Response of soil fauna to simulated global change factors depends on ambient climate conditions

•Major soil microarthropod taxa responded differently to simulated climate change.•Oribatida and Collembola diversity increased under warming in a high rainfall year.•Mesostigmata diversity showed no response to either warming or elevated CO2.•Annual rainfall may dictate soil faunal responses to sim...

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Bibliographic Details
Published in:Pedobiologia 2020-11, Vol.83, p.150672, Article 150672
Main Authors: Meehan, Matthew L., Barreto, Carlos, Turnbull, Matthew S., Bradley, Robert L., Bellenger, Jean-Philippe, Darnajoux, Romain, Lindo, Zoë
Format: Article
Language:English
Subjects:
Acari
Boreal forest
Climate change
Collembola
Community ecology
Elevated CO2 precipitation
Microarthropods
Warming
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Summary:•Major soil microarthropod taxa responded differently to simulated climate change.•Oribatida and Collembola diversity increased under warming in a high rainfall year.•Mesostigmata diversity showed no response to either warming or elevated CO2.•Annual rainfall may dictate soil faunal responses to simulated climate change. Soils systems provide essential ecosystem functions and services performed by a hyperdiverse array of fauna, but how soil communities respond to climate change remains an understudied topic. Although previous long-term studies have found variable effects of climate change manipulations on soil communities, precipitation often yields strong responses from fauna. In this study we used a field-based experiment to test how soil communities respond to active warming (+4 °C) and elevated atmospheric CO2 concentrations (800 ppm) in the boreal forest over two consecutive years in a full factorial experimental design. We sampled and identified soil fauna across multiple taxonomic groups to determine how species abundance, richness, diversity, evenness, and community composition were affected by these simulated global climate change factors. Fauna were minimally affected by experimental treatments in the first year of sampling. However, in the second year of treatment, richness and diversity increased and soil community composition shifted as oribatid mites responded to both warming and elevated CO2 and springtails responded to warming treatments. We propose that the enhanced response of soil communities in the second year of experimental treatment was due to greater than normal precipitation, suggesting that annual variability in weather conditions can influence soil fauna response to climate change.
ISSN:0031-4056
1873-1511
DOI:10.1016/j.pedobi.2020.150672