Evolution of protective symbiosis in palaemonid shrimps (Decapoda: Caridea) with emphases on host spectrum and morphological adaptations

[Display omitted] •Protective symbiosis evolved at least three times in Palaemonidae.•Symbiotic species diversity was mainly radiated from a single cnidarian associate.•Host spectrum is dynamic and without phylogenetic signal.•Morphological specialisation is not in tune with host spectrum and affili...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2021-09, Vol.162, p.107201-107201, Article 107201
Main Authors: Chow, Lai Him, De Grave, Sammy, Tsang, Ling Ming
Format: Article
Language:English
Subjects:
Compartmentalization
Palaemonidae
Phylogenetics
Symbiosis
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Summary:[Display omitted] •Protective symbiosis evolved at least three times in Palaemonidae.•Symbiotic species diversity was mainly radiated from a single cnidarian associate.•Host spectrum is dynamic and without phylogenetic signal.•Morphological specialisation is not in tune with host spectrum and affiliation. Palaemonidae is the most speciose caridean shrimp family, with its huge biodiversity partially generated via symbiosis with various marine invertebrates. Previous studies have provided insights into the evolution of protective symbiosis in this family with evidence for frequent inter-phyla host switches, but the comprehensiveness of evolutionary pathways is hampered by the resolution of the previous phylogenetic trees as well as the taxon coverage. Furthermore, several critical issues related to the evolution of a symbiotic lifestyle, including the change in host spectrum and corresponding morphological adaptations, remain largely unresolved. We therefore performed a much extended phylogenetic comparative study on Palaemonidae, rooted in a comprehensive phylogeny reconstructed by a supermatrix-supertree approach based on a total of three mitochondrial and five nuclear markers. Ancestral state reconstruction of host associations revealed at least three independent evolutions into symbiosis, with potentially a drive to seek protection fuelling incipient symbiosis. Yet, most of the observed symbiotic species diversity was radiated from a single cnidarian associate. The evolution of mandibles and ambulatory dactyli suggests a general lack of correlation with host affiliation (except sponge endosymbionts), implying limited morphological adaptations following host switching, despite being putatively a major adaptive consequence of symbiosis. Our analyses of host spectrum, in terms of basic and taxonomic specificity, revealed no apparent phylogenetic signal but instead resolved a dynamic pattern attributable to frequent host switching. Uncoupling between host spectrum and the degree of morphological specialisation is the norm in palaemonids, suggesting that morphological characters are not fully in tune with host spectrum, in addition to host affiliation. This study demonstrates the complexity in the evolution of symbiosis, pointing to the presence of cryptic adaptations determining host spectrum and governing host switch diversification, and provides a clear direction for the evolutionary study of symbiosis in other marine symbiotic groups involving host switch
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2021.107201