Soil fauna across Central European sandstone ravines with temperature inversion: From cool and shady to dry and hot places

•Vertical position in the ravine and soil pH were the most important factors explaining community composition of soil fauna.•Ravine bottoms hosted a more diverse soil fauna than slopes and edges.•Earthworms, millipedes and woodlice were almost limited to the ravine bottoms.•Meso- and microfauna reac...

Full description

Saved in:
Bibliographic Details
Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment ecosystems & environment, 2014-11, Vol.83, p.30-38
Main Authors: Schlaghamerský, Jiří, Devetter, Miloslav, Háněl, Ladislav, Tajovský, Karel, Starý, Josef, Tuf, Ivan H., Pižl, Václav
Format: Article
Language:English
Subjects:
Drought
Environmental gradients
Gorges
Nematoda
Oribatida
Ravines
Soil fauna
Species richness
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Vertical position in the ravine and soil pH were the most important factors explaining community composition of soil fauna.•Ravine bottoms hosted a more diverse soil fauna than slopes and edges.•Earthworms, millipedes and woodlice were almost limited to the ravine bottoms.•Meso- and microfauna reached high densities on slopes, less so on the dry edges.•Droughts and flash floods shaped the soil fauna of the studied ravines. Sandstone massifs with their deep ravines or gorges offer the instructive opportunity to study the response of organisms to steep environmental gradients. In 2008–2010, many groups of soil fauna were studied along transects across three ravines in the Bohemian Switzerland National Park (north-western Czech Republic), a part of the Elbe Sandstone Massif. Each transect included five sampling positions: two opposite edges, two opposite mid-slope positions, and the ravine bottom. The ravines had a specific microclimate characterized by temperature inversion. In general, the cooler and more humid ravine bottoms had also less acid soil with lower carbon content but enriched by litter of deciduous trees and herbs. The other transect positions were characterized by spruce (mid-slopes) and pine (edges) stands with mor humus, exposed to drought in the upper parts. The soil animal communities (identified to species level) differed substantially in dependence on their position along the transects. Ravine bottoms hosted a diverse soil fauna, including a rich macrofauna. The thick duff layer of acid soils on the slopes and edges hosted a poorer fauna but supported high densities of important decomposers such as enchytraeids, oribatid mites and microbivorous nematodes. In general, these were higher on the slopes, presumably due to the drought exposure of the edges. Vertical position in the ravine and soil pH were the most important factors explaining community composition. This confirmed that the area's high geomorphological diversity, leading to steep microclimatic gradients and heterogenous soil conditions, is a major cause of its high biodiversity. A shift in community structure in the lower parts of the ravines, observed after the first half of the study period, was possibly caused by summer flash floods. An increased frequency and severity of dry spells and flash floods due to heavy rains, predicted by relevant climate warming scenarios, will probably have an detrimental effect on the ravines'soil fauna.
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2013.11.014