Abstract
Blue mussels are among the most abundant bivalves in shallow water along the German coasts. As filter feeders, a major ecosystem service they provide is water filtration and the vertical transfer of suspended organic and attached inorganic material to the sea floor. Laboratory and field studies previously demonstrated that blue mussels can remove large quantities of plankton from the surrounding water. I here perform numerical experiments that investigate the effect of filtration at the scale of an entire coastal sea—the southern North Sea. These experiments were performed with a state-of-the-art bentho-pelagic coupled hydrodynamic and ecosystem model and used a novel reconstruction of the benthic biomass distribution of blue mussels. The filtration effect was assessed as the simulated change in net primary productivity caused by blue mussels. In shallow water, filtration takes out up to half of the entire annual primary productivity; it is negligible in offshore waters. For the entire basin, the filtration effect is 10%. While many ecosystem models have a global parameterization for filter feeders, the coastal gradient in the filtration effect is usually not considered; our research demonstrates the importance of including spatially heterogeneous filtration in coupled bentho-pelagic ecosystem models if we want to better understand the spatial patterns in shallow water coastal systems.
Highlights
Blue mussels are among the most abundant bivalves in shallow water along the German coasts, both in the North Sea as well as in the Western Baltic Sea [1]
The simulated phytoplankton carbon stock assessed as surface chlorophyll concentration represents the temporal and spatial patterns observed in the decade 2003–2013
Simulated annual primary productivity in the southern North Sea is 142 g m−2 a−1 and covers a range of 62 to 225 g m−2 a−1 (5 and 95 percentile, n = 8686, Figure 6). This range compares favorably to one of the first coupled hydrodynamics-ecosystem model simulations [22]: a range of 90 to 200 g m−2 a−1 was estimated by their NORWegian ECOlogical Model (NORWECOM)
Summary
Blue mussels are among the most abundant bivalves in shallow water along the German coasts, both in the North Sea as well as in the Western Baltic Sea [1]. They are important as food for birds and fish, and for human food culture and societal perception of the coast [2]. A major ecosystem service they provide is water filtration and the vertical transfer of suspended organic and attached inorganic material to the sea floor [3].
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