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Feeding biology of a habitat-forming antipatharian in the Azores Archipelago
Rakka, M.; Orejas, C.; Maier, S.R.; van Oevelen, D.; Godinho, A.; Bilan, M.; Carreiro-Silva, M. (2020). Feeding biology of a habitat-forming antipatharian in the Azores Archipelago. Coral Reefs 39(5): 1469-1482. https://doi.org/10.1007/s00338-020-01980-0
In: Coral Reefs. Springer: Berlin; Heidelberg; New York. ISSN 0722-4028; e-ISSN 1432-0975
Peer reviewed article  

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Author keywords
    Benthic suspension feeders; Capture rates; Flow; Atlantic; Black corals; Ecophysiology

Authors  Top 
  • Rakka, M.
  • Orejas, C.
  • Maier, S.R.
  • van Oevelen, D.
  • Godinho, A.
  • Bilan, M.
  • Carreiro-Silva, M.

Abstract
    Benthic suspension feeders have developed a variety of feeding strategies and food availability has often proven to be a key factor explaining their occurrence and distribution. The feeding biology of coral species has been the target of an increasing number of studies, however most of them focus on Scleractinia and Octocorallia, while information for Antipatharia is very scarce. The present study focused on Antipathella wollastoni, a common habitat-forming antipatharian in the Azores Archipelago, forming dense black coral forests between 20 and 150 m. The objective of the study was to investigate the food preferences of the target species upon availability of different isotopically enriched food substrates and determine its ability to capture zooplankton prey under different flow speeds. The species was able to utilize different food sources including live phytoplankton, live zooplankton and dissolved organic matter (DOM), indicating the ability to exploit seasonally available food sources. However, ingestion of zooplankton enhanced carbon (C) and nitrogen (N) incorporation in coral tissue and metabolic activity, highlighting the importance of zooplankton prey for vital physiological processes such as growth and reproduction. Maximum zooplankton capture rates occurred under 4 cm−1, however the species displayed high capacity to capture zooplankton prey over different flow rates highlighting the ability of A. wollastoni to exploit high quantities of shortly available prey.

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