Influence of Seagrass Restoration on Nutrient Cycling Across Contrasting Estuarine Systems in the Southern North Sea
摘要
Seagrass meadows play an important role in coastal water quality by regulating nutrient availability, reducing eutrophication pressure and stabilizing sediments. Their decline in many European coastal zones has intensified interest in restoration as a nature-based measure. However, the quantitative influence of seagrass on seasonal nutrient dynamics at the scale of whole estuarine systems remains insufficiently understood. In the Wadden Sea, excessive nutrient load and turbidity are persistent challenges. This study provides a novel, spatially explicit assessment of seagrass impacts on nutrient cycling across an entire annual cycle in two hydrodynamically contrasting regions of the southern North Sea. The study is based on a validated three-dimensional hydrodynamic–biogeochemical modelling framework that reproduces observed water levels, temperature, salinity, waves, and nutrient concentrations across the study area. Paired simulations with and without seagrass were used to quantify changes in dissolved inorganic nitrogen (NO
This study assesses the impact of seagrass restoration as a nature-based solution on the seasonal dynamics of nutrients and carbon in two estuarine systems with contrasting hydrodynamics in the southern North Sea. The Jade Bay is a semi-enclosed tidal basin with long residence times and moderate external nutrient inputs. In contrast, the Weser Estuary is river-dominated, with high nutrient loads, strong advection, and rapid flushing. The analysis is based on a coupled three-dimensional hydrodynamic–biogeochemical modeling framework (SCHISM–ICM). Experiments were conducted for one full annual cycle, including a vegetation (VEG) simulation and one without (NO-VEG). Model outputs were analyzed using Hovmöller diagrams and seasonal surface maps for dissolved organic carbon (DOC), ammonium (NH