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Journal articles on the topic 'Eco-morphodynamic'

Author: Grafiati
Published: 14 March 2023
Last updated: 31 July 2025

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1

Milbradt, P., and T. Schonert. "A holistic approach and object-oriented framework for eco-hydraulic simulation in coastal engineering." Journal of Hydroinformatics 10, no. 3 (2008): 201–14. http://dx.doi.org/10.2166/hydro.2008.029.

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The consideration of biological processes in hydro- and morphodynamic models is an important challenge for numerical simulation in coastal engineering. Eco-hydraulic aspects will play a major role in engineering tools and planning processes for the design of coastal works. Vegetation greatly affects the hydro- and morphodynamic models in coastal zones. Most hydrodynamic numerical models do not consider influences by ecological factors. This paper focuses on the presentation of an object-oriented holistic framework for eco-hydraulic simulation. The numerical approximation is performed by a stab
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2

Winterwerp, J. C., P. L. A. Erftemeijer, N. Suryadiputra, P. van Eijk, and Liquan Zhang. "Defining Eco-Morphodynamic Requirements for Rehabilitating Eroding Mangrove-Mud Coasts." Wetlands 33, no. 3 (2013): 515–26. http://dx.doi.org/10.1007/s13157-013-0409-x.

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3

Silva, Ana Paula Da, Giovanni Coco, Kate Whitton, et al. "MODELING THE FUTURE OF CORAL REEFS: AN ECO-MORPHODYNAMIC APPROACH." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 33. https://doi.org/10.9753/icce.v38.management.33.

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Coral reefs are complex biological structures that provide critical ecosystem services, such as provision of habitat for marine organisms, fisheries supply, recreational space for tourism industry, and coastal protection. Due to climate change, coral reefs have been undergoing, and will continue to experience, alterations in their capacity to deliver essential ecosystem services. To comprehend these existing alterations and forecast reef responses to future climate change scenarios, it is imperative to employ dynamic modeling approaches that encompass both abiotic and biotic factors. This stud
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4

Arlinghaus, Peter, Corinna Schrum, Ingrid Kröncke, and Wenyan Zhang. "Benthos as a key driver of morphological change in coastal regions." Earth Surface Dynamics 12, no. 2 (2024): 537–58. http://dx.doi.org/10.5194/esurf-12-537-2024.

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Abstract. Benthos has long been recognized as an important factor influencing local sediment stability, deposition, and erosion rates. However, its role in long-term (annual to decadal scale) and large-scale coastal morphological change remains largely speculative. This study aims to derive a quantitative understanding of the importance of benthos in the morphological development of a tidal embayment (Jade Bay) as representative of tidal coastal regions. To achieve this, we first applied a machine-learning-aided species abundance model to derive a complete map of benthos (functional groups, ab
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5

Tuzyak, Ya. "Eco-morphodynamic system Medobory-Toutras (Podillya, Western Ukraine): it is educational, geotouristic and recreational value." Ecological Sciences 2, no. 2 (2020): 147–56. http://dx.doi.org/10.32846/2306-9716/2020.eco.2-29.2.23.

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6

Caillibotte, Rémi, Soazig Mahe, Julien Fornasari, Alexis Beudin, and Christophe Brière. "LONG-TERM ECO-MORPHOLOGY MODELLING FOR ASSESSING RISK REDUCTION BY LARGE-SCALE RESTORATION OF SEAGRASS IN ARCACHON BAY (FRANCE)." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 49. https://doi.org/10.9753/icce.v38.sediment.49.

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In the Arcachon Bay, a semi-confined triangular-shaped lagoon located in the southeast of the Bay of Biscay (France), seagrass restoration actions are explored within the H2020 Green Deal project Rest-Coast, due to chronic seagrass decline observed since the beginning of the 21st century (Auby et al. 2011). One objective of the Rest-Coast project is the definition of enablers for upscaling coastal restoration (Sanchez-Arcilla et al., 2022). At Arcachon Bay, the effect of seagrass restoration on sediment dynamics and on the resulting coastal morphology evolution is investigated, in order to add
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7

BRÜCKNER, MURIEL Z. M., WILLIAM J. MCMAHON, and MAARTEN G. KLEINHANS. "MUDDYING THE WATERS: MODELING THE EFFECTS OF EARLY LAND PLANTS IN PALEOZOIC ESTUARIES." PALAIOS 36, no. 5 (2021): 173–81. http://dx.doi.org/10.2110/palo.2020.073.

