Abstract

In order to contribute with more integrative strategies for better identify areas of high conservation priority we study the coupling of physical and biological processes that sustain a deep subpopulation of the most caught sea urchin (Loxechinus albus) worldwide and its associated epibenthic community over a bathymetric depression in southern Chile, which is surrounded by intensive anthropic activities. We used a remotely operated vehicle (ROV) to characterize the epibenthic community (organisms > 15 mm long) and substrate, up to a depth of 112 m in a submarine hole. Additionally, a combination of a towed and a moored Acoustic Doppler current Profiler (ADCP) was used to characterize current patterns. We found evidence that physical mechanisms transport and retain macro and micro material in the bottom of the hollow, and they contribute to homogenizing the habitat along the entire bathymetric gradient. These coupled processes allow i) that several species expand their bathymetric distribution range, ii) the existence of nursery areas for fishes, iii) that characteristic grazers in shallow habitats colonize greater depths, where filter feeders or DOM consumers generally represent the typical epifauna. We hypothesize that coupling of physical and biological processes on this bathymetric depression are key for bring on Loxechinus albus along the entire bathymetric gradient, who in turn is key to the community structure of the hollow. Given that this particular habitat is surrounded by intensive anthropic activities (eg. salmon aquaculture, mussel aquaculture, fishing, port) and a city, we suggest: Firstly, that monitoring should be undertaken in order to observe biodiversity changes in the bathymetric gradient, since it could be an indicator of conservation status. Secondly, that a proposal should be formulated to consider this zone as a Marine Protected Area.

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