Journal
EUROPEAN JOURNAL OF SOIL SCIENCE
Volume 72, Issue 1, Pages 343-355Publisher
WILEY
DOI: 10.1111/ejss.12942
Keywords
climate change; drought; earthworms; ecosystem engineers; land use types; land-use intensity; soil biodiversity; warming
Categories
Funding
- Academy of Finland [285882]
- Alexander von Humboldt-Stiftung [3.5/INI/1164712]
- Deutsche Forschungsgemeinschaft [FZT 118]
- Natural Sciences and Engineering Research Council of Canada [RGPIN-2019-05758]
- Academy of Finland (AKA) [285882, 285882] Funding Source: Academy of Finland (AKA)
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The study found that climate change has species-specific effects on different active earthworm species, but has limited interactions with land-use types. Intensive grassland management decreased the abundance of active earthworms, while sheep grazing favored earthworm populations. Overall, the response of earthworm communities to climate change and land use types is complex and context-dependent.
The impacts of climate change on biodiversity can be modulated by other changing environmental conditions (e.g. induced by land-use change). The potential interactive effects of climate change and land use have rarely been studied for soil organisms. To test the effects of changing climatic conditions and land use on soil invertebrates, we examined earthworm communities across different seasons in different grassland-use types (intensively managed grassland, extensively managed meadow and extensively managed sheep pasture). We predicted that the strength of climate change effects would vary with season and land use. Overall, extracted earthworm populations showed the strongest variations in response to the season, indicating major differences in activity patterns and extraction efficiency, whereas climate change and different grassland-use types had fewer and weaker effects. Future climate, characterized by slightly higher precipitation in spring and autumn but a strong reduction during the summer, had positive effects on the abundance of extracted adult earthworms in spring but then reduced the abundance of active earthworms across the remaining seasons. In contrast, the total biomass of juveniles tended to be consistently lower under future climate conditions. Earthworm species responded differently to the climate change and different grassland management types, and these species-specific responses further varied strongly across seasons. Intensive grassland management had negative effects, due to plant community composition, whereas sheep grazing favoured earthworm populations, due to dung deposition. There were only limited interactive effects between climate and land use, which thus did not support our main hypothesis. Nevertheless, these results highlight the complex and context-dependent responses of earthworm communities and activity patterns to climate change, with potential consequences for long-term population dynamics and crucial ecosystem functions. Highlights We explored earthworm communities in response to climate change, different grassland-use types and seasons Climate had species-specific effects on active earthworms, but few interactions with land-use type Intensive grassland management decreased, but sheep grazing favoured, active earthworm populations Strong seasonal variations in earthworm activity periods will be modulated by climate change
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