粘土对节肢动物腐烂过程中细菌群落组成的影响

IF 3 2区 地球科学 Q1 PALEONTOLOGY
Nora Corthésy, Farid Saleh, Camille Thomas, Jonathan B. Antcliffe, Allison C. Daley
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引用次数: 0

摘要

化石,即生物体从生物圈向地圈的过渡,是一个复杂的机制,涉及众多生物和地质变量。细菌是自然环境中分解有机物最重要的生物角色之一,也是化石形成的早期阶段。然而,由于许多不同的非生物条件会影响细菌降解组织的效率,因此很难确定细菌过程的特征。一个潜在的重要变量是尸体死后沉积物的成分和性质。我们在三种不同的粘土沉积物上对海洋虾 Palaemon varians 进行了水下腐烂实验。然后使用 16S 核糖体 RNA 测序对样本进行分析,以确定与每种粘土系统相关的细菌群落。结果表明,与腐烂在膨润土和蒙脱石表面的样本相比,腐烂在高岭石表面的样本细菌多样性较低,这可以解释沉积在这种粘土上的尸体腐烂程度有限的原因。不过,这并不是高岭石的唯一作用,因为在该系统中观察到的革兰氏阴性菌比革兰氏阳性菌比例更高。一般认为,革兰氏阳性细菌回收复杂多糖(如节肢动物体壁的多糖)的能力更强。这是沉积物塑造整个细菌群落的首个实验证据。沉积物与细菌之间的这种相互作用可能有助于节肢动物在寒武纪大爆发时期富含高岭石的拉格斯塔滕(Lagerstätten)中得以完好保存并普遍存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effects of clays on bacterial community composition during arthropod decay
Fossilization, or the transition of an organism from the biosphere to the geosphere, is a complex mechanism involving numerous biological and geological variables. Bacteria are one of the most significant biotic players to decompose organic matter in natural environments, early on during fossilization. However, bacterial processes are difficult to characterize as many different abiotic conditions can influence bacterial efficiency in degrading tissues. One potentially important variable is the composition and nature of the sediment on which a carcass is deposited after death. We experimentally examined this by decaying the marine shrimp Palaemon varians underwater on three different clay sediments. Samples were then analyzed using 16S ribosomal RNA sequencing to identify the bacterial communities associated with each clay system. Results show that samples decaying on the surface of kaolinite have a lower bacterial diversity than those decaying on the surface of bentonite and montmorillonite, which could explain the limited decay of carcasses deposited on this clay. However, this is not the only role played by kaolinite, as a greater proportion of gram-negative over gram-positive bacteria is observed in this system. Gram-positive bacteria are generally thought to be more efficient at recycling complex polysaccharides such as those forming the body walls of arthropods. This is the first experimental evidence of sediments shaping an entire bacterial community. Such interaction between sediments and bacteria might have contributed to arthropods’ exquisite preservation and prevalence in kaolinite-rich Lagerstätten of the Cambrian Explosion.
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来源期刊
Swiss Journal of Palaeontology
Swiss Journal of Palaeontology Earth and Planetary Sciences-Paleontology
CiteScore
4.30
自引率
16.70%
发文量
17
审稿时长
4 weeks
期刊介绍: The Swiss Journal of Palaeontology publishes original research and review articles of interest to the international community in the fields of palaeontology, taxonomy and systematics, while recognising at the same time the importance of documenting high-quality palaeontological data in a regional context. Palaeobiology in combination with alpha taxonomy is a core topic of the journal. Submitted papers should have an appeal as wide as possible, directed towards an international readership. Contributions should not have been simultaneously submitted elsewhere, and the overlap of content between related articles should be minimal. Duplications of text and the use of previously published illustrations without adequate citation are unacceptable. If a manuscript has two or more authors, both or all have to sign to confirm they all were involved in the work and have agreed to its submission. The preferred manuscript language is UK English, but consistently used US English is also acceptable. We encourage the publication of proceedings of international meetings as well as special thematic issues. Short contributions and book reviews are also accepted. An international editorial team as well as guest editors guarantee that the thematic issues as well as all articles in regular issues are peer-reviewed and meet the highest standards.
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