Add to ORKGEpi-benthic organisms play a strong role in controlling pelagic-benthic mass transfer rates by directly modifying concentration gradients (i.e., production, or removal of material) and by indirectly modifying near-bed hydrodynamics. Focusing on these bio-hydrodynamic interactions, we will demonstrate how the physical structure of different assemblages, via their interaction with currents and waves, results in spatio-temporal variation in transfer rates at a range of scales. Examples will be used to highlight the, sometimes complex, interactions between organism/population properties (i.e, height, area, volume, flexibility, density and distribution ) and near-bed hydrodynamics. Innovative approaches for examining transfer rates under natural...
Disentangling the roles of environmental change and natural environmental variability on biologicall...
Biological particle mixing (bioturbation) and solute transfer (bio-irrigation) contribute extensivel...
The possible effects of eutrophication on benthic dynamics are discussed based on the Pearson-Rosenb...
Epi-benthic organisms play a strong role in controlling pelagic-benthic mass transfer rates by direc...
Benthic sedimentary environments host micro- and macro-organisms which are the main agents of early ...
Coastal morphodynamic and hydrodynamic processes impose a first-order control on biogeochemical cycl...
Most benthic fauna in the deep sea relies on the flux of organic carbon synthesised in the surface o...
SYNOPSIS. Fluid and sediment dynamics affect benthic community dynamics and structure in manifold wa...
The term benthos applies to the organisms that inhabit ocean bottoms. Benthos distribution is contro...
Marine soft sediments form the second largest habitat on the planet. Organisms residing in this envi...
The possible effects of eutrophication on benthic dynamics are discussed based on the Pearson-Rosenb...
The significant contribution of infaunal mediated particle movement to depth of the mixed layer, the...
Disentangling the roles of environmental change and natural environmental variability on biologicall...
International audienceThe high degree of physical factors in intertidal estuarine ecosystem increase...
Marine coastal zones are highly productive, and dominated by engineer species (e.g. macrophytes, mol...
Disentangling the roles of environmental change and natural environmental variability on biologicall...
Biological particle mixing (bioturbation) and solute transfer (bio-irrigation) contribute extensivel...
The possible effects of eutrophication on benthic dynamics are discussed based on the Pearson-Rosenb...
Epi-benthic organisms play a strong role in controlling pelagic-benthic mass transfer rates by direc...
Benthic sedimentary environments host micro- and macro-organisms which are the main agents of early ...
Coastal morphodynamic and hydrodynamic processes impose a first-order control on biogeochemical cycl...
Most benthic fauna in the deep sea relies on the flux of organic carbon synthesised in the surface o...
SYNOPSIS. Fluid and sediment dynamics affect benthic community dynamics and structure in manifold wa...
The term benthos applies to the organisms that inhabit ocean bottoms. Benthos distribution is contro...
Marine soft sediments form the second largest habitat on the planet. Organisms residing in this envi...
The possible effects of eutrophication on benthic dynamics are discussed based on the Pearson-Rosenb...
The significant contribution of infaunal mediated particle movement to depth of the mixed layer, the...
Disentangling the roles of environmental change and natural environmental variability on biologicall...
International audienceThe high degree of physical factors in intertidal estuarine ecosystem increase...
Marine coastal zones are highly productive, and dominated by engineer species (e.g. macrophytes, mol...
Disentangling the roles of environmental change and natural environmental variability on biologicall...
Biological particle mixing (bioturbation) and solute transfer (bio-irrigation) contribute extensivel...
The possible effects of eutrophication on benthic dynamics are discussed based on the Pearson-Rosenb...