Redox reactions involving iron (Fe) strongly affect the mobility of phosphorus (P) and its migration from agricultural land to freshwater. We studied the transfer of P from groundwater to open drainage ditches in an area where, due to Fe(II) rich groundwater, the sediments of these ditches contain accumulated Fe oxyhydroxides. The average P concentrations in the groundwater feeding two out of three studied drainage ditches exceeded environmental limits for freshwaters by factors 11 and 16, but after passing through the Fe-rich sediments, the P concentrations in the ditch water were below these limits. In order to identify the processes which govern Fe and P mobility in these systems, we used diffusive equilibration in thin films (DET) to me...
Exfiltration of anaerobic Fe-rich groundwater into surface water plays an important role in controll...
In an estuary, characterized by biogeochemical reactions that affect the input, cycling, and removal...
Although phosphate phosphorus (P) is strongly sorbed in many soils, it may be quickly transported th...
Redox reactions involving iron (Fe) strongly affect the mobility of phosphorus (P) and its migration...
Losses of phosphorus (P) from agricultural land to surface water may cause impaired water quality. I...
Phosphorus (P) is a limiting nutrient in many aquatic ecosystems. In agriculture, P is present in fe...
Eutrophication of freshwater environments following diffuse nutrient loads is a widely recognized wa...
The retention of phosphorus in surface waters through co-precipitation of phosphate with Fe-oxyhydro...
The retention of phosphorus in surface waters though co-precipitation of phosphate with Fe-oxyhydrox...
The fate of iron (Fe) may affect that of phosphorus (P) and arsenic (As) in natural waters. This stu...
The release of phosphorus (P) to surface water from heavily fertilised agricultural fields is of maj...
The fate of iron (Fe) may affect that of phosphorus (P) and arsenic (As) in natural waters. This stu...
Ditches increase the connectivity of landscapes to open water systems, potentially facilitating the ...
Phosphorus (P) leaching from agriculture is a major driver of water eutrophication in downstream riv...
Fe(III) hydroxides stabilize organic carbon (OC) and P in soils. Observations of rising stream Fe co...
Exfiltration of anaerobic Fe-rich groundwater into surface water plays an important role in controll...
In an estuary, characterized by biogeochemical reactions that affect the input, cycling, and removal...
Although phosphate phosphorus (P) is strongly sorbed in many soils, it may be quickly transported th...
Redox reactions involving iron (Fe) strongly affect the mobility of phosphorus (P) and its migration...
Losses of phosphorus (P) from agricultural land to surface water may cause impaired water quality. I...
Phosphorus (P) is a limiting nutrient in many aquatic ecosystems. In agriculture, P is present in fe...
Eutrophication of freshwater environments following diffuse nutrient loads is a widely recognized wa...
The retention of phosphorus in surface waters through co-precipitation of phosphate with Fe-oxyhydro...
The retention of phosphorus in surface waters though co-precipitation of phosphate with Fe-oxyhydrox...
The fate of iron (Fe) may affect that of phosphorus (P) and arsenic (As) in natural waters. This stu...
The release of phosphorus (P) to surface water from heavily fertilised agricultural fields is of maj...
The fate of iron (Fe) may affect that of phosphorus (P) and arsenic (As) in natural waters. This stu...
Ditches increase the connectivity of landscapes to open water systems, potentially facilitating the ...
Phosphorus (P) leaching from agriculture is a major driver of water eutrophication in downstream riv...
Fe(III) hydroxides stabilize organic carbon (OC) and P in soils. Observations of rising stream Fe co...
Exfiltration of anaerobic Fe-rich groundwater into surface water plays an important role in controll...
In an estuary, characterized by biogeochemical reactions that affect the input, cycling, and removal...
Although phosphate phosphorus (P) is strongly sorbed in many soils, it may be quickly transported th...