Affiliation: | 1. Grice Marine Laboratory, College of Charleston, Charleston, South Carolina, USA;2. Grice Marine Laboratory, College of Charleston, Charleston, South Carolina, USA Contribution: Conceptualization (supporting), Data curation (lead), Formal analysis (equal), Investigation (supporting), Methodology (equal), Resources (supporting), Supervision (lead), Visualization (lead), Writing - original draft (supporting), Writing - review & editing (supporting);3. Grice Marine Laboratory, College of Charleston, Charleston, South Carolina, USA Contribution: Conceptualization (supporting), Data curation (supporting), Formal analysis (supporting), Investigation (lead), Methodology (equal), Resources (supporting), Writing - original draft (supporting), Writing - review & editing (supporting) |
Abstract: | Microphytobenthos (MPB), typically comprised mainly of diatoms, is a key contributor to nearshore energy flow and nutrient cycles. Deposit-feeding invertebrates are known to alter the structure and activity of MPB. The eastern mud snail Ilyanassa obsoleta can reach extremely high densities in estuaries of the northwestern Atlantic, and their deposit-feeding and locomotion strongly influence other invertebrates and microbes. Our objective was to explore quantitative and qualitative effects of this keystone deposit-feeder on diatoms of intertidal sediments. We gathered snails from mudflat and sandflat habitats and collected their fresh fecal pellets in the laboratory. DNA metabarcoding allowed us to characterize diatom assemblages of ingested sediments and feces. We noted selective feeding such that reduction in MPB biomass with gut passage was difficult to quantify. Diatom α-diversity was reduced with gut passage in snails from both sedimentary regimes. Mudflat and sandflat diatom assemblages were distinct and differed markedly between feces and sediment in mud-feeding snails, whereas the difference in sand-feeding snails was minor. The sandy habitat was dominated by a mix of epipelic and epipsammic diatoms. In contrast, mudflat samples were dominated by epipelic and planktonic diatoms. Compositional differences between sediment and feces reflected preferential removal of planktonic taxa. Our results suggest the importance of phytodetritus to the mud snail diet, particularly in hydrodynamically quiescent environments. Due to the natural spatial patchiness of the snails and the capacity for rapid microbial recolonization, field experiments are recommended to determine whether MPB community changes attributed to gut passage are manifested at the landscape scale. |