIPLINARY

CiteScore

3.90

自引率

5.60%

发文量

期刊介绍： Polar Science is an international, peer-reviewed quarterly journal. It is dedicated to publishing original research articles for sciences relating to the polar regions of the Earth and other planets. Polar Science aims to cover 15 disciplines which are listed below; they cover most aspects of physical sciences, geosciences and life sciences, together with engineering and social sciences. Articles should attract the interest of broad polar science communities, and not be limited to the interests of those who work under specific research subjects. Polar Science also has an Open Archive whereby published articles are made freely available from ScienceDirect after an embargo period of 24 months from the date of publication. - Space and upper atmosphere physics - Atmospheric science/climatology - Glaciology - Oceanography/sea ice studies - Geology/petrology - Solid earth geophysics/seismology - Marine Earth science - Geomorphology/Cenozoic-Quaternary geology - Meteoritics - Terrestrial biology - Marine biology - Animal ecology - Environment - Polar Engineering - Humanities and social sciences.