Evidence for trophic niche partitioning among three temperate gorgonian octocorals

Trophic niche theory predicts that species in competition for a limiting resource will evolve adaptations allowing them to consume alternative resources and occupy new niche space. Trophic niche partitioning is often identified by differences in the morphology of feeding structures across species; h...

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Bibliographic Details
Published in:Coral reefs 2022-08, Vol.41 (4), p.907-920
Main Authors: Conti-Jerpe, Inga E., Pawlik, Joseph R., Finelli, Christopher M.
Format: Article
Language:English
Subjects:
Adaptation
Benthos
Biomedical and Life Sciences
Divergence
Feeding
Flumes
Freshwater & Marine Ecology
Functional groups
Leptogorgia virgulata
Life Sciences
Morphology
Niche overlap
Niches
Oceanography
Partitioning
Phytoplankton
Polyps
Resource partitioning
Selectivity
Species
Stable isotopes
Surface area
Sympatric populations
Tentacles
Thesea nivea
Trophic levels
Zooplankton
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Summary:Trophic niche theory predicts that species in competition for a limiting resource will evolve adaptations allowing them to consume alternative resources and occupy new niche space. Trophic niche partitioning is often identified by differences in the morphology of feeding structures across species; however, these differences may not always be readily observable. Due to their constrained polyp morphology, octocorals are often viewed a single functional group that contributes to benthic-pelagic coupling by feeding opportunistically on available particles. To test the hypothesis that sympatric gorgonians share the same trophic niche, feeding selectivity of three gorgonian species ( Leptogorgia virgulata, Muricea pendula, and Thesea nivea) was compared using a combination of flume experiments and stable isotope analysis. The tentacle length and polyp surface area of L. virgulata and T. nivea were also measured and compared. In flume experiments, clearance of rotifers (“typical” zooplankton) and a mixture of cultured phytoplankton indicated that L. virgulata and T. nivea fed on zooplankton and not phytoplankton. Stable isotope values for all three species are consistent with distinct trophic niches, with M. pendula occupying a lower trophic level. Thesea nivea was found to have significantly larger polyp surface area and tentacle length; however, this did not appear to explain observed trophic differences. The results of this study provide evidence for niche partitioning, but future work is required to better understand the mechanism behind this divergence.
ISSN:0722-4028
1432-0975
DOI:10.1007/s00338-022-02279-y