Size-differential feeding in Pinna nobilis L. (Mollusca: Bivalvia): exploitation of detritus, phytoplankton and zooplankton (CROSBI ID 168264)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Davenport, John ; Ezgeta-Balić, Daria ; Peharda, Melita ; Skejić, Sanda ; Ninčević-Gladan, Živana ; Matijević, Slavica
engleski
Size-differential feeding in Pinna nobilis L. (Mollusca: Bivalvia): exploitation of detritus, phytoplankton and zooplankton
The endangered fan shell Pinna nobilis is a large bivalve mollusc (<120 cm shell length) endemic to the Mediterranean that lives one-third buried in soft substrata, generally in shallow coastal waters. We hypothesised that P. nobilis of different sizes would ingest different food sources, because small fan shells will inhale material from closer to the substratum than do large fan shells. We studied stomach contents and faeces of 18 fan shells, 6 small (mean 23.0 cm length), 6 medium-sized (mean 41.5 cm length) and 6 large (mean 62.7 cm length) living in a small area of a low energy coastal detritic bottom characterized by mud, sand and macroalgae at Mali Ston Bay, Croatia. We found that all P. nobilis ingested copious quantities of undetermined detritus (probably at least 95% of ingested material), phytoplankton, micro and mesozooplankton and pollen grains. Large P. nobilis stomach contents showed a preponderance of water column calanoid copepods, while small fan shells had higher numbers of bivalve larvae. All fan shells took in high numbers of harpacticoid copepods that are benthonic, feeding on microbial communities of detritus and benthic vegetation. There was also a significant selection of phytoplankton species, some apparently occurring between inhalation and ingestion. The stomach contents of small P. nobilis had a higher organic matter content than either medium-sized or large fan shells ; this indicated that small fan shells ingested detritus of higher organic content than did larger P. nobilis. As the faeces of all P. nobilis had similar organic matter content, this also indicates higher assimilation efficiencies in small fan shells. The demonstration of differential dietary selectivity by different sized animals has implications for future trophic studies of this endangered species. This study provides the first demonstration of predation on zooplankton by P. nobilis.
bivalve; stomach content; phytoplankton; zooplankton; endangered species; Adriatic Sea
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Podaci o izdanju
92 (2)
2011.
246-254
objavljeno
0272-7714
10.1016/j.ecss.2010.12.033