Convergent Evolution of Unique Morphological Adaptations to a Subterranean Environment in Cave Millipedes (Diplopoda)

Animal life in caves has fascinated researchers and the public alike because of the unusual and sometimes bizarre morphological adaptations observed in numerous troglobitic species. Despite their worldwide diversity, the adaptations of cave millipedes (Diplopoda) to a troglobitic lifestyle have rare...

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Bibliographic Details
Published in:PloS one 2017-02, Vol.12 (2), p.e0170717-e0170717
Main Authors: Liu, Weixin, Golovatch, Sergei, Wesener, Thomas, Tian, Mingyi
Format: Article
Language:English
Subjects:
Adaptation
Adaptation, Biological
Adaptations
Agriculture
Animals
Antennae
Arthropoda
Arthropods - anatomy & histology
Arthropods - classification
Arthropods - genetics
Arthropods - ultrastructure
Biodiversity
Biological Evolution
Biology and Life Sciences
Cambalopsidae
Caves
Chordeumatida
Computer and Information Sciences
Convergence
Convergent evolution
Diplopoda
Earth Sciences
Ecosystem
Ecosystem biology
Ecosystems
Elongation
Encyclopedias
Engineering and Technology
Evolution
Fauna
Female
Females
Gender aspects
Genera
Glomerida
Glomeridae
Legs
Male
Males
Medicine and Health Sciences
Millipedes
Morphology
Museums
Myriapoda
Natural history
Opiliones
Paradoxosomatidae
Phylogenetics
Phylogeny
Physiological aspects
Polydesmida
Polydesmidae
Selection, Genetic
Sex differences
Species
Species diversity
Spirostreptida
Subterranean organisms
Taxonomy
Underground caverns
Walking
Zoology
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Summary:Animal life in caves has fascinated researchers and the public alike because of the unusual and sometimes bizarre morphological adaptations observed in numerous troglobitic species. Despite their worldwide diversity, the adaptations of cave millipedes (Diplopoda) to a troglobitic lifestyle have rarely been examined. In this study, morphological characters were analyzed in species belonging to four different orders (Glomerida, Polydesmida, Chordeumatida, and Spirostreptida) and six different families (Glomeridae, Paradoxosomatidae, Polydesmidae, Haplodesmidae, Megalotylidae, and Cambalopsidae) that represent the taxonomic diversity of class Diplopoda. We focused on the recently discovered millipede fauna of caves in southern China. Thirty different characters were used to compare cave troglobites and epigean species within the same genera. A character matrix was created to analyze convergent evolution of cave adaptations. Males and females were analyzed independently to examine sex differences in cave adaptations. While 10 characters only occurred in a few phylogenetic groups, 20 characters were scored for in all families. Of these, four characters were discovered to have evolved convergently in all troglobitic millipedes. The characters that represented potential morphological cave adaptations in troglobitic species were: (1) a longer body; (2) a lighter body color; (3) elongation of the femora; and (4) elongation of the tarsi of walking legs. Surprisingly, female, but not male, antennae were more elongated in troglobites than in epigean species. Our study clearly shows that morphological adaptations have evolved convergently in different, unrelated millipede orders and families, most likely as a direct adaptation to cave life.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0170717