Add to ORKGBoundary layer flow characteristics and sediment permeability control pathways and magnitude of material exchange in the surface layer of aquatic sediments. In fine-grained cohesive beds, bottom currents and sediment microtopography shape the diffusive boundary layer and locally produce areas where the interfacial solute fluxes are increased or reduced. Where sediment permeabilities exceed 10−12 m2, advective pore water flows driven by boundary flow–topography interaction dominate the sediment–water exchange of matter, with transport rates that exceed those of molecular diffusion by two orders of magnitude and more. The curved paths of the advective pore flows through the surface layers of such sandy beds generate complex three-dimensional ...
Within the last decades, there have been spectacular developments in experimental and analytical te...
The concept of assessing benthic biogeochemical standing stocks as an ecologically relevant paramete...
In flume and field experiments we demonstrate that interfacial water flows, generated when bottom cu...
Interfacial processes in sediments, biofilms, and other benthic aquatic systems can be strongly affe...
We demonstrate the contribution of biogenic sediment microtopography, termed bioroughness, comprisin...
Our laboratory flume experiments demonstrate that advective porewater flows produce biogeochemical r...
Recent interest in the effects of streambed and near-subsurface (benthic and hyporheic) processes on...
To assess the influence of boundary flow on interfacial oxygen flux in sediments inhabited by benthi...
The thesis focuses on the transport and transformation of nutrients and oxygen across the benthic bo...
PhD Manuscript in Biogeochemistry and Functionnal EcologyThis study deals with the role of bioturbat...
Insight in the biogeochemistry and ecology of sandy sediments crucially depends on a quantitative de...
More than 50% of the continental shelves are covered by sandy sediments that are permeable and allow...
Purpose: The objective of this work is to better understand the role that biological mediation play...
To determine how differences in geomorphologic setting influence spatial heterogeneity in transport ...
The diffusive boundary layer (DBL) is a thin layer of fluid at the interface with a solid surface in...
Within the last decades, there have been spectacular developments in experimental and analytical te...
The concept of assessing benthic biogeochemical standing stocks as an ecologically relevant paramete...
In flume and field experiments we demonstrate that interfacial water flows, generated when bottom cu...
Interfacial processes in sediments, biofilms, and other benthic aquatic systems can be strongly affe...
We demonstrate the contribution of biogenic sediment microtopography, termed bioroughness, comprisin...
Our laboratory flume experiments demonstrate that advective porewater flows produce biogeochemical r...
Recent interest in the effects of streambed and near-subsurface (benthic and hyporheic) processes on...
To assess the influence of boundary flow on interfacial oxygen flux in sediments inhabited by benthi...
The thesis focuses on the transport and transformation of nutrients and oxygen across the benthic bo...
PhD Manuscript in Biogeochemistry and Functionnal EcologyThis study deals with the role of bioturbat...
Insight in the biogeochemistry and ecology of sandy sediments crucially depends on a quantitative de...
More than 50% of the continental shelves are covered by sandy sediments that are permeable and allow...
Purpose: The objective of this work is to better understand the role that biological mediation play...
To determine how differences in geomorphologic setting influence spatial heterogeneity in transport ...
The diffusive boundary layer (DBL) is a thin layer of fluid at the interface with a solid surface in...
Within the last decades, there have been spectacular developments in experimental and analytical te...
The concept of assessing benthic biogeochemical standing stocks as an ecologically relevant paramete...
In flume and field experiments we demonstrate that interfacial water flows, generated when bottom cu...