Nitrogen and sulfur metabolisms encoded in prokaryotic communities associated with sea ice algae

IF 5.1 Q1 ECOLOGY
Christopher M. Bellas, Karley Campbell, Martyn Tranter, Patricia Sánchez-Baracaldo
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Abstract

Sea ice habitats harbour seasonally abundant microalgal communities, which can be highly productive in the spring when the availability of light increases. An active, bloom-associated prokaryotic community relies on these microalgae for their organic carbon requirements, however an analysis of the encoded metabolic pathways within them is lacking. Hence, our understanding of biogeochemical cycling within sea ice remains incomplete. Here, we generated metagenomic assembled genomes from the bottom of first-year sea ice in northwestern Hudson Bay, during a spring diatom bloom. We show that the prokaryotic community had the metabolic potential to degrade algal derived dimethylsulphoniopropionate and oxidise sulfur. Facultative anaerobic metabolisms, specifically, dissimilatory nitrate reduction and denitrification were also prevalent here, suggesting some sea ice prokaryotes are metabolically capable of adapting to fluctuating oxygen levels during algal bloom conditions. Such denitrification could be an important loss of fixed-N2 in the changing Arctic marine system.

Abstract Image

与海冰藻类相关的原核生物群落中的氮和硫代谢编码
海冰栖息地蕴藏着丰富的季节性微藻群落,春季光照增加时,微藻群落的产量会很高。与藻华相关的活跃原核生物群落依赖于这些微藻来满足其有机碳需求,但对其中的编码代谢途径缺乏分析。因此,我们对海冰内部生物地球化学循环的了解仍然不全面。在此,我们在春季硅藻大量繁殖期间,从哈得逊湾西北部的第一年海冰底部生成了元基因组组装基因组。我们发现原核生物群落具有降解藻类衍生的二甲基硫代丙酸盐和氧化硫的代谢潜力。这里还普遍存在兼性厌氧代谢,特别是硝酸盐异纤还原和反硝化作用,这表明一些海冰原核生物在代谢上能够适应藻类大量繁殖期间氧气水平的波动。在不断变化的北极海洋系统中,这种反硝化作用可能是固定二氧化氮的重要损失。
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