Niche and spatial partitioning restrain ecological equivalence among microbes along aquatic redox gradient

Katarina Kajan, Rasmus Kirkegaard, Petra Pjevac, Sandi Orlic, Maliheh Mehrshad
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Abstract

Microbial metabolic capabilities and interactions shape their niche hypervolume that in turn governs their ecological strategies and ecosystem services. In the context of functional redundancy or ecological equivalence, the focus has been on functional guilds in order to bypass the complex challenge faced by niche theory for disentangling the niche hypervolume. However, in some cases this simplification has been at the expense of ignoring the role of individual genotype of each microbe within a functional guild and fails to explain how the diversity within each functional guild is maintained. In this study, we inspect the metabolic profile of metagenome-assembled genomes along the pronounced redox gradient of the water column in an anchialine cave. Bridging neutral theory of biodiversity and biogeography and niche theory, our analysis uses focal metabolic capabilities while also incorporating individuality by looking into background metabolic capabilities of each individual and further includes spatial distribution of microbes to delineate their niche space. Our results emphasize that differences in background metabolic capabilities are critical for furnishing the niche hypervolume of microbes carrying the same focal metabolic capability and refute their ecological equivalence with their spatial distribution further enables niche partitioning among them.
生态位和空间分区抑制了水生氧化还原梯度上微生物之间的生态等同性
微生物的代谢能力和相互作用形成了它们的生态位超体积,而生态位超体积又反过来制约着它们的生态策略和生态系统服务。在功能冗余或生态等同的背景下,研究的重点一直放在功能行会上,以便绕过生态位理论所面临的复杂挑战,将生态位超体积区分开来。然而,在某些情况下,这种简化的代价是忽视了每个微生物的基因型在功能行会中的作用,也无法解释每个功能行会中的多样性是如何维持的。在这项研究中,我们沿着一个锚系洞穴水体明显的氧化还原梯度,考察了元基因组组装基因组的代谢概况。在生物多样性和生物地理学的中性理论与生态位理论之间,我们的分析在使用焦点代谢能力的同时,还通过研究每个个体的背景代谢能力纳入了个体性,并进一步包括微生物的空间分布来划分其生态位空间。我们的结果强调,背景代谢能力的差异对于提供具有相同焦点代谢能力的微生物的生态位超体积至关重要,并驳斥了它们的生态等同性,而它们的空间分布则进一步实现了它们之间的生态位分区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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