Abstract
Hard substrates host globally a rich biodiversity, orders of magnitude higher in species number than that in surrounding soft substrates. Among them, marine caves support unique biodiversity and fragile communities but suffer lack of quantitative data on their structure and function, hindering their conservation status assessment. A first approach to the non-destructive ecological monitoring of marine caves by testing surrogates of structural and functional composition of sessile benthos was attempted in two species-rich Mediterranean marine caves. Photographic sampling was performed in different positions on the cave walls, across the horizontal axis, from the entrance inwards. Eighty-four taxa were identified and assigned to 6 biological traits and 32 modalities related to morphology, behavior and ecological affinities, with sponges being the dominant taxon in species richness and coverage. In quest of possible biological surrogates, we examined the spatial variability of the total community structure and function and separately the sponge community structure and function. The observed patterns of the above metrics were significantly correlated with the distance from the entrance, the small-scale variability and their interaction. A positive correlation was found between all examined pairs of those metrics, supporting that: (i) the developed functional approach could be used for the study of marine cave sessile communities, and (ii) sponges could be used as a surrogate taxon for the structural and functional study of these communities. The suggested method could be tested in other types of hard substrate habitats and in multiple locations of the Mediterranean waters, facilitating monitoring schemes and conservation actions.
Highlights
The use of effective biological surrogates has proved to be a robust method for the study of community patterns, facilitating the conservation of marine biodiversity [1,2,3,4,5,6,7]
By investigating the structural and functional composition of sessile benthos in two marine caves with distinct morphology in an understudied Mediterranean ecoregion, we examine the use of effective surrogate taxa
Hard substrate communities in marine caves are characterized by a marked horizontal zonation, even within the scale of few meters [17, 27, 39, 57]
Summary
The use of effective biological surrogates has proved to be a robust method for the study of community patterns, facilitating the conservation of marine biodiversity [1,2,3,4,5,6,7]. The approach of biological surrogates has been tested in a wide variety of marine habitats but its effectiveness varies among different spatial scales, habitat types and methods used [8]. Taxonomic and functional surrogates of marine cave biodiversity
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