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ABSTRACT The Paleozoic evolution of vegetation transformed terrestrial landscapes, facilitating novel sedimentary processes and creating new habitats. This transformation left a permanent mark on the sedimentary record, perhaps most strikingly via an upsurge in preserved terrestrial mudrock. Whereas feedbacks between evolving vegetation and river structure have been widely studied, Paleozoic estuaries have so far received scant attention. Located at the interface between the land and sea, the co-adjustment of estuarine morphology and plant traits are fundamentally tied to a varied range of geo
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8

Brodie, Katherine, Ian Conery, Nicholas Cohn, Nicholas Spore, and Margaret Palmsten. "Spatial Variability of Coastal Foredune Evolution, Part A: Timescales of Months to Years." Journal of Marine Science and Engineering 7, no. 5 (2019): 124. http://dx.doi.org/10.3390/jmse7050124.

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Coastal foredunes are topographically high features that can reduce vulnerability to storm-related flooding hazards. While the dominant aeolian, hydrodynamic, and ecological processes leading to dune growth and erosion are fairly well-understood, predictive capabilities of spatial variations in dune evolution on management and engineering timescales (days to years) remain relatively poor. In this work, monthly high-resolution terrestrial lidar scans were used to quantify topographic and vegetation changes over a 2.5 year period along a micro-tidal intermediate beach and dune. Three-dimensional
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9

Wei, Yizhang, Barend van Maanen, Danghan Xie, Qin Jiang, Zeng Zhou, and Christian Schwarz. "Mangrove‐Saltmarsh Ecotones: Are Species Shifts Determining Eco‐Morphodynamic Landform Configurations?" Earth's Future 12, no. 10 (2024). http://dx.doi.org/10.1029/2024ef004990.

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AbstractMangrove‐saltmarsh ecotones are experiencing rapid alterations due to climate change and human activities, however, the ecological and morphological implications of these shifts remain largely unknown. This study systematically explores how interspecific interactions and herbivory influence the dominant wetland species, as well as the resultant morphological evolution and landscape configuration. To achieve this, we develop a new eco‐morphodynamic model that integrates hydrodynamics, sediment transport, bed‐level change, and vegetation dynamics. The novelty of the current model lies in
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10

Salerno, Luca, Paolo Vezza, Paolo Perona, and Carlo Camporeale. "Eco-morphodynamic carbon pumping by the largest rivers in the Neotropics." Scientific Reports 13, no. 1 (2023). http://dx.doi.org/10.1038/s41598-023-32511-w.

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AbstractThe eco-morphodynamic activity of large tropical rivers in South and Central America is analyzed to quantify the carbon flux from riparian vegetation to inland waters. We carried out a multi-temporal analysis of satellite data for all the largest rivers in the Neotropics (i.e, width > 200 m) in the period 2000–2019, at 30 m spatial resolution. We developed a quantification of a highly efficient Carbon Pump mechanism. River morphodynamics is shown to drive carbon export from the riparian zone and to promote net primary production by an integrated process through floodplain rejuvenati
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11

Geng, Liang, Andrea D'Alpaos, Alessandro Sgarabotto, Zheng Gong, and Stefano Lanzoni. "Intertwined Eco‐Morphodynamic Evolution of Salt Marshes and Emerging Tidal Channel Networks." Water Resources Research 57, no. 11 (2021). http://dx.doi.org/10.1029/2021wr030840.

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12

Kench, Paul S. "Effects of Environmental and Climatic Changes on Coral Reef Islands." Annual Review of Marine Science, July 18, 2024. http://dx.doi.org/10.1146/annurev-marine-032223-030921.

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Coral reef islands are low-lying, wave-deposited sedimentary landforms. Using an eco-morphodynamic framework, this review examines the sensitivity of islands to climatic and environmental change. Reef island formation and morphological dynamics are directly controlled by nearshore wave processes and ecologically mediated sediment supply. The review highlights that reef islands are intrinsically dynamic landforms, able to adjust their morphology (size, shape, and location) on reef surfaces in response to changes in these processes. A suite of ecological and oceanographic processes also indirect
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13

Salerno, Luca, Fabio Giulio Tonolo, and Carlo Camporeale. "A global dataset of carbon pumping by the world’s largest tropical rivers." Scientific Data 11, no. 1 (2024). http://dx.doi.org/10.1038/s41597-024-03201-7.

