Ecosystem type drives soil eukaryotic diversity and composition in Europe

Köninger, Julia; Ballabio, Cristiano; Panagos, Panos; Jones, Arwyn Tomos; Schmid, Marc W.; Orgiazzi, Alberto; Briones, Maria J.I.

doi:10.1111/gcb.16871

Cited by 16 publications

(11 citation statements)

References 68 publications

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“…We assessed drivers of 41 European earthworm species and predicted the current and future distributions of 19 highly recorded species. Soil pH, phosphorus, and temperature were identified previously as strong drivers of earthworm distribution (Köninger et al, 2023;Phillips et al, 2019;Ruiz et al, 2021); however, we found precipitation seasonality, agricultural land area, and soil texture similarly or even more important for predicting patterns of earthworm distribution and richness (Figure 2b, Supporting Information Appendices S6-S8). The majority of the species occurred in the west of central Europe (i.e., the British Isles, Germany, the Netherlands, and Belgium) (Figure 2a).…”

Section: Discussionmentioning

confidence: 50%

“…Although the identified drivers of and predicted distributions for the targeted species aligned with the relevant literature (Rutgers et al, 2016;Phillips et al, 2019;Köninger et al, 2023), evaluating the resulting potential distributions is more challenging and more prone to bias due to major geographic and taxonomic gaps (Guerra et al, 2020). More targeted and standardized sampling is needed especially in central and southern of Spain, southern of Portugal, Italy, and eastern European countries (Supporting Information Appendices S12 & S13) (Guerra et al, 2020).…”

Section: Discussionmentioning

confidence: 87%

“…To reach conservation goals, their design and management have to meet individual species and ecosystem needs and to consider future impacts of global change (Gaston et al., 2006; Leverington et al., 2010). Earthworms and many other soil‐dwelling organisms are currently underprotected and are not explicitly targeted in nature conservation policies and regulations (Köninger et al., 2022; Zeiss et al., 2022). One solution could be to expand species‐specific targets in protected areas (Loiseau et al.…”

Section: Discussionmentioning

confidence: 99%

“…As a result, protecting aboveground species does not necessarily provide protection to belowground organisms (Zeiss et al, 2022). Recent large-scale studies describe the main drivers of large taxonomic groups distributions (e.g., earth-worms, nematodes, fungi, bacteria) (Delgado-Baquerizo et al, 2018;Köninger et al, 2023;Phillips et al, 2019;Tedersoo et al, 2014;van den Hoogen et al, 2019) and highlight the effects of climate (in particular temperature and precipitation). Regional and local-scale studies confirm the generality of these main drivers of distribution (Orgiazzi et al, 2016;Desie et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Effects of climate on the distribution and conservation of commonly observed European earthworms

Zeiss,

Briones,

Mathieu

et al. 2024

Conservation Biology

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Belowground biodiversity distribution does not necessarily reflect aboveground biodiversity patterns, but maps of soil biodiversity remain scarce because of limited data availability. Earthworms belong to the most thoroughly studied soil organisms, and ‐ in their role as ecosystem engineers ‐ have a significant impact on ecosystem functioning. We used Species Distribution Modeling (SDMs) and available datasets to map the spatial distribution of commonly observed, i.e., frequently recorded, earthworm species (Annelida, Oligochaeta) across Europe under current and future climate. We showed that earthworm species richness is high in central western and low in north‐eastern Europe. This pattern was found to be mainly driven by annual mean temperature and precipitation seasonality, but importance of predictor variables on species occurrences varied among targeted species. Not only geographical ranges of the majority of the earthworm species are predicted to shift to eastern Europe and partly decrease under future climate scenarios, but also were only poorly covered by different protected areas, such as National Parks. Instead, more than 80% of the earthworm range was on average not protected at all (mean = 82.6%, SD 0.04). Overall, our results emphasize the urgency of considering especially vulnerable earthworm species, as well as other soil organisms, in the design of nature conservation measures.This article is protected by copyright. All rights reserved

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Section: Discussionmentioning

confidence: 50%

Section: Discussionmentioning

confidence: 87%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of climate on the distribution and conservation of commonly observed European earthworms

Zeiss,

Briones,

Mathieu

et al. 2024

Conservation Biology

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“…Regarding soil biodiversity, YSRs contributed to the first ever assessment of soil biodiversity across Europe. The analysis of the largest European soil DNA dataset (Orgiazzi et al, 2022) showed how soil microbial communities were mainly explained by soil properties, especially pH (bacteria), and by vegetation cover (fungi), while soil animals were more associated with historical conditions in terms of climate and land use (Köninger et al, 2023; Labouyrie et al, 2023). YSRs also explored the role of soil biodiversity in policy cycles (Köninger et al, 2022) and the interactions of manure and soil biodiversity (Köninger et al, 2021).…”

Section: The Eu Soil Observatory and Collaborative Doctoral Partnersh...mentioning

confidence: 99%

Let's give a voice to young soil researchers

Panagos,

Orgiazzi

2023

European J Soil Science

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Young soil researchers represent a generation that will respond to future soil challenges and implement connected policy developments. They will deal with emerging challenges and opportunities for soil protection, such as climate change, land use change, scenario analysis, big data, modelling integration, one health aspects, and soil living laboratories. In this context, the EU Soil Observatory (EUSO) provides an inclusive forum for participatory research in the EU and beyond. In 2021, at the first gathering of the EUSO Stakeholders Forum, young researchers were actively engaged through the establishment of the EU Young Soil Researchers Forum. This resulted in interesting presentations, discussions, and research outputs, which have been brought together in this virtual thematicissue. Similar support for young soil researchers is expected at the 2024 EUSO Stakeholders Forum.

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The Mainstreaming Agenda of the Convention on Biological Diversity and Its Value to Protecting and Enhancing Soil Ecosystem Services

Robb

2024

International Yearbook of Soil Law and Policy

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This chapter highlights the importance of soil biodiversity in the provision of ecosystem services, and its relevance in the context of the Convention on Biological Diversity ‘mainstreaming’ agenda, and Convention architecture. It provides case studies relating to the mainstreaming of soil biodiversity, as well as a ‘Soil Biodiversity Perception Checklist’, to help integrate soil biodiversity, soil health and soil ecosystem services into decision making at all levels and across all sectors, including in policy, and land use and management strategy and practice.

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Ecosystem type drives soil eukaryotic diversity and composition in Europe

Cited by 16 publications

References 68 publications

Effects of climate on the distribution and conservation of commonly observed European earthworms

Effects of climate on the distribution and conservation of commonly observed European earthworms

Let's give a voice to young soil researchers

The Mainstreaming Agenda of the Convention on Biological Diversity and Its Value to Protecting and Enhancing Soil Ecosystem Services

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