In this article, we describe the dynamics of pH, O2 and H2S in the top 5–10 cm of an intertidal flat consisting of permeable sand. These dynamics were measured at the low water line and higher up the flat and during several seasons. Together with pore water nutrient data, the dynamics confirm that two types of transport act as driving forces for the cycling of elements (Billerbeck et al. 2006b): Fast surface dynamics of pore water chemistry occur only during inundation. Thus, they must be driven by hydraulics (tidal and wave action) and are highly dependent on weather conditions. This was demonstrated clearly by quick variation in oxygen penetration depth: Seeps are active at low tide only, indicating that the pore water flow in them is dri...
High organic carbon turnover in permeable sands is considered to be fueled by the efficient supply o...
Biologically enhanced pore water irrigation affects the course of early diagenesis in shallow marine...
We conducted four field campaigns to evaluate benthic O2 consumption and the effect of advective por...
This study addresses organic matter decomposition in permeable sediment of a sloping intertidal sand...
Biologically enhanced pore water irrigation affects the course of early diagenesis in shallow marine...
Oxygen distribution and benthic mineralization rates were investigated in a permeable intertidal san...
We studied pore water seepage and associated nutrient release in the Janssand intertidal sand flat (...
We studied pore water seepage and associated nutrient release in the Janssand intertidal sand flat (...
Pore water transport and its implications for mineralization and nutrient release from the sediment ...
High organic carbon turnover in permeable sands is considered to be fueled by the efficient supply o...
Sulfidic seeps with methane ebullition were observed at the low‐water line of intertidal sand flats ...
Pore water transport and its implications for mineralization and nutrient release from the sediment ...
Large areas of the oceanic shelf are composed of sandy sediments through which reactive solutes are ...
Small pressure gradients generated by boundary flow-topography interactions cause advective pore wat...
The effects of advective pore water exchange driven by shallow water waves on the oxygen distributio...
High organic carbon turnover in permeable sands is considered to be fueled by the efficient supply o...
Biologically enhanced pore water irrigation affects the course of early diagenesis in shallow marine...
We conducted four field campaigns to evaluate benthic O2 consumption and the effect of advective por...
This study addresses organic matter decomposition in permeable sediment of a sloping intertidal sand...
Biologically enhanced pore water irrigation affects the course of early diagenesis in shallow marine...
Oxygen distribution and benthic mineralization rates were investigated in a permeable intertidal san...
We studied pore water seepage and associated nutrient release in the Janssand intertidal sand flat (...
We studied pore water seepage and associated nutrient release in the Janssand intertidal sand flat (...
Pore water transport and its implications for mineralization and nutrient release from the sediment ...
High organic carbon turnover in permeable sands is considered to be fueled by the efficient supply o...
Sulfidic seeps with methane ebullition were observed at the low‐water line of intertidal sand flats ...
Pore water transport and its implications for mineralization and nutrient release from the sediment ...
Large areas of the oceanic shelf are composed of sandy sediments through which reactive solutes are ...
Small pressure gradients generated by boundary flow-topography interactions cause advective pore wat...
The effects of advective pore water exchange driven by shallow water waves on the oxygen distributio...
High organic carbon turnover in permeable sands is considered to be fueled by the efficient supply o...
Biologically enhanced pore water irrigation affects the course of early diagenesis in shallow marine...
We conducted four field campaigns to evaluate benthic O2 consumption and the effect of advective por...
Add to ORKG