4.2 Article

Influence of oyster reefs on infauna and sediment spatial distributions within intertidal mudflats

Journal

MARINE ECOLOGY PROGRESS SERIES
Volume 686, Issue -, Pages 91-106

Publisher

INTER-RESEARCH
DOI: 10.3354/meps13983

Keywords

Ecosystem engineers; Oyster reefs; Infauna; Sediment; Kriging; Intertidal ecology; Community ecology

Funding

  1. National Science Foundation [1832221, OCE-1151314]
  2. National Science Foundation Graduate Research Fellowships Program
  3. Direct For Biological Sciences
  4. Division Of Environmental Biology [1832221] Funding Source: National Science Foundation

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Oyster reefs have spatial influence on surrounding infauna and sediment composition, but the extent of this influence is still uncertain. The study found that the density of infauna increased with distance from oyster reefs, while predatory crustaceans showed the opposite pattern. Within a halo of approximately 40 meters, the probability of finding bivalves and gastropods increased by 70%, while large crustaceans decreased by about 4 times compared to locations adjacent to reefs. The increase in oyster reef cover and area correlated with smaller sediment grain size, increased organic matter, and reduced flow rates.
Oysters are described as estuarine ecosystem engineers because their reef structures provide habitat for a variety of flora and fauna, alter hydrodynamics, and affect sediment composition. To what spatial extent oyster reefs influence surrounding infauna and sediment composition remains uncertain. We sampled sediment and infauna across 8 intertidal mudflats at distances up to 100 m from oyster reefs within coastal bays of Virginia, USA, to determine if distance from reefs and physical site characteristics (reef elevation, local hydrodynamics, and oyster cover) explain the spatial distributions of infauna and sediment. Total infauna density increased with distance away from reefs; however, the opposite was observed for predatory crustaceans (primarily crabs). Our results indicate a halo surrounding the reefs of approximately 40 m (using an increase in similar to 25% of observance as the halo criterion). At 90 m from reefs, bivalves and gastropods were 70% more likely to be found (probability of observance), while there was an approximate 4-fold decrease for large crustaceans compared to locations adjacent to reefs. Increases in percent oyster reef cover and/or mean reef area did not statistically alter infauna densities but showed a statistical correlation with smaller sediment grain size, increased organic matter, and reduced flow rates. Weaker flow conditions within the surrounding mudflats were also associated with smaller grain sizes and higher organic matter content, suggesting multiple drivers on the spatial distribution of sediment composition. This study emphasizes the complexity of bio-physical couplings and the considerable spatial extent over which oyster reefs engineer intertidal communities.

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