Diversity and functionality of soil prokaryotic communities in antarctic volcanic soils: insights from penguin-influenced environments

IF 1.5 4区 环境科学与生态学 Q3 BIODIVERSITY CONSERVATION
Diego Segura, Karen Jordaan, Beatriz Díez, Javier Tamayo-Leiva, Sebastian Doetterl, Daniel Wasner, Jerónimo Cifuentes-Anticevic, Angélica Casanova-Katny
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引用次数: 0

Abstract

In the nutrient-limited Antarctic terrestrial habitat, penguins transfer a significant amount of nutrients from the marine to the terrestrial ecosystem through their depositions (i.e., guano). This guano influences soil physicochemical properties, leading to the formation of ornithogenic soil rich in nutrients and organic matter. We hypothesize that soil prokaryotic communities will be strongly influenced by the contribution of nitrogenous nutrients from penguin rookeries, maintaining the influence over long distances. The objective was to establish how the soil prokaryotic diversity and community structure change with distance from a penguin colony, which provides large amounts of guano and nitrogenous compounds, and to study the effects of these nutrients on the functional role of these communities. Methods include volcanic soil sampling along a 1200 m transect from the penguin active rookery and the characterization of soil nutrient content and soil prokaryotic communities using 16S rRNA high-throughput amplicon sequencing. In contrast to our hypothesis, the results showed that the impact of guano from the penguin colony was restricted to the first 300 m. Probably because the penguin rookery was sheltered, strong wind and wind direction did not affect the transport of nutrients from the penguin rookery. Areas close to the penguin rookery were dominated by Proteobacteria and Bacteroidetes, while areas situated further away were dominated by Acidobacteria, Actinobacteria, Chloroflexi, Gemmatimonadetes, Nitrospirae, and Planctomycetes. Beta diversity analysis among the soil prokaryotic communities revealed a high degree of community heterogeneity, strongly associated with N compound characteristics (NH4, NO3, and %N), C, and pH. Inferences from N metabolism genes suggest a high potential of the microbial community for dissimilatory nitrate reduction genes (DNRA) to ammonium, assimilatory nitrate reduction (ANR), and denitrification. Although it is assumed that the nitrogenous compounds of the penguin colonies reach long distances and affect the prokaryotic community, this effect can vary with wind directions or the morphology of the site, reducing the impact of the guano over long distances, as our results indicate. On the other hand, functional predictions give some clues about the main actors in nitrogen cycling, through processes like dissimilatory nitrate reduction, assimilatory nitrate reduction, and denitrification.

Abstract Image

南极火山土壤原核生物群落的多样性和功能:从企鹅影响的环境中获得的启示
在养分有限的南极陆地栖息地,企鹅通过沉积物(即鸟粪)将大量养分从海洋转移到陆地生态系统。这些鸟粪影响了土壤的物理化学性质,从而形成了富含养分和有机物的鸟粪土壤。我们假设,土壤原核生物群落会受到企鹅栖息地氮营养物质的强烈影响,并保持长距离的影响。我们的目标是确定土壤原核生物多样性和群落结构是如何随距离企鹅栖息地的远近而变化的,因为企鹅栖息地提供了大量鸟粪和含氮化合物,我们还要研究这些营养物质对这些群落功能作用的影响。研究方法包括沿距离企鹅活动栖息地 1200 米的横断面进行火山岩土壤取样,以及利用 16S rRNA 高通量扩增子测序分析土壤养分含量和土壤原核生物群落的特征。与我们的假设相反,结果表明企鹅栖息地的鸟粪影响范围仅限于前 300 米。靠近企鹅栖息地的区域以变形菌和类杆菌为主,而距离较远的区域则以酸性杆菌、放线菌、绿僵菌、宝石花菌、硝化菌和平面菌为主。土壤原核生物群落的 Beta 多样性分析表明,群落具有高度异质性,与氮化合物特征(NH4、NO3 和%N)、碳和 pH 值密切相关。根据氮代谢基因的推断,微生物群落在氨的异氨硝酸盐还原基因(DNRA)、硝酸盐同化还原基因(ANR)和反硝化作用方面具有很高的潜力。虽然我们假设企鹅群落的含氮化合物会远距离到达并影响原核生物群落,但正如我们的研究结果所示,这种影响会随着风向或地点形态的变化而变化,从而降低鸟粪的远距离影响。另一方面,功能预测通过硝酸还原、硝酸还原同化和反硝化等过程,为氮循环的主要参与者提供了一些线索。
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来源期刊
Polar Biology
Polar Biology 生物-生态学
CiteScore
3.60
自引率
11.80%
发文量
116
审稿时长
3-8 weeks
期刊介绍: Polar Biology publishes Original Papers, Reviews, and Short Notes and is the focal point for biologists working in polar regions. It is also of interest to scientists working in biology in general, ecology and physiology, as well as in oceanography and climatology related to polar life. Polar Biology presents results of studies in plants, animals, and micro-organisms of marine, limnic and terrestrial habitats in polar and subpolar regions of both hemispheres. Taxonomy/ Biogeography Life History Spatio-temporal Patterns in Abundance and Diversity Ecological Interactions Trophic Ecology Ecophysiology/ Biochemistry of Adaptation Biogeochemical Pathways and Cycles Ecological Models Human Impact/ Climate Change/ Conservation
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