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AbstractThe eco-morphodynamic activity of large tropical rivers interacts with riparian vegetation causing implications for the carbon cycle within inland waters. Through a multi-temporal analysis of satellite data spanning the years 2000–2019, we analyzed rivers exceeding 200 m in width across the tropical regions, revealing a Carbon Pump mechanism driving an annual mobilization of 12.45 million tons of organic carbon. The study identifies fluvial eco-morphological signatures as proxies for carbon mobilization, emphasizing the link between river migration and carbon dynamics. To enhance acces
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14

Kumbier, Kristian, Kerrylee Rogers, Michael G. Hughes, Kirti K. Lal, Laura A. Mogensen, and Colin D. Woodroffe. "An Eco-Morphodynamic Modelling Approach to Estuarine Hydrodynamics & Wetlands in Response to Sea-Level Rise." Frontiers in Marine Science 9 (May 6, 2022). http://dx.doi.org/10.3389/fmars.2022.860910.

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Tidal inundation is the primary driver of intertidal wetland functioning and will be affected by sea- level rise (SLR). The morphology of estuaries and friction across intertidal surfaces influences tidal propagation; accordingly, sea-level rise not only increases inundation frequency, but will also alter other tidal parameters, such as tidal range. To investigate responses of estuarine intertidal vegetation, primarily mangrove and saltmarsh, to SLR an eco-morphodynamic modelling approach was developed that accounted for some of the feedbacks between tidal inundation and changes to wetland sub
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15

Demichele, D., E. Belcore, M. Piras, and C. Camporeale. "Species‐By‐Species Pattern Analysis of Coastal Dune Vegetation." Journal of Geophysical Research: Biogeosciences 130, no. 2 (2025). https://doi.org/10.1029/2024jg008419.

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AbstractVegetation is crucial for stabilizing and developing coastal dunes. Different plant species exhibit different spatial distributions which reflect their environmental role and adaptation strategy. This study aims to provide a fine‐scale species‐by‐species analysis of vegetation spatial patterns on coastal dunes within the San Rossore–Migliarino–Massacciuccoli Regional Park (Tuscany, Italy). A comprehensive vegetation data set generated by an Object‐Based Image Analysis (OBIA) algorithm applied to high‐resolution ortho‐images has been utilized. A Digital Terrain Model (DTM) of the study
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16

Gao, Chao, Ya Ping Wang, Zhiwei Li, Cong‐Qiang Liu, and Shu Gao. "Hydrodynamics of Meander Chute Cutoffs in Microtidal Mudflats." Water Resources Research 60, no. 6 (2024). http://dx.doi.org/10.1029/2024wr037129.

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AbstractRiver cutoffs and oxbow lakes represent ubiquitous features in alluvial plains, shaped by unidirectional meandering flow. Extensive studies have been conducted on these features as their presence immediately decreases meander sinuosity and plays a significant role in the long‐term eco‐morphodynamic and sedimentary evolution of landscapes they carved in. In contrast, limited attention has been given to meander cutoffs formed in tidal environments by bidirectional currents, and the corresponding hydrodynamical processes within these features are poorly understood. Here, we present new, f
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17

Soto Parra, Tulio, Emilio Politti, and Guido Zolezzi. "Morphological and fish mesohabitat dynamics following an experimental flood under different sediment availability." Earth Surface Processes and Landforms, November 13, 2024. http://dx.doi.org/10.1002/esp.6025.

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AbstractExperimental floods have been increasingly used as a promising practice to rehabilitate river ecosystems downstream of dams; however, the morphological and habitat dynamics they determine under different sediment supply conditions still poses relevant research and management questions. This study investigates the morphological and fish mesohabitat dynamics following an experimental flood, in two river reaches subject to different sediment supply regimes. We chose the lower Spöl River (Switzerland) as a relevant case study, subject to an experimental flood program for several years. Dow
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18

Tambroni, Nicoletta, Stefano Lanzoni, and Giovanni Seminara. "Eco-morphodynamics of coastal wetlands." Rendiconti Lincei. Scienze Fisiche e Naturali, May 11, 2022. http://dx.doi.org/10.1007/s12210-022-01070-z.

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AbstractWe survey the problem of the response of coastal wetlands to sea level rise. Two opposite views have traditionally been confronted. According to the former, on the geological time scale, coastal lagoons would be ‘ephemeral’ features. The latter view maintains that marshes would keep pace with relative sea level rise as, increasing the rate of the latter, the sedimentation rate would also increase. In any case, the timescale of morphodynamic evolution is of the order of centuries, which makes it not easily perceived. For example, in Venice, the diversion of the rivers debouching into th
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