wave towards a new steady state: effects of earthworm invasion on soil microbial functions

Earthworms are ecosystem engineers that cause a long cascade of ecological effects when they invade previously earthworm-free forests. However, the consequences of earthworm invasion for soil microbial functions are poorly understood. Here, we used two well-studied invasion fronts of European earthw...

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Veröffentlicht in:	Biological invasions 2011-10, Vol.13 (10), p.2191-2196
Hauptverfasser:	Eisenhauer, Nico, Schlaghamerský, Jiří, Reich, Peter B, Frelich, Lee E
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Schlagworte:	Animal populations Biomass Biomedical and Life Sciences Developmental Biology disturbed soils earthworms Ecological effects Ecological function ecological invasion Ecology Ecosystems forest ecosystems Forest soils Forests Freshwater & Marine Ecology hardwood forests Hardwoods Invasion Note invasions invasive species Life Sciences Microbial activity microbial biomass Nonnative species Plant Sciences Respiration Soil soil ecology Soil microorganisms Soils Terrestrial ecosystems Water stress Waves Worms
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container_title	Biological invasions
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creator	Eisenhauer, Nico Schlaghamerský, Jiří Reich, Peter B Frelich, Lee E
description	Earthworms are ecosystem engineers that cause a long cascade of ecological effects when they invade previously earthworm-free forests. However, the consequences of earthworm invasion for soil microbial functions are poorly understood. Here, we used two well-studied invasion fronts of European earthworms in northern North American hardwood forests previously devoid of earthworms in order to investigate three stages of earthworm invasion: uninvaded, the front of the leading edge of earthworm invasion and locations invaded at least 10 years previously. Soil microbial biomass, respiration and metabolic quotient were measured. Earthworms had marked effects on soil microbial biomass (−42%) and respiration (−32%). At both sites, impacts were most pronounced at the leading edge of the invasion front, significantly decreasing soil microbial C use efficiency. This was most likely due to the disturbance of the soil microbial community caused by water stress. Based on these results, we hypothesize that effects of earthworm invasion on native soil ecosystem functioning are most pronounced at the peak of the invasion wave. After experiencing this wave, ecosystems possibly enter a new steady state with altered biotic compositions and functions.
doi_str_mv	10.1007/s10530-011-0053-4
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subjects	Animal populations Biomass Biomedical and Life Sciences Developmental Biology disturbed soils earthworms Ecological effects Ecological function ecological invasion Ecology Ecosystems forest ecosystems Forest soils Forests Freshwater & Marine Ecology hardwood forests Hardwoods Invasion Note invasions invasive species Life Sciences Microbial activity microbial biomass Nonnative species Plant Sciences Respiration Soil soil ecology Soil microorganisms Soils Terrestrial ecosystems Water stress Waves Worms
title	wave towards a new steady state: effects of earthworm invasion on soil microbial functions
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