S. Vanden Eede scite author profile

Summary1. Beach nourishment, the placement of sand onto a sediment-starved stretch of coast, is widely applied as a soft coastal protection measure because of its reduced ecological impact relative to hard coastal protection. In order to predict effects on the intertidal sandy beach ecosystem, we developed a simulation model that integrates species envelope-based projections for the dominant macrobenthos species and mechanistic food web modules for higher trophic levels. 2. Species envelopes were estimated by using Bayesian inference of species' biomass relationships according to the three determining abiotic variables: intertidal elevation, median grain size and total organic matter, obtained from multiple sampling campaigns along the Belgian coast. Maximum potential abundance of higher trophic levels represented by birds, shrimp and flatfish were estimated based on their derived trophic relationship with macrobenthos. 3. After validation, we demonstrated that unlike nourishment slope, sediment grain size strongly determines beach-level species richness and production, with strong deterioration in species richness after nourishment with coarse sediment (>300 lm). Patterns for higher trophic levels do not follow the changes in macrobenthos abundance and biomass. 4. Synthesis and applications. The optimal grain size range for nourishment of fine-grained beaches is 200-300 lm. This modelling approach shows that the impact assessment of beach nourishment needs to include the evaluation of different species richness and biomass variables. Focusing solely on the potential abundance of species from higher trophic levels might lead to deceptive conclusions due to the dominance of opportunistic prey species.

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Macrofaunal sediment selectivity considerations for beach nourishment programmes

Tomme

Eede

Speybroeck

et al. 2013

Marine Environmental Research

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Macrofaunal sediment selectivity considerations for beach nourishment programmes. Published in: Marine Environmental Research 84:10-16Joke Van Tomme is the first author of this article. Sarah Vanden Eede helped with the experimental work, the analysis of the results and the finalisation of the manuscript.Chapter 4 -Macrofaunal sediment selectivity considerations for beach nourishment programmes 84 AbstractNowadays, beach nourishment is widely considered as a better alternative compared to the construction of hard structures to protect a sandy coast against detrimental erosive effects, both from an ecological and an engineering perspective. The rare studies conducted on the ecological impact of beach nourishment are short-term, post hoc monitoring investigations of the benthic macrofauna. Little is known of the biological processes during and after nourishment. To allow swift recolonization after nourishment, the characteristics of the nourished beach have to match the habitat demands of the benthic macrofauna. The sediment preference of the key intertidal species Scolelepis squamata, Eurydice pulchra, Bathyporeia pilosa and Bathyporeia sarsi, which dominate many West European sandy beaches, was investigated through laboratory experiments, both in single-species as well as combined-species treatments. While the former aimed at developing guidelines for impact mitigation of beach nourishment, the latter aimed at elucidating the role of biotic interactions in sediment preference.Results of the experiments indicated that Bathyporeia pilosa and Eurydice pulchra prefer the finest sediment, while Bathyporeia sarsi had a broader preference and also occurred in medium-coarse sediments. However, the sediment preference of Eurydice pulchra for fine sediments was not confirmed by other field and experimental studies. The polychaete Scolelelpis squamata had the broadest preference and even showed a high occurrence in coarse sediments that are not naturally occurring on the sandy beaches where the animals were caught for this experiment. However, this polychaete is a cosmopolitan species, not only occurring on fine-grained beaches, but also on coarse-grained beaches worldwide. The preferences imply that beach nourishment with coarse sediment will have a major effect on Bathyporeia pilosa while effects of coarse sediments on Scolelepis squamata will be minor. Finally, interspecific competition with the sympatrically occurring amphipod Bathyporeia sarsi was found to change the sediment selection of the amphipod Bathyporeia pilosa towards the coarser sediments where Bathyporeia sarsi occurred in lower frequencies.

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Marine biological valuation of the shallow Belgian coastal zone: A space-use conflict example within the context of marine spatial planning

Eede

Laporta

Deneudt

et al. 2014

Ocean & Coastal Management

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The Belgian coastal zone hosts a complex of space-use and resource-use activities with a myriad of pressures. Specifically at the beaches, predictions on sea-level rise, storms and flood risk from the North Sea have led to several big coastal defence projects. Management of sandy beaches is a multi-faceted and complex endeavor, where the interests of several stakeholders need to be combined. In this paper, we used the marine biological valuation (BV) method in order to (1) analyse the spatial structure of the intertidal and shallow subtidal Belgian coastal zone; and (2) explore the applications of BV for an ecosystem-based approach to marine spatial planning of two space-use conflicts at the Belgian coast, being flood protection, by means of beach nourishment, and nature conservation. The biological value was assessed with a focus on a detailed and integrated dataset (1995-2011), gathering all available ecological information on macrobenthos, epibenthos, hyperbenthos and birds. The 67 km Belgian coastline was divided into an across-shore intertidal and shallow subtidal subzone while the width of the along-shore subzones comprises 250 m for benthic components and wider distances of 3 km for the birds. The intrinsic biological value of each subzone was calculated using the BV method and the pertained score, ranging from very low to very high, was plotted accordingly in order to obtain a marine biological valuation map (BVM). Following trends in BV along the Belgian coastline were detected: (1) a strong mosaic pattern of BV along the coastline; (2) a clear lack of (benthic) data at the eastern part of the Belgian coast; (3) a rather high biological value score for around 70 % of the shallow part of the subzones, compared with the intertidal part; (4) a high/very high biological values found in intertidal zones located immediately to the east of the harbours Nieuwpoort, Oostende and Zeebrugge. A detailed analysis of protected areas and areas under coastal flood risk indicates that the use of BVMs is very promising in order to differentiate between several impact values. BV can therefore be used as a management tool by local decision makers and can allow for the integration of 'natural/ecological values' at an early stage of policy implementation.

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S. Vanden Eede

Marine biological valuation mapping of the Basque continental shelf (Bay of Biscay), within the context of marine spatial planning

Assessing the impact of beach nourishment on the intertidal food web through the development of a mechanistic‐envelope model

Macrofaunal sediment selectivity considerations for beach nourishment programmes

Marine biological valuation of the shallow Belgian coastal zone: A space-use conflict example within the context of marine spatial planning

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