Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis

Helen R.P. Phillips; Erin K. Cameron; Nico Eisenhauer; Victoria J. Burton; Olga Ferlian; Yiming Jin; Sahana Kanabar; Sandhya Malladi; Rowan E. Murphy; Anne Peter; Isis Petrocelli; Christian Ristok; Katharine Tyndall; Wim van der Putten; Léa Beaumelle

doi:10.1016/j.isci.2024.110540

Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis

Helen R.P. Phillips^* (Co-auteur), Erin K. Cameron, Nico Eisenhauer, Victoria J. Burton, Olga Ferlian, Yiming Jin, Sahana Kanabar, Sandhya Malladi, Rowan E. Murphy, Anne Peter, Isis Petrocelli, Christian Ristok, Katharine Tyndall, Wim van der Putten, Léa Beaumelle

^*Corresponding author voor dit werk

NIOO - Terrestrial Ecology (TE)

Onderzoeksoutput: Bijdrage aan wetenschappelijk tijdschrift/periodieke uitgave › Artikel › Wetenschappelijk › peer review

3 Citaten (Scopus)

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Identifying the main threats to soil biodiversity is crucial as soils harbor ∼60% of global biodiversity. Many previous meta-analyses investigating the impact of different global changes (GCs) on biodiversity have omitted soil fauna or are limited by the GCs studied. We conducted a broad-scale meta-analysis focused on soil fauna communities, analyzing 3,161 effect sizes from 624 publications studying climate change, land-use intensification, pollution, nutrient enrichment, invasive species and habitat fragmentation. Land-use intensification resulted in large reductions in soil fauna communities, especially for the larger-bodied groups. Unexpectedly, pollution caused the largest negative impact on soil biodiversity - particularly worrying due to continually increasing levels of pollution and poor mechanistic understanding of impacts relative to other GCs. Not all GCs and stressors were detrimental; organic-based nutrient enrichment often resulted in positive responses. Including soil biodiversity in large-scale analyses is vital to fully understand the impact of GCs across the different realms.

Originele taal-2	Engels
Artikelnummer	110540
Tijdschrift	iScience
Volume	27
Nummer van het tijdschrift	9
Vroegere onlinedatum	24 aug. 2024
DOI's	https://doi.org/10.1016/j.isci.2024.110540
Status	Gepubliceerd - 20 sep. 2024

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10.1016/j.isci.2024.110540Licentie: CC BY

data from: Global changes and their environmental stressors have a significant impact on soil biodiversity
Phillips, H. (Maker), Cameron, E. K. (Maker), Eisenhauer, N. (Maker), Burton, V. J. (Maker), Ferlian, O. (Maker), Jin, Y. (Maker), Kanabar, S. (Maker), Malladi, S. (Maker), Murphy, R. E. (Maker), Peter, A. (Maker), Petrocelli, I. (Maker), Ristok, C. (Maker), Tyndall, K. (Maker), van der Putten, W. H. (Maker) & Beaumelle, L. (Maker), Zenodo, 29 dec. 2022
DOI: 10.5281/zenodo.6903152
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Phillips, H. R. P., Cameron, E. K., Eisenhauer, N., Burton, V. J., Ferlian, O., Jin, Y., Kanabar, S., Malladi, S., Murphy, R. E., Peter, A., Petrocelli, I., Ristok, C., Tyndall, K., Putten, W. V. D., & Beaumelle, L. (2024). Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis. iScience, 27(9), Artikel 110540. https://doi.org/10.1016/j.isci.2024.110540

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title = "Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis",

abstract = "Identifying the main threats to soil biodiversity is crucial as soils harbor ∼60% of global biodiversity. Many previous meta-analyses investigating the impact of different global changes (GCs) on biodiversity have omitted soil fauna or are limited by the GCs studied. We conducted a broad-scale meta-analysis focused on soil fauna communities, analyzing 3,161 effect sizes from 624 publications studying climate change, land-use intensification, pollution, nutrient enrichment, invasive species and habitat fragmentation. Land-use intensification resulted in large reductions in soil fauna communities, especially for the larger-bodied groups. Unexpectedly, pollution caused the largest negative impact on soil biodiversity - particularly worrying due to continually increasing levels of pollution and poor mechanistic understanding of impacts relative to other GCs. Not all GCs and stressors were detrimental; organic-based nutrient enrichment often resulted in positive responses. Including soil biodiversity in large-scale analyses is vital to fully understand the impact of GCs across the different realms.",

author = "Phillips, {Helen R.P.} and Cameron, {Erin K.} and Nico Eisenhauer and Burton, {Victoria J.} and Olga Ferlian and Yiming Jin and Sahana Kanabar and Sandhya Malladi and Murphy, {Rowan E.} and Anne Peter and Isis Petrocelli and Christian Ristok and Katharine Tyndall and Putten, {Wim van der} and L{\'e}a Beaumelle",

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doi = "10.1016/j.isci.2024.110540",

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Phillips, HRP, Cameron, EK, Eisenhauer, N, Burton, VJ, Ferlian, O, Jin, Y, Kanabar, S, Malladi, S, Murphy, RE, Peter, A, Petrocelli, I, Ristok, C, Tyndall, K, Putten, WVD & Beaumelle, L 2024, 'Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis', iScience, vol. 27, nr. 9, 110540. https://doi.org/10.1016/j.isci.2024.110540

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T1 - Global changes and their environmental stressors have a significant impact on soil biodiversity

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AU - Phillips, Helen R.P.

AU - Cameron, Erin K.

AU - Eisenhauer, Nico

AU - Burton, Victoria J.

AU - Ferlian, Olga

AU - Jin, Yiming

AU - Kanabar, Sahana

AU - Malladi, Sandhya

AU - Murphy, Rowan E.

AU - Peter, Anne

AU - Petrocelli, Isis

AU - Ristok, Christian

AU - Tyndall, Katharine

AU - Putten, Wim van der

AU - Beaumelle, Léa

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N2 - Identifying the main threats to soil biodiversity is crucial as soils harbor ∼60% of global biodiversity. Many previous meta-analyses investigating the impact of different global changes (GCs) on biodiversity have omitted soil fauna or are limited by the GCs studied. We conducted a broad-scale meta-analysis focused on soil fauna communities, analyzing 3,161 effect sizes from 624 publications studying climate change, land-use intensification, pollution, nutrient enrichment, invasive species and habitat fragmentation. Land-use intensification resulted in large reductions in soil fauna communities, especially for the larger-bodied groups. Unexpectedly, pollution caused the largest negative impact on soil biodiversity - particularly worrying due to continually increasing levels of pollution and poor mechanistic understanding of impacts relative to other GCs. Not all GCs and stressors were detrimental; organic-based nutrient enrichment often resulted in positive responses. Including soil biodiversity in large-scale analyses is vital to fully understand the impact of GCs across the different realms.

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ER -

Global changes and their environmental stressors have a significant impact on soil biodiversity: A meta-analysis

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data from: Global changes and their environmental stressors have a significant impact on soil biodiversity

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