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Developing a remediation strategy for phosphorus immobilization: effect of co-blending, al-residual and ca-mg amendments in a manure impacted spodosol

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dc.contributor.author Miyittah, Michael K.
dc.contributor.author Stanley, Craig D.
dc.contributor.author Mackowiak, Cheryl
dc.contributor.author Rhue, Dean R.
dc.contributor.author . Rechcigl, Jack E
dc.date.accessioned 2021-04-06T13:07:49Z
dc.date.available 2021-04-06T13:07:49Z
dc.date.issued 2011
dc.identifier.issn 23105496
dc.identifier.uri http://hdl.handle.net/123456789/5242
dc.description 17p:, ill. en_US
dc.description.abstract A remediation strategy called “co-blending” was developed for rapid phosphorus (P) immobilization. Immobilization was achieved through the combination of an Al-based water treatment residual (Al-WTR) with Ca-Mg-based materials (Slag and magnesium oxide) for use in incubation and leaching experiments. Al-WTR was co-blended with Slag and MgO as “Al-WTR+Slag” and “Al-WTR+MgO,” respectively. Sequential extraction was used to delineate P species into operationally defined fractions: soluble or exchangeable, Al-Fe, and Ca-Mg-bound pools. Results from soils used in the incubation experiment showed that Al-amended material tended to sequester P bound (∼26%) to the Al-Fe pool. On the other hand, Ca-Mg-based materials tended to sorb (∼70%) of P greatly associated to the Ca-Mg pool. Amendments were applied at 2% or 20 g kg-1 as Al-WTR, MgO, and Slag and at 1%+1% or 10 g kg-1+10 g kg-1 as co-blended Al-WTR+MgO and Al-WTR+Slag, respectively, on mass basis. Results from leaching data suggest that treatment effects on pH are significant at (p < 0.0001) and also significant (p < 0.01) with weeks of leaching. A similar significant (p < 0.0001) trend was observed for effects of treatment on redox potential (Eh). However, treatment effects on weeks of leaching were not significant. Cumulative soluble P (mg) of leachate showed linear reduction (96%) from the control (without amendments) using a regression model. Potential co-blended material selected was Al-WTR+Slag (1%+1%) due to less P in leachates, moderate effect on pH, and fewer amounts of Al-WTR and Slag used compared with 2% Al-WTR and Slag, respectively. In addition, the RMSE of Al-WTR+Slag data fitted to a regression model was the least. Results suggested that the metal cations Al, Ca, and Mg tended to bind different forms of total P at any given pH. Through co-blending, less soluble P may be lost to the environment than using sorption materials independentl en_US
dc.language.iso en en_US
dc.publisher University of Cape Coast en_US
dc.subject Co-blending en_US
dc.subject Manure-impacted soil en_US
dc.subject Drinking water treatment residual en_US
dc.subject Remediation en_US
dc.subject Immobilization en_US
dc.subject Ca-Mg-based materials en_US
dc.title Developing a remediation strategy for phosphorus immobilization: effect of co-blending, al-residual and ca-mg amendments in a manure impacted spodosol en_US
dc.type Article en_US


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