Inhabitation of bathyal hydrocarbon seeps by early-branching benthic foraminifera: Implications for Neo-Proterozoic ecosystem functioning

Pub Date : 2024-07-01 DOI:10.61551/gsjfr.54.3.217

Shari M. Rohret, Joan M. Bernhard

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Abstract

Little is known about mechanisms allowing agglutinated and thecate (i.e., organic-walled) foraminifera associated with extreme environments to survive. Here, we present cytological observations of organic-walled and agglutinated monothalamid and milioline tubothalamids collected from sulfur-oxidizing microbial mats of Gulf of Mexico hydrocarbon seeps. This is the first ultrastructural analysis of allogromids, a basal group of organic-walled thecate foraminifera, from seeps. We show most allogromids contained numerous ingested bacteria of various forms; organelle abundance and distribution varied among their morphotypes. Saccaminids (agglutinated monothalamids) had abundant phagocytosed bacteria, including putative methanotrophic and sulfur-oxidizing bacteria, indicating foraminiferal activity in seeps. A porcelaneous tubothalamid morphotype contained phagocytosed bacteria of one morphology, suggesting food selectivity. Increasing our knowledge of the cytology and ecology of these modern representatives of early-evolving foraminifera could help elucidate their evolutionary history. Thus, we augment understanding of extremophile foraminifera, adding to our burgeoning understanding of microeukaryote protists and microfossil adaptations.

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早期分支底栖有孔虫在深海碳氢化合物渗流中的栖息：对新元古代生态系统功能的影响

人们对与极端环境相关的凝集有孔虫和有孔虫（即有机壁）的生存机制知之甚少。在这里，我们展示了从墨西哥湾碳氢化合物渗漏的硫氧化微生物垫中收集到的有机壁和凝集的有孔虫和纤毛虫的细胞学观察结果。这是首次对渗漏中的有孔虫进行超微结构分析，有孔虫是有机壁有孔虫的一个基本类群。我们发现大多数有孔虫含有大量不同形式的摄入细菌；细胞器的数量和分布因形态而异。Saccaminids（凝集单孔有孔虫）吞噬了大量细菌，包括假定的甲烷营养细菌和硫氧化细菌，这表明有孔虫在渗流中的活动。一种多孔管虫形态包含一种形态的吞噬细菌，这表明它们对食物具有选择性。增加我们对这些早期进化有孔虫的现代代表的细胞学和生态学的了解有助于阐明它们的进化史。因此，我们加深了对嗜极有孔虫的了解，也加深了我们对微核原生动物和微化石适应性的认识。

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