Stefanie Krück scite author profile

Earthworm activity is observed at long‐term monitoring sites as an indicator of soil function to assess changes resulting from environmental and management conditions. In order to assess changes, characteristic values of earthworm populations under different site conditions have to be known. Therefore, a classification scheme for site‐specific earthworm populations was developed for soil in agricultural use, taking interactions between earthworm populations and soil properties into account. Characteristics of sites grouped by means of a cluster analysis after principal‐component analysis served as a basis for the derivation of the classification scheme. Soil variables found to characterize site differences with respect to earthworm populations were the texture of the topsoil, the texture of the subsoil, and the soil organic‐matter (SOM) content. The textural classes of the topsoil were divided into five groups comprising sandy soils (Ss), silty sand soils (Su), slightly loamy sand soils (Sl2), medium to strongly loamy sand soils (Sl3/Sl4), and loam and clay soils. Soil organic matter was divided into grades of equal size in a range from <1%, 1%–2% up to >6%. The variables “earthworm abundance” and “earthworm species” were selected to represent earthworm populations and were divided into six groups ranging from very low to extremely high. Defined groups of earthworm populations showed a clear structure in relation to soil textural groups and the content of SOM. From this distribution, a classification scheme was derived as basis for prognostic values of site‐specific earthworm populations, thus enabling the interpretation of changes over time. For some soil textural groups, selected variables appeared to enable the derivations of expected earthworm densities and species composition outside the range of the given database, but for some soil textural groups, broader databases will be needed to specify these derivations.

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Checklist of earthworms (Oligochaeta: Lumbricidae) from Germany

Lehmitz

Römbke

Jänsch

et al. 2014

Zootaxa

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A checklist of the German earthworm fauna (Oligochaeta: Lumbricidae) is presented, including published data, data from reports, diploma- and PhD- theses as well as unpublished data from museum collections, research institutions and private persons. Overall, 16,000 datasets were analyzed to produce the first German checklist of Lumbricidae. The checklist comprises 46 earthworm species from 15 genera and provides ecological information, zoogeographical distribution type and information on the species distribution in Germany. Only one species, Lumbricus badensis Michaelsen, 1907, is endemic to Germany, whereas 41% are peregrine. As there are 14 species occurring exclusively in the southern or eastern part of Germany, the species numbers in German regions increase from north to south.

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Conservation Tillage — A New Strategy in Flood Control

Schmidt

Zimmerling

Nitzsche

et al. 2001

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Assessing the impact of soil amendments made of processed biowaste digestate on soil macrofauna using two different earthworm species

Roß

Wilken

Krück³

et al. 2017

Archives of Agronomy and Soil Science

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Stefanie Krück

Spatial analysis of earthworm biodiversity at the regional scale

A classification scheme for earthworm populations (Lumbricidae) in cultivated agricultural soils in Brandenburg, Germany

Checklist of earthworms (Oligochaeta: Lumbricidae) from Germany

Conservation Tillage — A New Strategy in Flood Control

Assessing the impact of soil amendments made of processed biowaste digestate on soil macrofauna using two different earthworm species

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