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Literature DB >> 30287162

How Soil Biota Drive Ecosystem Stability.

Gaowen Yang¹, Cameron Wagg², Stavros D Veresoglou³, Stefan Hempel³, Matthias C Rillig³.

Abstract

High biodiversity aboveground tends to increase the stability of ecosystem functioning when faced with a changing environment. However, whether and how soil biota affect ecosystem stability is less clear. Here, we introduce a framework for understanding the effects of soil biota on variation in ecosystem functioning under environmental changes. We conclude that soil biota may be a neglected factor determining ecosystem stability through their direct and indirect effects on plant diversity, the net productivity of an ecosystem, and compensatory dynamics among plant species, and via altering ecosystem resistance and resilience. Furthermore, future research needs to consider that effects of soil biota on ecosystem stability will vary depending on extrinsic factors, and for a given perturbation and ecosystem function.

Entities: Species

Keywords: arbuscular mycorrhizal fungi; diversity–stability relationships; ecosystem resistance and resilience; invariability; species asynchrony

Mesh：

Year: 2018 PMID： 30287162 DOI： 10.1016/j.tplants.2018.09.007

Source DB: PubMed Journal: Trends Plant Sci ISSN： 1360-1385 Impact factor: 18.313

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Cited

11 in total

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6. Drought decreases incorporation of recent plant photosynthate into soil food webs regardless of their trophic complexity.

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7. Mycorrhizal Patterns in the Roots of Dominant Festuca rubra in a High-Natural-Value Grassland.

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8. Tropical land use alters functional diversity of soil food webs and leads to monopolization of the detrital energy channel.

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9. The Diversity of Soil Bacteria and Fungi Under Altered Nitrogen and Rainfall Patterns in a Temperate Steppe.

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Review 10. Are we there yet? The long walk towards the development of efficient symbiotic associations between nitrogen-fixing bacteria and non-leguminous crops.

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