Add to ORKGInteractions between flow and vegetation are widely investigated because vegetation is a primary factor controlling channel ecohydraulics, nearshore hydraulics and flood risk. Laboratory experiments are a critical tool in this research area and, to adequately represent the complexity of natural ecosystems, live plants, rather than artificial surrogates, are often used. In the present work, we expose a freshwater macrophyte (Potamogeton crispus) to a range of environmental conditions commonly found in ecohydraulic laboratories to investigate how these affect the level of plant health and associated variations in plant biomechanical properties. This is motivated by a need to understand how deterioration in live plants that are used in flume f...
In most aquatic ecosystems, hydrodynamic conditions are a key abiotic factor determining species dis...
Flow-plant interactions are experimentally investigated at leaf, stem, and shoot scales in an open-c...
Flow disturbances generated by individual patches of submerged, flexible aquatic vegetation were inv...
Submerged freshwater macrophytes are frequently used in hydraulic laboratories to study flow–plant i...
Live plants are increasingly used in hydraulic laboratories to investigate flow-vegetation interacti...
Live plants are increasingly used in hydraulic laboratories to investigate flow-vegetation interacti...
In most aquatic ecosystems, hydrodynamic conditions are a key abiotic factor determining species dis...
Global environmental changes are a well known phenomenon affecting the climate around us. The challe...
Hydrological alteration due to climate change events such as floods and drought is a significant thr...
This work helps increasing our general understanding of how plants behave under altered hydrological...
Vegetation in freshwater and coastal ecosystems modifies flows, retains sediment, protects banks and...
International audienceThe response of aquatic plants to abiotic factors is a crucial study topic, be...
Understanding the complexity of the interactions between aquatic biological systems and their physic...
Terrestrial plants face a multitude of physiological and ecological trade-offs, and require a compro...
Abstract: The physiological condition of aquatic plants, growth and survival rates, and colony forma...
In most aquatic ecosystems, hydrodynamic conditions are a key abiotic factor determining species dis...
Flow-plant interactions are experimentally investigated at leaf, stem, and shoot scales in an open-c...
Flow disturbances generated by individual patches of submerged, flexible aquatic vegetation were inv...
Submerged freshwater macrophytes are frequently used in hydraulic laboratories to study flow–plant i...
Live plants are increasingly used in hydraulic laboratories to investigate flow-vegetation interacti...
Live plants are increasingly used in hydraulic laboratories to investigate flow-vegetation interacti...
In most aquatic ecosystems, hydrodynamic conditions are a key abiotic factor determining species dis...
Global environmental changes are a well known phenomenon affecting the climate around us. The challe...
Hydrological alteration due to climate change events such as floods and drought is a significant thr...
This work helps increasing our general understanding of how plants behave under altered hydrological...
Vegetation in freshwater and coastal ecosystems modifies flows, retains sediment, protects banks and...
International audienceThe response of aquatic plants to abiotic factors is a crucial study topic, be...
Understanding the complexity of the interactions between aquatic biological systems and their physic...
Terrestrial plants face a multitude of physiological and ecological trade-offs, and require a compro...
Abstract: The physiological condition of aquatic plants, growth and survival rates, and colony forma...
In most aquatic ecosystems, hydrodynamic conditions are a key abiotic factor determining species dis...
Flow-plant interactions are experimentally investigated at leaf, stem, and shoot scales in an open-c...
Flow disturbances generated by individual patches of submerged, flexible aquatic vegetation were inv...