Abstract
In spite of the high relevance of lumbricid earthworms (‘Oligochaeta’: Lumbricidae) for soil structure and functioning, the taxonomy of this group of terrestrial invertebrates remains in a quasi-chaotic state. Earthworm taxonomy traditionally relies on the interpretation of external and internal morphological characters, but the acquisition of these data is often hampered by tedious dissections or restricted access to valuable and rare museum specimens. The present state of affairs, in conjunction with the difficulty of establishing primary homologies for multiple morphological features, has led to an almost unrivaled instability in the taxonomy and systematics of certain earthworm groups, including Lumbricidae. As a potential remedy, we apply for the first time a non-destructive imaging technique to lumbricids and explore the future application of this approach to earthworm taxonomy. High-resolution micro-computed tomography (μCT) scanning of freshly fixed and museum specimens was carried out using two cosmopolitan species, Aporrectodea caliginosa and A. trapezoides. By combining two-dimensional and three-dimensional dataset visualization techniques, we demonstrate that the morphological features commonly used in earthworm taxonomy can now be analyzed without the need for dissection, whether freshly fixed or museum specimens collected more than 60 years ago are studied. Our analyses show that μCT in combination with soft tissue staining can be successfully applied to lumbricid earthworms. An extension of the approach to other families is poised to strengthen earthworm taxonomy by providing a versatile tool to resolve the taxonomic chaos currently present in this ecologically important, but taxonomically neglected group of terrestrial invertebrates.
Highlights
In one of the first comprehensive investigations into earthworm (Clitellata: ‘Oligochaeta’) taxonomy, written more than a century ago, Michaelsen [1] featured the prophetic words sine systemate chaos in the title of his treatise
References to the instability of earthworm taxonomy are frequent in the literature (e.g., [3]), and studies have emphasized the lack of robust classifications on various taxonomic levels (e.g., ‘the family-level classification of the megascolecid earthworms is in chaos’ [4])
In order to provide a further tool for earthworm taxonomy, the present study aims to assess the usefulness of micro-computed tomography (mCT) scanning in combination with soft tissue staining to identify morphological characters of importance for earthworm taxonomy, and to compare the application of this non-destructive imaging approach to museum and freshly fixed specimens
Summary
In one of the first comprehensive investigations into earthworm (Clitellata: ‘Oligochaeta’) taxonomy, written more than a century ago, Michaelsen [1] featured the prophetic words sine systemate chaos in the title of his treatise. References to the instability of earthworm taxonomy are frequent in the literature (e.g., [3]), and studies have emphasized the lack of robust classifications on various taxonomic levels (e.g., ‘the family-level classification of the megascolecid earthworms is in chaos’ [4]) This unfortunate state of affairs holds true for Lumbricidae Claus, 1876. The overlap of certain morphological features (e.g., shape of prostomium; position of chaetae; position and shape of sexual organs including clitellum, tubercula pubertatis, testes, ovaries, and spermathecae) has complicated species identification Overlap in these key characters in closely- and distantly-related species is pervasive [6,7,8,9,10,11,12,13]. The instability of lumbricid earthworm taxonomy can be linked to three major issues: a high rate of synonymy, the establishment of ‘catch-all’ polyphyletic genera, and the existence of broad ‘species complexes’ [6,7,8,9,14]
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