Effects of hydrologic regime changes on a taxonomic and functional trait structure of earthworm communities in mountain wetlands

0571262 - BC 2024 RIV CH eng J - Článek v odborném periodiku
Pižl, Václav - Sterzyńska, M. - Tajovský, Karel - Starý, Josef - Nicia, P. - Zadrożny, P. - Bejger, R.
Effects of hydrologic regime changes on a taxonomic and functional trait structure of earthworm communities in mountain wetlands.
Biology. Roč. 12, č. 3 (2023), č. článku 482. E-ISSN 2079-7737
Grant ostatní: AV ČR(CZ) 15621/B/Pol/2011/40
Institucionální podpora: RVO:60077344
Klíčová slova: environmental change * disturbance * biodiversity * functional traits * resilience * resistance * earthworms
Obor OECD: Ecology
Impakt faktor: 4.2, rok: 2022
Způsob publikování: Open access
https://www.mdpi.com/2079-7737/12/3/482

Simple Summary: Disturbance mechanisms, both natural and human-induced, can lead to changes at all levels of biological organization, including soil biota. Understanding how soil biota has adapted to a dynamic system driven by natural disturbances responding to environmental change requires a taxonomic and functional approach. Although wetlands are naturally hydrologic disturbance-driven ecosystems, relatively little attention has been paid to soil biota responses to environmental changes in these disturbance-dependent ecosystems. It has been hypothesized that the drainage-related changes in mountain wetlands soils have an effect on the community composition and functional structure of soil biota. For the first time, a field study has demonstrated that hydrologic disturbances affect the functional and taxonomic composition of soil biota represented by earthworms. Abiotic-based environmental filtering was responsible for the earthworm species sorting and trait variation. The highest earthworm variation found in wetlands semi-natural hydrologic conditions emphasizes the impact of transient dynamics on earthworm assembly. Disturbances, both natural and anthropogenic, influence the patterning of species and species traits. The shift in species composition and distribution pattern of functional traits can demonstrate if the community is resistant, sensitive or resilient to the disturbance. Based on species- and trait-based approaches, we examined the response of the earthworm community to changing hydrologic conditions caused by the artificial drainage of mountain fens, in which cumulative effects of disturbance events over space and time are much less dynamic than in riverine wetlands. We hypothesized that the drainage-related changes of mountain fen peat soils have an effect on the earthworm community composition and its functional structure. We assume that the shift in species composition and value of community-weighted functional traits reflect changes in the resilience or resistance of the earthworm community to environmental change. Our results demonstrate that the total density of earthworms was almost three times lower under drained conditions compared to natural ones. Artificial drainage of fens had a neutral effect on the species-based diversity indices. However, there were species-specific traits that responded to hydrologic changes and which led to the species' replacements and to the co-occurrence of eurytopic, surface-browsing and more drought- and low-pH-resistant earthworm species in the drained fens. Based on these results, we conclude that abiotic-based environmental filtering was the main process responsible for sorting earthworms according to species and traits in the disturbed hydrologic conditions. The greater earthworm functional trait variations in semi-natural hydrologic conditions emphasizes the impact of transient dynamics in an altered disturbance regime on the earthworm assembly. Results also showed that in the changing hydrologic conditions of mountain fens, the functional trait approach revealed only slightly more predictive power than the taxonomic one, but it proved better with processes responsible for earthworm species filtering.
Trvalý link: https://hdl.handle.net/11104/0344271