Calcium isotope fractionation by intracellular amorphous calcium carbonate (ACC) forming cyanobacteria

IF 2.7 2区 地球科学 Q2 BIOLOGY
Geobiology Pub Date : 2024-04-09 DOI:10.1111/gbi.12596
Neha Mehta, Harold Bradbury, Karim Benzerara
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Abstract

The formation of intracellular amorphous calcium carbonate (ACC) by various cyanobacteria is a widespread biomineralization process, yet its mechanism and importance in past and modern environments remain to be fully comprehended. This study explores whether calcium (Ca) isotope fractionation, linked to ACC-forming cyanobacteria, can serve as a reliable tracer for detecting these microorganisms in modern and ancient settings. Accordingly, we measured stable Ca isotope fractionation during Ca uptake by the intracellular ACC-forming cyanobacterium Cyanothece sp. PCC 7425. Our results show that Cyanothece sp. PCC 7425 cells are enriched in lighter Ca isotopes relative to the solution. This finding is consistent with the kinetic isotope effects observed in the Ca isotope fractionation during biogenic carbonate formation by marine calcifying organisms. The Ca isotope composition of Cyanothece sp. PCC 7425 was accurately modeled using a Rayleigh fractionation model, resulting in a Ca isotope fractionation factor (Δ44Ca) equal to −0.72 ± 0.05‰. Numerical modeling suggests that Ca uptake by these cyanobacteria is primarily unidirectional, with minimal back reaction observed over the duration of the experiment. Finally, we compared our Δ44Ca values with those of other biotic and abiotic carbonates, revealing similarities with organisms that form biogenic calcite. These similarities raise questions about the effectiveness of using the Ca isotope fractionation factor as a univocal tracer of ACC-forming cyanobacteria in the environment. We propose that the use of Δ44Ca in combination with other proposed tracers of ACC-forming cyanobacteria such as Ba and Sr isotope fractionation factors and/or elevated Ba/Ca and Sr/Ca ratios may provide a more reliable approach.

Abstract Image

细胞内无定形碳酸钙(ACC)蓝藻的钙同位素分馏作用
各种蓝藻形成的细胞内无定形碳酸钙(ACC)是一种广泛的生物矿化过程,但其在过去和现代环境中的机理和重要性仍有待全面了解。本研究探讨了与形成 ACC 的蓝藻有关的钙(Ca)同位素分馏是否可作为一种可靠的示踪剂,用于在现代和古代环境中检测这些微生物。因此,我们测量了细胞内形成 ACC 的蓝藻 Cyanothece sp.PCC 7425 的钙吸收过程中进行了稳定的钙同位素分馏。我们的结果表明,Cyanothece sp.PCC 7425 细胞相对于溶液富含较轻的 Ca 同位素。这一发现与在海洋钙化生物形成生物碳酸盐过程中观察到的钙同位素分馏动力学同位素效应相一致。通过对钙同位素的精确计算,可以得出蓝藻(Cyanothece sp.PCC 7425的钙同位素组成使用瑞利分馏模型进行了精确建模,得出钙同位素分馏系数(Δ44Ca)等于-0.72 ± 0.05‰。数值模型表明,这些蓝藻对钙的吸收主要是单向的,在实验过程中观察到的反作用极小。最后,我们将Δ44Ca值与其他生物和非生物碳酸盐的Δ44Ca值进行了比较,发现它们与形成生物方解石的生物有相似之处。这些相似性对使用钙同位素分馏因子作为环境中形成 ACC 的蓝藻的唯一示踪剂的有效性提出了质疑。我们建议将 Δ44Ca 与其他拟议的 ACC 形成蓝藻示踪剂(如 Ba 和 Sr 同位素分馏因子和/或升高的 Ba/Ca 和 Sr/Ca 比率)结合使用,这样可能会提供一种更可靠的方法。
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来源期刊
Geobiology
Geobiology 生物-地球科学综合
CiteScore
6.80
自引率
5.40%
发文量
56
审稿时长
3 months
期刊介绍: The field of geobiology explores the relationship between life and the Earth''s physical and chemical environment. Geobiology, launched in 2003, aims to provide a natural home for geobiological research, allowing the cross-fertilization of critical ideas, and promoting cooperation and advancement in this emerging field. We also aim to provide you with a forum for the rapid publication of your results in an international journal of high standing. We are particularly interested in papers crossing disciplines and containing both geological and biological elements, emphasizing the co-evolutionary interactions between life and its physical environment over geological time. Geobiology invites submission of high-quality articles in the following areas: Origins and evolution of life Co-evolution of the atmosphere, hydrosphere and biosphere The sedimentary rock record and geobiology of critical intervals Paleobiology and evolutionary ecology Biogeochemistry and global elemental cycles Microbe-mineral interactions Biomarkers Molecular ecology and phylogenetics.
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