Iron rich glauconite sand as an efficient phosphate immobilising agent in river sediments
Geologic Sediments
Iron
Environmental Sciences & Ecology
01 natural sciences
Phosphates
Iron rich glauconite sand
REMOVAL
Rivers
Sand
BINDING
MANAGEMENT
QUALITY
14. Life underwater
Phosphorus release
0105 earth and related environmental sciences
RELEASE
Iron rich glauconite sans
Minerals
Science & Technology
Phosphorus
Eutrophication
Sediment-water interactions
LANTHANUM-MODIFIED BENTONITE
LAKE
6. Clean water
Lakes
eutrophication
INTERNAL PHOSPHORUS
IMMOBILIZATION
13. Climate action
Amendment
Life Sciences & Biomedicine
WATER TREATMENT RESIDUALS
Environmental Sciences
Water Pollutants, Chemical
DOI:
10.1016/j.scitotenv.2021.152483
Publication Date:
2021-12-16T16:49:00Z
AUTHORS (5)
ABSTRACT
The reductive dissolution of iron (Fe) (oxy)hydroxides in sediments releases phosphorus (P) to the overlying water and may lead to eutrophication. Glauconite sands (GS) are rich in Fe and may be used as readily available P sorbents. This study was set up to test effects of dose and type of GS on the P immobilisation in sediments under hypoxic conditions. Three different GS were amended to a P-rich river sediment at doses of 0% (control), 5% and 10% (weight fractions) and incubated with overlying water in batch laboratory conditions. Glutamate was added to the solution after 15 days to deplete any residual dissolved oxygen from the sediment-water interface. In the first 15 days, the P concentration in the overlying water peaked to 1.5 mg P L-1 at day 9 in the control and decreased to 0.9 mg P L-1 at lowest Fe-dose and to 0.03 mg P L-1 at the highest Fe-dose, the effects of GS type and dose were explained by the Fe dose. After 15 days, the added glutamate induced a second, and larger peak of P in the overlying water in sediment, that peak was lower in amended sediments but no GS dose or type related effects were found. This suggests that freshly precipitated P species at the sediment-water interface can be remobilised. This study highlights the potential for using this natural mineral as a cheap and easily available sediment remediation material, but its longevity under rare extreme conditions needs to be further investigated.
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