Abstract
Although significant progress has been made using insect taxa as model organisms, non-tracheated terrestrial arthropods, such as Collembola, are underrepresented as model species. This underrepresentation reflects the difficulty in maintaining populations of specialist Collembola species in the laboratory. Until now, no species from the family Neanuridae have been successfully reared. Here we use controlled growth experiments to provide explicit evidence that the species Neanura muscorum can be raised under laboratory conditions when its diet is supplemented with slime mould. Significant gains in growth were observed in Collembola given slime mould rather than a standard diet of algae-covered bark. These benefits are further highlighted by the reproductive success of the experimental group and persistence of laboratory breeding stocks of this species and others in the family. The necessity for slime mould in the diet is attributed to the ‘suctorial’ mouthpart morphology characteristic of the Neanuridae. Maintaining laboratory populations of neanurid Collembola species will facilitate their use as model organisms, paving the way for studies that will broaden the current understanding of the environmental physiology of arthropods.
Highlights
Significant progress has been made using insect taxa as model organisms, nontracheated terrestrial arthropods, such as Collembola, are underrepresented as model species
At least three Collembola species have been widely established as model organisms (Folsomia candida, Hypogastrura tullbergi, and Orchesella cincta12–16), with a range of work being done on field populations of these species[17,18,19]
Little is known of Collembola species that deviate from the typical ‘mandibulate’ mouthpart morphology, such as those of the family Neanuridae
Summary
Significant progress has been made using insect taxa as model organisms, nontracheated terrestrial arthropods, such as Collembola, are underrepresented as model species. Significant gains in growth were observed in Collembola given slime mould rather than a standard diet of algae-covered bark These benefits are further highlighted by the reproductive success of the experimental group and persistence of laboratory breeding stocks of this species and others in the family. For some springtail species, including the three laboratory models, this knowledge is available given their long history of culture[14,27] These species possess the more-typical ‘mandibulate’ mouthpart morphology[8,28] associated with a generalist diet that may vary depending on resource availability[29,30]. Little is known of Collembola species that deviate from the typical ‘mandibulate’ mouthpart morphology, such as those of the family Neanuridae
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