Add to ORKGThe physical mechanism that drives bioirrigation is strongly dependent on the permeability of the sediment. We advance two mechanisms, each described by a corresponding microenvironment model. In muds, burrow water cannot penetrate the sediment, so bioirrigation is intrinsically driven by diffusional transfer across the burrow wall. This ‘‘diffusive’’ mode of bioirrigation is accurately described by the classical tube irrigation model. In sands, ventilation flows can penetrate the surrounding sediment via dead end burrows. To quantify this ‘‘advective’’ mode of bioirrigation, we propose a novel two-dimensional pocket injection model. This model’s principal features are that (1) organisms indent the sediment-water interface with burrow struc...
Irrigation by benthic macrofauna has a major influence on the biogeochemistry and microbial communi...
Diffusion is the dominant physical mechanism for the transfer of oxygen into fine-grained aquatic se...
In sandy sediments, the burrow ventilation activity of benthic macrofauna can generate substantial a...
The physical mechanism that drives bioirrigation is strongly dependent on the permeability of the se...
Insight in the biogeochemistry and ecology of sandy sediments crucially depends on a quantitative de...
Burrow irrigation by benthic infauna affects chemical mass transfer regimes in marine and estuarine ...
Burrowing benthic animals ventilate their burrow networks, and this enhances the transport of solute...
Bioirrigation, the exchange of solutes between overlying water and sediment by benthic organisms, pl...
In sandy sediments, a strong connection exists between the physics of flow and the ecology of burrow...
In sandy sediments, a strong connection exists between the physics of flow and the ecology of burrow...
Large‐scale experimental exclusion of lugworms (Arenicola marina) from 400 m2 intertidal fine sand r...
In one-dimensional (1D) early diagenetic models, bioirrigation is typically represented by a nonloca...
bioturbation bioirrigation biogeochemistry benthic ecology radon Boston Harbor a b s t r a c t The v...
We employed real‐time pressure recording and high temporal resolution two‐dimensional oxygen imaging...
Irrigation by the lugworm Arenicola marina has a major impact on solute transport and distributions ...
Irrigation by benthic macrofauna has a major influence on the biogeochemistry and microbial communi...
Diffusion is the dominant physical mechanism for the transfer of oxygen into fine-grained aquatic se...
In sandy sediments, the burrow ventilation activity of benthic macrofauna can generate substantial a...
The physical mechanism that drives bioirrigation is strongly dependent on the permeability of the se...
Insight in the biogeochemistry and ecology of sandy sediments crucially depends on a quantitative de...
Burrow irrigation by benthic infauna affects chemical mass transfer regimes in marine and estuarine ...
Burrowing benthic animals ventilate their burrow networks, and this enhances the transport of solute...
Bioirrigation, the exchange of solutes between overlying water and sediment by benthic organisms, pl...
In sandy sediments, a strong connection exists between the physics of flow and the ecology of burrow...
In sandy sediments, a strong connection exists between the physics of flow and the ecology of burrow...
Large‐scale experimental exclusion of lugworms (Arenicola marina) from 400 m2 intertidal fine sand r...
In one-dimensional (1D) early diagenetic models, bioirrigation is typically represented by a nonloca...
bioturbation bioirrigation biogeochemistry benthic ecology radon Boston Harbor a b s t r a c t The v...
We employed real‐time pressure recording and high temporal resolution two‐dimensional oxygen imaging...
Irrigation by the lugworm Arenicola marina has a major impact on solute transport and distributions ...
Irrigation by benthic macrofauna has a major influence on the biogeochemistry and microbial communi...
Diffusion is the dominant physical mechanism for the transfer of oxygen into fine-grained aquatic se...
In sandy sediments, the burrow ventilation activity of benthic macrofauna can generate substantial a...