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You are not always what you eat: fatty acid bioconversion and lipid homeostasis in the larvae of the sand mason worm Lanice conchilega
Franco-Santos, R.M.; Auel, H.; Boersma, M.; De Troch, M.; Graeve, M.; Meunier, C.; Niehoff, B. (2019). You are not always what you eat: fatty acid bioconversion and lipid homeostasis in the larvae of the sand mason worm Lanice conchilega. PLoS One 14(6): e0218015. https://dx.doi.org/10.1371/journal.pone.0218015
In: PLoS One. Public Library of Science: San Francisco. ISSN 1932-6203; e-ISSN 1932-6203
Peer reviewed article  

Available in  Authors 
    Vlaams Instituut voor de Zee: Open access 330184 [ download pdf ]

Keywords
    Lanice conchilega (Pallas, 1766) [WoRMS]
    Marine/Coastal

Authors  Top 
  • Franco-Santos, R.M.
  • Auel, H.
  • Boersma, M.
  • De Troch, M.
  • Graeve, M.
  • Meunier, C.
  • Niehoff, B.

Abstract
    The meroplanktonic larvae of benthic organisms are an important seasonal component of the zooplankton in temperate coastal waters. The larvae of the reef-building polychaete Lanice conchilega contribute up to 15% of the summer zooplankton biomass in the North Sea. Despite their importance for reef maintenance (which positively affects the benthic community), little is known about the trophic ecology of this meroplanktonic larva. Qualitative and quantitative estimates of carbon (C) transfer between trophic levels and of fatty acid (FA) specific assimilation, biosynthesis, and bioconversion can be obtained by compound-specific stable isotope analysis of FA. The present work tested the hypothesis that the concept of fatty acid trophic markers (FATM), widely used for studies on holoplankton with intermediate to high lipid contents, is also applicable to lipid-poor organisms such as meroplanktonic larvae. The incorporation of isotopically-enriched dietary C by L. conchilega larvae was traced, and lipid assimilation did not follow FA-specific relative availabilities in the diet. Furthermore, FAs that were unavailable in the diet, such as 22:5(n-3), were recorded in L. conchilega, suggesting their bioconversion by the larvae. The results indicate that L. conchilega larvae preferentially assimilate certain FAs and regulate their FA composition (lipid homeostasis) independently of that of their diet. Their quasi-homeostatic response to dietary FA availability could imply that the concept of FATM has limited application in lipid-poor organisms such as L. conchilega larvae.

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