Publications:

Cardone et al. 2020


scientific article | Scientific Reports

Massive bioconstructions built by Neopycnodonte cochlear (Mollusca, Bivalvia) in a mesophotic environment in the central Mediterranean Sea

Cardone F, Corriero G, Longo C, Mercurio M, Tarantini SO, Gravina MF, Lisco S, Moretti M, De Giosa F, Giangrande A, Marzano CN, Pierri C


Abstract

The present paper provides a multidisciplinary fine-scale description of a Mediterranean mesophotic new habitat dominated by the bivalve Neopycnodonte cochlear (Poli, 1795), building large and thick pinnacles on vertical cliffs at two study areas along the southern Italian coast. The pinnacles, constituted by a multilayered aggregation of living and dead specimens of N. cochlear, were interconnected with each other to form a framework of high structural complexity, never observed before for this species. The bioconstruction, considerably extended, resulted very complex and diversified in the associated community of structuring organisms. This latter included 165 taxa attributable to different ecological groups occurring in different microhabitats of the bioconstruction. Among the secondary structuring taxa there were scleractinians, serpulids and bryozoans, all contributing to the deposition of calcium carbonate, and poriferans, helping to bind shells together or eroding carbonate by boring species. In comparison with coralligenous sensu stricto and the recently described Mediterranean mesophotic coral reef, the Neopycnodonte bioconstruction showed peculiar features, since it lacked the major contribution of encrusting coralline algae and scleractinians as reef builders, respectively.

Keywords
Meta-data (pending validation)
Depth range
27- 70 m

Mesophotic “mentions”
16 x (total of 7073 words)

Classification
* Presents original data
* Focused on `mesophotic` depth range
* Focused on 'temperate mesophotic ecosystem'

Fields
Biodiversity
Ecology

Focusgroups
Other invertebrates

Locations
Italy - Mediterranean

Platforms
SCUBA (open-circuit or unspecified)
Sonar / Multibeam

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