MANG@COAST: A spatio-temporal modeling approach of muddy shoreline mobility based on mangrove monitoring

Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex interactions between mud and waves. We propose a multiscale modelling approach and empirical equations calibrated and integrated into a landscape dynam...

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Published inEnvironmental modelling & software : with environment data news Vol. 186; p. 106345
Main Authors Augusseau, P.E., Proisy, C., Gardel, A., Brunier, G., Granjon, L., Maury, T., Mury, A., Staquet, A., Santos, V.F., Walcker, R., Degenne, P., Lo Seen, D., Anthony, E.J.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2025
Elsevier
Subjects
Amazon sediments
coasts
computer software
dynamic models
Environmental Sciences
French Guiana
Landscape evolution model
landscapes
Open coast
Remote sensing
satellites
shorelines
water power
Wave attenuation
Open coast
Wave attenuation
Landscape evolution model
Amazon sediments
French Guiana
Remote sensing
remote sensing
open coast
wave attenuation
Online AccessGet full text
ISSN1364-8152
DOI10.1016/j.envsoft.2025.106345

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Abstract Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex interactions between mud and waves. We propose a multiscale modelling approach and empirical equations calibrated and integrated into a landscape dynamics model implemented on a mud-bank coast using the Ocelet language to simplify the complex processes driving sea-mangrove coastline dynamics and quantity them with 10 years of satellite observations of mangrove shoreline fluctuations. We find that fluctuations in seafront mangroves can be simulated with acceptable accuracy along 200 km of coastline. In the absence of mud banks, seasonal wave forcing resulted in erosion rates reaching 1100 m/y. Our findings indicate that wave energy can be reduced by 90% at all locations when the width of mud banks exceeds 2000 m in front of the mangroves. Finally, we discuss the potential of this modeling approach for anticipating coastal changes. [Display omitted] •MANG@COAST simulates mangrove fluctuations on the muddy French Guiana coast.•MANG@COAST is calibrated with satellite observations covering 10 years and a coastline of 200 km.•The model quantifies the critical role of mud banks in attenuating waves and protecting mangroves.•Mangrove ability to expand is a key process in modeling coastal changes.
AbstractList Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex interactions between mud and waves. We propose a multiscale modelling approach and empirical equations calibrated and integrated into a landscape dynamics model implemented on a mud-bank coast using the Ocelet language to simplify the complex processes driving seamangrove coastline dynamics and quantity them with 10 years of satellite observations of mangrove shoreline fluctuations.We find that fluctuations in seafront mangroves can be simulated with acceptable accuracy along 200 km of coastline. In the absence of mud banks, seasonal wave forcing resulted in erosion rates reaching 1100 m/y. Our findings indicate that wave energy can be reduced by 90% at all locations when the width of mud banks exceeds 2000 m in front of the mangroves. Finally, we discuss the potential of this modeling approach for anticipating coastal changes.
Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex interactions between mud and waves. We propose a multiscale modelling approach and empirical equations calibrated and integrated into a landscape dynamics model implemented on a mud-bank coast using the Ocelet language to simplify the complex processes driving sea-mangrove coastline dynamics and quantity them with 10 years of satellite observations of mangrove shoreline fluctuations. We find that fluctuations in seafront mangroves can be simulated with acceptable accuracy along 200 km of coastline. In the absence of mud banks, seasonal wave forcing resulted in erosion rates reaching 1100 m/y. Our findings indicate that wave energy can be reduced by 90% at all locations when the width of mud banks exceeds 2000 m in front of the mangroves. Finally, we discuss the potential of this modeling approach for anticipating coastal changes. [Display omitted] •MANG@COAST simulates mangrove fluctuations on the muddy French Guiana coast.•MANG@COAST is calibrated with satellite observations covering 10 years and a coastline of 200 km.•The model quantifies the critical role of mud banks in attenuating waves and protecting mangroves.•Mangrove ability to expand is a key process in modeling coastal changes.
Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex interactions between mud and waves. We propose a multiscale modelling approach and empirical equations calibrated and integrated into a landscape dynamics model implemented on a mud-bank coast using the Ocelet language to simplify the complex processes driving sea-mangrove coastline dynamics and quantity them with 10 years of satellite observations of mangrove shoreline fluctuations. We find that fluctuations in seafront mangroves can be simulated with acceptable accuracy along 200 km of coastline. In the absence of mud banks, seasonal wave forcing resulted in erosion rates reaching 1100 m/y. Our findings indicate that wave energy can be reduced by 90% at all locations when the width of mud banks exceeds 2000 m in front of the mangroves. Finally, we discuss the potential of this modeling approach for anticipating coastal changes.
ArticleNumber 106345
Author Degenne, P.
Mury, A.
Walcker, R.
Lo Seen, D.
Santos, V.F.
Augusseau, P.E.
Maury, T.
Anthony, E.J.
Gardel, A.
Granjon, L.
Proisy, C.
Brunier, G.
Staquet, A.
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  organization: Aix Marseille University, CNRS, IRD, INRAE, Collège de France, CEREGE, Aix-en-Provence, France
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Keywords Open coast
Wave attenuation
Landscape evolution model
Amazon sediments
French Guiana
Remote sensing
remote sensing
open coast
wave attenuation
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Snippet Highly dynamic wave-exposed muddy coasts harbouring mangrove ecosystems can be subject to both marked accretion and erosion depending on the complex...
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StartPage 106345
SubjectTerms Amazon sediments
coasts
computer software
dynamic models
Environmental Sciences
French Guiana
Landscape evolution model
landscapes
Open coast
Remote sensing
satellites
shorelines
water power
Wave attenuation
Title MANG@COAST: A spatio-temporal modeling approach of muddy shoreline mobility based on mangrove monitoring
URI https://dx.doi.org/10.1016/j.envsoft.2025.106345
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