Soil organisms provide crucial ecosystem services that support human life. However, little is known about their diversity, distribution, and the threats affecting them. Here, we compiled a global dataset of 60 sampled earthworm communities from over 7000 sites in 56 countries to predict patterns in earthworm diversity, abundance, and biomass. We identify the environmental drivers shaping these patterns. Local species richness and abundance typically peaked at higher latitudes, while biomass peaked in the tropics, patterns opposite to those observed in aboveground organisms. Similar to many aboveground taxa, climate variables were more important in shaping earthworm communities than soil properties or habitat 65 cover. These findings highlight that, while the environmental drivers are similar, conservation strategies to conserve aboveground biodiversity might not be appropriate for earthworm diversity, especially in a changing climate.
The study intended to establish how the dynamics of earthworms (Oligochaeta: Lumbricidae) changes in soil (abundance, biomass), under conditions of mineral fertilization with nitrogen and phosphorous in four different doses, in a 33-year experimental placement in the west of Romania, in wheat-soybean-maize-barley rotation. The soil indices taken into study were: pH, humus, total nitrogen, phosphorous and potassium. Statistical connections between the studied factors were realized using the dispersion analysis ANOVA and the SPSS Software (Statistical Package for the Social Sciences). The study showed an increase of earthworm abundance and biomass under conditions of chemical fertilization with nitrogen and phosphorous. The highest number of earthworms was recorded in the treatment with the largest dose of nitrogen fertilizer (by 85.85% higher compared to the control treatment). The greatest positive influence on earthworm abundance and biomass was manifested in humus and total nitrogen. The greatest negative influence on earthworm abundance was found in pH factor, while phosphorous content of soil exerted the greatest negative influence on earthworm biomass.
Earthworms are an important soil taxon as ecosystem engineers, providing a variety of crucial ecosystem functions and services. Little is known about their diversity and distribution at large spatial scales, despite the availability of considerable amounts of local-scale data. Earthworm diversity data, obtained from the primary literature or provided directly by authors, were collated with information on site locations, including coordinates, habitat cover, and soil properties. Datasets were required, at a minimum, to include abundance or biomass of earthworms at a site. Where possible, site-level species lists were included, as well as the abundance and biomass of individual species and ecological groups. This global dataset contains 10,840 sites, with 184 species, from 60 countries and all continents except Antarctica. The data were obtained from 182 published articles, published between 1973 and 2017, and 17 unpublished datasets. Amalgamating data into a single global database will assist researchers in investigating and answering a wide variety of pressing questions, for example, jointly assessing aboveground and belowground biodiversity distributions and drivers of biodiversity change.
This paper aimed to establish the species diversity of earthworms (Oligochaeta: Lumbricidae) and the chemical composition of earthworm surface castings within an urban park from west side of Romania (Timişoara City): Plevnei Park (45°44'58''N, 21°13'38''E). Eight lumbricid earthworm species have been identified: Lumbricus terrestris, Aporrectodea rosea, Aporrectodea longa, Aporrectodea caliginosa, Allolobophora chlorotica, Dendrobaena veneta, Dendrobaena octaedra, Dendrodrilus rubidus. Based on species incidence, several ecological indicators have been calculated: the constancy of earthworm species in the sampling areas, the Sørensen similarity of sampling points as species composition, and the Jaccard similarity (coenotic affinity) of the earthworm species within the sampled points. The surface castings have been analyzed for the following physical-chemical parameters: pH, total organic carbon (TOC), total nitrogen (N), plant available phosphorus (P), plant available potassium (K), and calcium water soluble (Ca). Because it is not yet clearly elucidated the casting behavior (surface or subsurface) of earthworms, and their feeding behavior, habitat behavior and casting behavior are not always clearly separated traits, and because until now it is insufficiently known how the environmental conditions affect the surface or subsurface casts production in earthworms, or how these conditions determine more than a single casting behavior for one species, there had been difficult to conclude which of the found species is responsible for the surface casting within the studied urban park. To find possible correlations existing between the physical-chemical parameters of the earthworm castings, Pearson, Spearman, and Kendall correlations (p<0.05) were calculated. The study revealed significant
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