L. Oosterlee scite author profile

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Role of plants in metal cycling in a tidal wetland: Implications for phytoremidiation

Teuchies

Jacobs

Oosterlee

et al. 2013

Science of The Total Environment

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Tidal Marsh Restoration Design Affects Feedbacks Between Inundation and Elevation Change

Oosterlee¹,

Cox²,

Vandenbruwaene³

et al. 2017

Estuaries and Coasts

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Tidal marsh restoration or creation on formerly embanked land is increasingly executed along estuaries and coasts in Europe and the USA, either by restoring complete or reduced tidal exchange. Ecosystem functioning and services are largely affected by the hydro-geomorphologic development of these areas. For natural marshes, the latter is known to be steered by feedbacks between tidal inundation and sediment accretion, allowing marshes to reach and maintain an equilibrium elevation relative to mean sea level, and steering ecological succession towards a climax state. However, for marsh restoration sites, these feedbacks may be disturbed depending on the restoration design. This was investigated by comparing the inundation-elevation change feedbacks in a natural versus restoration site with reduced tidal exchange in the Scheldt estuary (Belgium). This study analyses long term (15 years) datasets on elevation change and tidal inundation properties to disentangle the different mechanisms behind this elevation-inundation feedback. Moreover, subsequent changes in sediment properties that may affect this feedback were explored. We found in the restoration area with reduced tidal exchange a different elevation-inundation feedback than on natural marshes, i.e. a positive feedback on initially high sites (i.e. sediment accretion leads to increasing inundation, hence causing accelerating sediment accretion rates) and a gradual silting up of the whole area. Furthermore, there is evidence for the presence of a relict consolidated sediment layer. Consequently, shallow subsidence is less likely to occur. Although short term ecological development of the tidal marsh was not impeded, long term habitat development may be different by the disturbed hydro-geomorphological interactions. Potential consequences for ecosystem functioning and services are discussed. Ecosystem trajectories may be controlled or changed by adaptive management, and suggestions for improved management are made.

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The Vegetation Silica Pool in a Developing Tidal Freshwater Marsh

Jacobs

Müller

Teuchies

et al. 2012

Silicon

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Ecosystem service delivery in restoration projects: the effect of ecological succession on the benefits of tidal marsh restoration

Boerema¹,

Geerts²,

Oosterlee³

et al. 2016

E&S

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ABSTRACT. Long-term assessment of ecosystem restoration projects is complex because of ecological processes such as succession, particularly in highly dynamic ecosystems such as estuaries. Restoration of intertidal flats and marshes on formerly embanked land, often called managed coastal realignment (MR), became popular in estuarine management. In our study, biophysical and monetary data were collected to calculate the value of 15 (sub)ecosystem services (ES) delivered by a large tidal marsh restoration project in the Schelde estuary in Belgium and the Netherlands. We hypothesized that ES delivery changes over time due to ecological succession and hence the long-term benefits are subject to this phenomenon and need to be taken into consideration. A marsh sediment accretion model (MARSED) was used to simulate potential marsh succession scenarios. In this way, the temporal evolution of ES delivery caused by ecological succession could be evaluated. Our study shows that benefits during successional marsh stages could actually be higher than for marshes in equilibrium. This finding does not suggest that ecosystems in transition always have a higher value than systems in equilibrium, but emphasizes the need to consider long-term ecological dynamics, such as succession, in a benefit assessment for restoration projects.

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L. Oosterlee

Effects of tidal re-introduction design on sedimentation rates in previously embanked tidal marshes

Role of plants in metal cycling in a tidal wetland: Implications for phytoremidiation

Tidal Marsh Restoration Design Affects Feedbacks Between Inundation and Elevation Change

The Vegetation Silica Pool in a Developing Tidal Freshwater Marsh

Ecosystem service delivery in restoration projects: the effect of ecological succession on the benefits of tidal marsh restoration

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