Microbes and macro-invertebrates show parallel β-diversity but contrasting α-diversity patterns in a marine natural experiment

G. Rapacciuolo, G. Rapacciuolo, J. Beman, L. M. Schiebelhut, M. Dawson
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引用次数: 9

Abstract

Documenting ecological patterns across spatially, temporally and taxonomically diverse ecological communities is necessary for a general understanding of the processes shaping biodiversity. A major gap in our understanding remains the comparison of diversity patterns across a broad spectrum of evolutionarily and functionally diverse organisms, particularly in the marine realm. Here, we aim to narrow this gap by comparing the diversity patterns of free-living microbes and macro-invertebrates across a natural experiment provided by the marine lakes of Palau: geographically discrete and environmentally heterogeneous bodies of seawater with comparable geological and climatic history, and a similar regional species pool. We find contrasting patterns of α-diversity but remarkably similar patterns of β-diversity between microbial and macro-invertebrate communities among lakes. Pairwise dissimilarities in community composition among lakes are positively correlated between microbes and macro-invertebrates, and influenced to a similar degree by marked gradients in oxygen concentration and salinity. Our findings indicate that a shared spatio-temporal and environmental context may result in parallel patterns of β-diversity in microbes and macro-invertebrates, in spite of key trait differences between these organisms. This raises the possibility that parallel processes also influence transitions among regional biota across the tree of life, at least in the marine realm.
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在海洋自然实验中,微生物和大型无脊椎动物表现出平行的β-多样性和相反的α-多样性模式
在空间、时间和分类上多样化的生态群落中记录生态模式是了解生物多样性形成过程的必要条件。我们在理解上的一个主要差距仍然是对广泛的进化和功能多样化生物的多样性模式进行比较,特别是在海洋领域。在这里,我们的目标是通过比较帕劳海洋湖泊提供的自然实验中自由生活的微生物和大型无脊椎动物的多样性模式来缩小这一差距:地理上分散,环境上不均匀的海水体,具有可比的地质和气候历史,以及类似的区域物种池。结果表明,湖泊微生物群落与大型无脊椎动物群落α-多样性存在明显差异,而β-多样性具有显著的相似性。湖泊群落组成的两两差异在微生物和大型无脊椎动物之间呈正相关,并受氧浓度和盐度显著梯度的影响程度相似。我们的研究结果表明,尽管微生物和大型无脊椎动物之间存在关键性状差异,但共享的时空和环境背景可能导致微生物和大型无脊椎动物β-多样性的平行模式。这就提出了一种可能性,即平行过程也会影响整个生命树的区域生物群之间的过渡,至少在海洋领域是这样。
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