Lipid biomarkers reveal geographical differences in food supply to the cold-water coral Lophelia pertusa (Scleractinia)

Despite its importance as an ecological engineer, little is known about the feeding ecology of the widespread reef framework-forming cold-water coral Lophelia pertusa. This is the first study to compare lipid signatures of L. pertusa from different areas in the North Atlantic using samples from 2 si...

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Bibliographic Details
Published in:Marine Ecology Progress Series
Main Authors: Dodds, Lyndsey, Black, Kenny, Orr, Heather, Roberts, J Murray
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
MEGANYCTIPHANES-NORVEGICA
Marine & Freshwater Biology
FATTY-ACID-COMPOSITION
DEEP-WATER
Oceanography
ROCKALL TROUGH
ECOLOGICAL INVESTIGATIONS
Ecology
WAX ESTERS
THYSANOESSA-INERMIS
ANEMONE ANEMONIA-VIRIDIS
NE ATLANTIC-OCEAN
ZOOPLANKTON COMMUNITY
Rockall Trough
Lophelia pertusa
Meganyctiphanes norvegica
North Atlantic
Copepods
Thysanoessa inermis
Online Access:https://pure.uhi.ac.uk/en/publications/0aea97ae-6041-4b24-9855-3d564ce728e4
https://doi.org/10.3354/meps08143
Description
Summary:Despite its importance as an ecological engineer, little is known about the feeding ecology of the widespread reef framework-forming cold-water coral Lophelia pertusa. This is the first study to compare lipid signatures of L. pertusa from different areas in the North Atlantic using samples from 2 sites in the eastern Atlantic and 2 seamounts in the western Atlantic. Lipid samples were collected in February, May, July and November from the Mingulay reef complex off western Scotland, but no clear seasonal pattern was observed. High lipid content and large wax ester fractions were recorded from all sites, with the highest values recorded at the shallowest site (Mingulay). Here the prevalence of copepod lipid biomarkers-monounsaturated fatty acids 20: 1 (n-9) and 22:1 (n-11) and their fatty alcohols-indicates L. pertusa feeds predominantly on calanoid copepods. At deeper offshore sites, the abundance of the fatty acid 18:1(n-9) and fatty alcohol 16:0 suggest a significant dietary input from non-calanoid copepods. Our results imply that the shallow Mingulay site is likely to receive a greater input of fresh surficial material and a higher abundance of herbivorous calanoid copepods, while at the deeper sites, carnivorous or omnivorous non-calanoid copepods are likely to be more abundant. L. pertusa therefore appears to be an opportunistic feeder capable of taking a variety of zooplankton prey. Further investigation is required to assess site-specific dependence on prey sources.

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