Abstract
Sea level rise, increased storminess, and changes in sediment supply due to nourishments are all expected to drive coarsening (i.e., ‘sandification’) of muddy coastal sediments in the decades to come. Since the composition of soft-bottom benthic communities is associated with the sediment grain-size and mud content, this may result in habitats becoming less suitable for some species, leading to species shifts. Species-sediment relations can help to predict how this foreseen sandification may affect benthic fauna. We explore and quantify the sandification-sensitivity of benthic communities, with a tidal basin in the Dutch Wadden Sea as a model system. We identify the species' sediment optima and tolerance ranges using non-linear quantile regression models, summarise preference and sensitivity at the community level, and determine the difference between optimal and realised sediment habitat. We find that sediment optima are taxon-specific and that most species in this area are sediment generalists. On community level, there is a difference between the preferred and realised sediment habitat. In many areas, the actual inhabited sediment is coarser and sandier than expected based on the preferences of the resident species. Future sandification of the area would further decrease sediment habitat suitability for benthic communities in these places. This detailed knowledge of area-specific sensitivity of benthos can be used to inform coastal management decisions.
| Original language | English |
|---|---|
| Article number | 109303 |
| Number of pages | 12 |
| Journal | Estuarine, Coastal and Shelf Science |
| Volume | 320 |
| DOIs | |
| Publication status | Published - 15 Aug 2025 |
Bibliographical note
Publisher Copyright:© 2025 The Authors
Funding
We are very grateful to the current SIBES and Waddenmozaiek core-team for collecting and processing the thousands of samples. In alpha-betical order they are Livia Brunner, Hailley Danielson-Owczynsky, Anne Dekinga, Job ten Horn, Anne de Jong, Loran Kleine Schaars, Adrienne Kooij, Anita Koolhaas, Hidde Kressin, Felianne van Leersum, Simone Miguel, Luc de Monte, Dennis Mosk, Dorien Oude Luttikhuis, Reyhaneh Roohi, Marten Tacoma, Evaline van Weerlee en Bas de Wit. We also thank all former and current employees and the many volun-teers and students who have ensured that the SIBES and Waddenmo-zaiek program have continued in recent years. In particular Bianka Rasch, Jeroen Kooijman and Sander Holthuijsen were essential for the Waddenmozaiek samples. The R.V. Navicula was essential for collecting the samples and in particular we thank the current crew Wim Jan Boon, Klaas Jan Daalder, Bram Fey, Hendrik Jan Lokhorst and Hein de Vries. For the abiotic data, we than Roy van Weerdenburg for data delivery and his assistance with the interpretation. This study was supported by NWO grant 17600: "Tracking Ameland Inlet Living Lab Sediment (TRAILS) ". SIBES is currently financed by the Nederlandsche Aardolie Maatschappij NAM, Rijkswaterstaat and the Royal NIOZ. The subtidal Waddenmo-zaiek sampling campaign (also known as "Waddentools: habitatheter-ogeniteit") , was registered under reference number WF2018-187059, and funded by the Waddenfonds, Rijkswaterstaat and the provinces of Noord-Holland, Frysla n and Groningen. Oscar Franken was additionally funded by NWO grant VI.Veni.222.244.
| Funders | Funder number |
|---|---|
| NWO grant | 17600 |
| Rijkswaterstaat | |
| Royal NIOZ | WF2018-187059 |
| Waddenfonds, Rijkswaterstaat | |
| Provinces of Noord-Holland - NWO | VI.Veni.222.244 |
Keywords
- Macrozoobenthos
- Quantile regression
- Sand nourishments
- Sandification
- Sediment composition
- Wadden sea
