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A new technique for tidal habitat restoration: Evaluation of its hydrological potentials

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A new technique for tidal habitat restoration : Evaluation of its hydrological potentials. / Beauchard, O; Jacobs, Sander; Cox, T. J. S; Maris, T; Vrebos, D; Van Braeckel, Alexander; Meire, Patrick.

In: Ecological Engineering, Vol. 37, No. 11, 2011, p. 1849-1858.

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Beauchard, O ; Jacobs, Sander ; Cox, T. J. S ; Maris, T ; Vrebos, D ; Van Braeckel, Alexander ; Meire, Patrick. / A new technique for tidal habitat restoration : Evaluation of its hydrological potentials. In: Ecological Engineering. 2011 ; Vol. 37, No. 11. pp. 1849-1858.

Bibtex

@article{664c40bed38c4fb7a05671f93f6f9a09,
title = "A new technique for tidal habitat restoration: Evaluation of its hydrological potentials",
abstract = "The inability to create an adequate tidal regime in embanked areas is a major problem for restoring estuarine habitats. The controlled reduced tide system (CRT) was previously hypothesized to overcome this constraint. As part of an estuarine management plan which combines flood protection and tidal habitat restoration, the first CRT system was implemented in the freshwater zone of the Schelde estuary (Belgium). Based on four years of high-frequency monitoring on the first CRT and the adjacent estuary, this study demonstrates the hydrological functionality of CRT. The tidal characteristics generated by this technique were suitable in the short and the long term, with a reproduction of the spring-neap tidal cycle. In both the CRT and the estuary, the spatial and temporal variability of several hydrological descriptors were comparatively analysed. In spite of some hydrological deviations from the estuarine pattern, nothing precluded a suitable ecosystem feature in CRT. The potential influences of CRT-specific hydrology on ecology and estuarine restoration are discussed. The restoration potential of the CRT system is shown to be particularly relevant for tidal marshes in early succession stage, habitats which are often lacking in embanked estuaries. Additionally, it offers a more robust and adaptable alternative to other systems. Conclusively, the CRT system should be more advocated in estuarine restoration.",
author = "O Beauchard and Sander Jacobs and Cox, {T. J. S} and T Maris and D Vrebos and {Van Braeckel}, Alexander and Patrick Meire",
year = "2011",
doi = "10.1016/j.ecoleng.2011.06.010",
language = "English",
volume = "37",
pages = "1849--1858",
journal = "Ecological Engineering",
issn = "0925-8574",
publisher = "Elsevier Science",
number = "11",

}

RIS

TY - JOUR

T1 - A new technique for tidal habitat restoration

T2 - Evaluation of its hydrological potentials

AU - Beauchard, O

AU - Jacobs, Sander

AU - Cox, T. J. S

AU - Maris, T

AU - Vrebos, D

AU - Van Braeckel, Alexander

AU - Meire, Patrick

PY - 2011

Y1 - 2011

N2 - The inability to create an adequate tidal regime in embanked areas is a major problem for restoring estuarine habitats. The controlled reduced tide system (CRT) was previously hypothesized to overcome this constraint. As part of an estuarine management plan which combines flood protection and tidal habitat restoration, the first CRT system was implemented in the freshwater zone of the Schelde estuary (Belgium). Based on four years of high-frequency monitoring on the first CRT and the adjacent estuary, this study demonstrates the hydrological functionality of CRT. The tidal characteristics generated by this technique were suitable in the short and the long term, with a reproduction of the spring-neap tidal cycle. In both the CRT and the estuary, the spatial and temporal variability of several hydrological descriptors were comparatively analysed. In spite of some hydrological deviations from the estuarine pattern, nothing precluded a suitable ecosystem feature in CRT. The potential influences of CRT-specific hydrology on ecology and estuarine restoration are discussed. The restoration potential of the CRT system is shown to be particularly relevant for tidal marshes in early succession stage, habitats which are often lacking in embanked estuaries. Additionally, it offers a more robust and adaptable alternative to other systems. Conclusively, the CRT system should be more advocated in estuarine restoration.

AB - The inability to create an adequate tidal regime in embanked areas is a major problem for restoring estuarine habitats. The controlled reduced tide system (CRT) was previously hypothesized to overcome this constraint. As part of an estuarine management plan which combines flood protection and tidal habitat restoration, the first CRT system was implemented in the freshwater zone of the Schelde estuary (Belgium). Based on four years of high-frequency monitoring on the first CRT and the adjacent estuary, this study demonstrates the hydrological functionality of CRT. The tidal characteristics generated by this technique were suitable in the short and the long term, with a reproduction of the spring-neap tidal cycle. In both the CRT and the estuary, the spatial and temporal variability of several hydrological descriptors were comparatively analysed. In spite of some hydrological deviations from the estuarine pattern, nothing precluded a suitable ecosystem feature in CRT. The potential influences of CRT-specific hydrology on ecology and estuarine restoration are discussed. The restoration potential of the CRT system is shown to be particularly relevant for tidal marshes in early succession stage, habitats which are often lacking in embanked estuaries. Additionally, it offers a more robust and adaptable alternative to other systems. Conclusively, the CRT system should be more advocated in estuarine restoration.

U2 - 10.1016/j.ecoleng.2011.06.010

DO - 10.1016/j.ecoleng.2011.06.010

M3 - A1: Web of Science-article

VL - 37

SP - 1849

EP - 1858

JO - Ecological Engineering

JF - Ecological Engineering

SN - 0925-8574

IS - 11

ER -

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