Marine N2-fixer Crocosphaera waterburyi

Catie S Cleveland, Kendra A Turk-Kubo, Yiming Zhao, Jonathan P Zehr, Eric A Webb
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Abstract

Marine N2-fixing cyanobacteria, including the unicellular genus Crocosphaera, are considered keystone species in marine food webs. Crocosphaera are globally distributed and provide new sources of nitrogen and carbon, which fuel oligotrophic microbial communities and upper trophic levels. Despite their ecosystem importance, only one pelagic, oligotrophic, phycoerythrin-rich species, Crocosphaera watsonii, has ever been identified and characterized as widespread. Herein, we present a new species, named Crocosphaera waterburyi, enriched from the North Pacific Ocean. C. waterburyi was found to be phenotypically and genotypically distinct from C. watsonii, active in situ, distributed globally, and preferred warmer temperatures in culture and the ocean. Additionally, C. waterburyi was detectable in 150- and 4000-meter sediment export traps, had a relatively larger biovolume than C. watsonii, and appeared to aggregate in the environment and laboratory culture. Therefore, it represents an additional, previously unknown link between atmospheric CO2 and N2 gas and deep ocean carbon and nitrogen export and sequestration.
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海洋固氮动物 Crocosphaera waterburyi
海洋固氮蓝藻(包括单细胞蓝藻属)被认为是海洋食物网中的关键物种。Crocosphaera分布于全球,提供新的氮和碳源,为低营养微生物群落和上层营养级提供动力。尽管它们在生态系统中非常重要,但目前仅发现了一种富含藻红素的中上层低营养物种--Crocosphaera watsonii,并将其描述为广泛分布的物种。在此,我们介绍了一个来自北太平洋的新物种,名为 Crocosphaera waterburyi。研究发现,C. waterburyi 在表型和基因型上都与 C. watsonii 不同,它在原地活动,分布于全球各地,在养殖和海洋中喜欢较高的温度。此外,在 150 米和 4000 米的沉积物出口捕集器中可以检测到 C. waterburyi,它的生物体积比 C. watsonii 大,而且似乎在环境和实验室培养中聚集在一起。因此,它代表了大气中的二氧化碳和二氧化氮气体与深海碳和氮的输出和螯合之间的另一种以前未知的联系。
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