Phenotypic traits meet patterns of resource use in the radiation of “sharpfin” sailfin silverside fish in Lake Matano

Disruptive natural selection on traits related to resource exploitation may lead to differential adaptation and finally to speciation. Trait utility, the performance of traits in terms of fitness, is a central criterion for the recognition of adaptive radiation. Utility of morphological structures i...

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Bibliographic Details
Published in:Evolutionary ecology 2010-09, Vol.24 (5), p.957-974
Main Authors: Pfaender, Jobst, Schliewen, Ulrich K, Herder, Fabian
Format: Article
Language:English
Subjects:
Adaptation
Adaptive radiation
Analysis
Animal Ecology
Atheriniformes
Biomedical and Life Sciences
Body size
Ecology
Evolutionary Biology
Feeding apparatus
Fish
Fishes
Freshwater
Genotype & phenotype
Geometric morphometrics
Lakes
Life Sciences
Malili Lakes system
Natural selection
Plant Sciences
Radiation
Resource exploitation
Speciation
Telmatherinidae
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Summary:Disruptive natural selection on traits related to resource exploitation may lead to differential adaptation and finally to speciation. Trait utility, the performance of traits in terms of fitness, is a central criterion for the recognition of adaptive radiation. Utility of morphological structures involved in foraging can be detected by relating their variation to individual resource use. Here, we test for trophic adaptations in the radiation of “sharpfin” sailfin silversides (Atheriniformes: Telmatherinidae), endemic to ancient graben-lake Matano in central Sulawesi (Indonesia). This small species-flock is characterized by high phenotypic diversity, including traits most likely related to feeding ecology. Previous analyses suggest that species boundaries are porous, indicating very recent or possibly ongoing processes of species flock formation. To test for adaptation to resource use in this radiation, we compared morphological traits among trophic groups of individuals as identified by stomach content analyses. We analyzed variation in candidate structures or structural complexes commonly recognized as indicative of trophic adaptation in fish radiations, including shapes of body, oral and pharyngeal jaws, gill rakers and body size. We found fine-scaled morphological differentiation according to feeding habits, covering all traits analyzed. Fish-, shrimp- and egg-feeders were most distinct, with major axes of morphological variation fitting patterns of adaptation reported from other lacustrine fish radiations. Thus, the present results are consistent with fine-scaled morphological adaptation to resource use, supporting the adaptive character of the sharpfin sailfin silverside radiation.
ISSN:0269-7653
1573-8477
DOI:10.1007/s10682-009-9332-2