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Trophic ecology of Angolan cold-water coral reefs (SE Atlantic) based on stable isotope analyses
Vinha, V.; Rossi, S.; Gori, A.; Hanz, U.; Pennetta, A.; De Benedetto, G.E.; Mienis, F.; Huvenne, V.A.I.; Hebbeln, D.; Wienberg, C.; Titschack, J.; Freiwald, A.; Piraino, S.; Orejas, C. (2023). Trophic ecology of Angolan cold-water coral reefs (SE Atlantic) based on stable isotope analyses. NPG Scientific Reports 13(1). https://dx.doi.org/10.1038/s41598-023-37035-x

Additional data:
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322, more
Peer reviewed article  

Available in  Authors 

Author keywords
    Food webs; Marine biology; Stable isotope analysis

Authors  Top 
  • Vinha, V.
  • Rossi, S.
  • Gori, A.
  • Hanz, U.
  • Pennetta, A.
  • De Benedetto, G.E.
  • Mienis, F., more
  • Huvenne, V.A.I., more
  • Hebbeln, D.
  • Wienberg, C.
  • Titschack, J.
  • Freiwald, A., more
  • Piraino, S., more
  • Orejas, C.

Abstract
    Cold-water coral (CWC) reefs of the Angolan margin (SE Atlantic) are dominated by Desmophyllum pertusum and support a diverse community of associated fauna, despite hypoxic conditions. In this study, we use carbon and nitrogen stable isotope analyses (δ13C and δ15N) to decipher the trophic network of this relatively unknown CWC province. Although fresh phytodetritus is available to the reef, δ15N signatures indicate that CWCs (12.90 ± 1.00 ‰) sit two trophic levels above Suspended Particulate Organic Matter (SPOM) (4.23 ± 1.64 ‰) suggesting that CWCs are highly reliant on an intermediate food source, which may be zooplankton. Echinoderms and the polychaete Eunice norvegica occupy the same trophic guild, with high δ13CC signatures (-14.00 ± 1.08 ‰) pointing to a predatory feeding behavior on CWCs and sponges, although detrital feeding on 13C enriched particles might also be important for this group. Sponges presented the highest δ15N values (20.20 ± 1.87 ‰), which could be due to the role of the sponge holobiont and bacterial food in driving intense nitrogen cycling processes in sponges’ tissue, helping to cope with the hypoxic conditions of the reef. Our study provides first insights to understand trophic interactions of CWC reefs under low-oxygen conditions.

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