Evolution of microhabitat association and morphology in a diverse group of cryptobenthic coral reef fishes (Teleostei: Gobiidae: Eviota)

[Display omitted] ► Eviota are a species-rich and ecologically diverse group of reef fishes. ► Eviota have repeatedly invaded novel microhabitats on the reef throughout their evolutionary history. ► Shifts in Eviota microhabitat occurred independent of changes in morphology. ► Ecological release fro...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2013-01, Vol.66 (1), p.391-400
Main Authors: Tornabene, Luke, Ahmadia, Gabby N., Berumen, Michael L., Smith, Dave J., Jompa, Jamaluddin, Pezold, Frank
Format: Article
Language:English
Subjects:
Animal Fins - anatomy & histology
Animals
Cell Nucleus - genetics
Coral reef
Coral Reefs
corals
DNA, Mitochondrial - genetics
Ecology
Evolution
Extinction
Fish
Genetic Speciation
Gobiidae
Goby
Habitats
head
Microhabitats
Models, Genetic
Perciformes - anatomy & histology
Perciformes - classification
Perciformes - genetics
Phylogeny
Sand
Sequence Analysis, DNA
Speciation
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Summary:[Display omitted] ► Eviota are a species-rich and ecologically diverse group of reef fishes. ► Eviota have repeatedly invaded novel microhabitats on the reef throughout their evolutionary history. ► Shifts in Eviota microhabitat occurred independent of changes in morphology. ► Ecological release from a strict obligate coral association to novel habitats may increase speciation opportunity. ► Repeated microhabitat shifts coupled with low extinction risk may produce the high species-richness observed in Eviota. Gobies (Teleostei: Gobiidae) are an extremely diverse and widely distributed group and are the second most species rich family of vertebrates. Ecological drivers are key to the evolutionary success of the Gobiidae. However, ecological and phylogenetic data are lacking for many diverse genera of gobies. Our study investigated the evolution of microhabitat association across the phylogeny of 18 species of dwarfgobies (genus Eviota), an abundant and diverse group of coral reef fishes. In addition, we also explore the evolution of pectoral fin-ray branching and sensory head pores to determine the relationship between morphological evolution and microhabitat shifts. Our results demonstrate that Eviota species switched multiple times from a facultative hard-coral association to inhabiting rubble or mixed sand/rubble habitat. We found no obvious relationship between microhabitat shifts and changes in pectoral fin-ray branching or reduction in sensory pores, with the latter character being highly homoplasious throughout the genus. The relative flexibility in coral-association in Eviota combined with the ability to move into non-coral habitats suggests a genetic capacity for ecological release in contrast to the strict obligate coral-dwelling relationship commonly observed in closely related coral gobies, thus promoting co-existence through fine scale niche partitioning. The variation in microhabitat association may facilitate opportunistic ecological speciation, and species persistence in the face of environmental change. This increased speciation opportunity, in concert with a high resilience to extinction, may explain the exceptionally high diversity seen in Eviota compared to related genera in the family.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2012.10.014