Complex network of trophic interactions in Burdwood Bank, a sub-Antarctic oceanic marine protected area

MARINA, TOMAS I; SCHLOSS, IRENE R; LOVRICH, GUSTAVO A; BOY, CLAUDIA C.; BRUNO, DANIEL O.; CAPITANIO, FABIANA L.; DELPIANI, S MATIAS; DÍAZ DE ASTARLOA, JUAN MARTIN; FRAYSSE, C; GARCÍA ALONSO, VIRGINIA A; RAYA REY, ANDREA ; SCHEJTER, LAURA; SPINELLI, MARIELA L; TATIÁN, MARCOS; URTEAGA, DIEGO; RICCIALDELLI, LUCIANA

MARINE ECOLOGY PROGRESS SERIES

INTER-RESEARCH

Año: 2024 vol. 736 p. 1 - 18

0171-8630

The world’s oceans designated under marine protection have increased recently. Most marine protected areas (MPAs) target vulnerable, keystone, charismatic, and/or endemic species. In the sub-Antarctic, ocean protection is associated with oce - anic islands, except for the MPAs Namuncurá–Burdwood Bank I and II (MPA N-BB; ~53–55° S, ~56–62°W), which are associated with a submarine plateau and a southern deep slope, respectively. We present the first analysis of the predator–prey network for the MPA N-BB, applying a topological network approach to characterise the complexity and structure of the food web and to identify the species’ role. The MPA NBB food web consists of 1788 interactions and 379 species, with a connectance of 0.01. Almost half of the consumers feed at more than one trophic level (0.48), and the network displays a small-world pattern (short path length, high clustering of compartments). This network pattern suggests that the ecosystem might be vulnerable to perturbations targeting highly connected species, although some properties might provide resilience and resistance, resulting in a rearranged structure that preserves its original functions. Several species arise as being important in trophic structureand functioning and response to perturbations. Generalist species, mainly fishes, play a crucial role in the bentho-pelagic coupling and should be considered as relevant energy transfer agents for the ecosystem. We argue that the diversity of species, including both the benthic and pelagic habitats, is responsible for securing the connectivity within the food web to withstand perturbations, thereby contributing to the structure and stability of the ecosystem.