Soil resources vs. physicochemical soil properties as drivers of abundance and diversity of low Arctic soil mesofauna communities

IF 1.5 4区 环境科学与生态学 Q3 BIODIVERSITY CONSERVATION
R. R. Klein, B. A. Ball
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Abstract

Soil mesofauna play pertinent roles in soil processes. For example, microarthropods strongly influence rates of microbial decomposition. The relationship between mesofauna and their environment are understudied in low Arctic ecosystems compared to other regions. A more detailed grasp of these soil assemblages is necessary for understanding the current functioning of these ecosystems. We characterized the soil mesofauna community across different low Arctic habitats to determine which soil properties commonly correlated with soil fauna would best explain their distribution, abundance, and diversity. Samples were taken near five different lakes in northern Finland, in both alpine meadows and sub-alpine birch forests, across a span of available soil habitats (measured by pH, salinity, organic and nitrogen content, soil moisture). Total abundance of the mesofauna community was influenced by a combination of soil factors, but most individual taxa, as well as measures of diversity were best explained by models of one or two influential soil parameters. Poduromorpha springtails and Oribatid mites were best modeled by measures of resource availability, although only Oribatids were significantly, positively related to these resources. All mites and Entomobryomorphid springtails were positively influenced by physicochemical soil moisture and/or salinity. Salinity, in particular, had a strong influence on overall mesofauna community composition. Our results provide further insight into soil fauna assemblages in Northern Finland and further, more extensive research would contribute to a more comprehensive foundation. This will allow for better monitoring of community changes and responses in the face of climate change in the low Arctic.

Abstract Image

土壤资源与土壤理化性质是北极低纬度土壤中层动物群落丰度和多样性的驱动因素
土壤中层动物在土壤过程中发挥着相关作用。例如,微型节肢动物对微生物分解的速率有很大影响。与其他地区相比,人们对北极低纬度生态系统中层动物与其环境之间的关系研究不足。要了解这些生态系统目前的功能,就必须更详细地掌握这些土壤组合。我们对不同低纬度北极栖息地的土壤中层动物群落进行了特征描述,以确定哪些通常与土壤动物群落相关的土壤特性最能解释它们的分布、丰度和多样性。我们在芬兰北部五个不同的湖泊附近采集了样本,这些湖泊分别位于高山草甸和亚高山桦树林中,土壤生境跨度较大(通过 pH 值、盐度、有机物和氮含量、土壤湿度测量)。中生动物群落的总丰度受到多种土壤因素的影响,但大多数单个类群以及多样性的测量结果都能通过一到两个有影响的土壤参数模型得到最好的解释。Poduromorpha 春梢螨和 Oribatid 螨最适合用资源可用性模型来解释,尽管只有 Oribatid 螨与这些资源有显著的正相关。所有螨类和 Entomobryomorphid 春梢螨都受到土壤理化湿度和/或盐度的积极影响。盐度对整个中生动物群落组成的影响尤为明显。我们的研究结果让我们对芬兰北部的土壤动物群落有了更深入的了解,进一步、更广泛的研究将有助于奠定更全面的基础。这将有助于更好地监测北极低纬度地区面对气候变化时群落的变化和反应。
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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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