Add to ORKGObservations of plant-flow interactions on salt marshes have revealed a highly complex process dominated by the tightly coupled effects of plant characteristics and hydrodynamic conditions. This paper highlights the importance of vegetation structures such as plant density and height, as well as their spatial variability and mechanical properties including flexibility, upon energy dissipation and flow modification. Many field, laboratory and modelling studies which attempt to predict flow dissipation or improve our understanding of plant-flow interactions use simplified structural measures of salt marsh vegetation or artificial representations. These simplifications neglect important plant and canopy elements and are unlikely to be truly re...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
Feedback between vegetation growth, water flow, and landform is important for the biogeomorphic evol...
Aquatic vegetation has an important role in estuaries and rivers by acting as bed stabilizer, filter...
The three-dimensional structure of salt marsh plant canopies, amongst other marsh surface characteri...
The aim of this thesis was to improve our understanding of plant – flow interactions and to develop ...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
The transport of particulate and dissolved matter on the surface of coastal marshes is controlled by...
Understanding the complexity of the interactions between aquatic biological systems and their physic...
The transport of particulate and dissolved matter on the surface of coastal marshes is controlled by...
Saltmarsh vegetation significantly influences tidal currents and sediment deposition by decelerating...
[1] Feedback between vegetation growth, water flow, and landform is important for the biogeomorphic ...
The salt marshes along the Western Scheldt Estuary have very distinct spatial vegetation patterns, d...
Seagrass canopies influence water flow partly as a consequence of their morphology. Amphibolis antar...
Aquatic vegetation plays a critical role in aquatic environments and provides various valuable servi...
© 2020 Elsevier Ltd Salt marshes are a common feature in coastal regions and have been noted for the...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
Feedback between vegetation growth, water flow, and landform is important for the biogeomorphic evol...
Aquatic vegetation has an important role in estuaries and rivers by acting as bed stabilizer, filter...
The three-dimensional structure of salt marsh plant canopies, amongst other marsh surface characteri...
The aim of this thesis was to improve our understanding of plant – flow interactions and to develop ...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
The transport of particulate and dissolved matter on the surface of coastal marshes is controlled by...
Understanding the complexity of the interactions between aquatic biological systems and their physic...
The transport of particulate and dissolved matter on the surface of coastal marshes is controlled by...
Saltmarsh vegetation significantly influences tidal currents and sediment deposition by decelerating...
[1] Feedback between vegetation growth, water flow, and landform is important for the biogeomorphic ...
The salt marshes along the Western Scheldt Estuary have very distinct spatial vegetation patterns, d...
Seagrass canopies influence water flow partly as a consequence of their morphology. Amphibolis antar...
Aquatic vegetation plays a critical role in aquatic environments and provides various valuable servi...
© 2020 Elsevier Ltd Salt marshes are a common feature in coastal regions and have been noted for the...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
Feedback between vegetation growth, water flow, and landform is important for the biogeomorphic evol...
Aquatic vegetation has an important role in estuaries and rivers by acting as bed stabilizer, filter...