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Can industrial by-products enhance phosphorus retention within vegetated buffer strips?

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Can industrial by-products enhance phosphorus retention within vegetated buffer strips? / Habibiandehkordi, Reza; Quinton, John; Surridge, Ben.
In: European Journal of Soil Science, Vol. 66, No. 1, 01.2015, p. 42-52.

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Habibiandehkordi R, Quinton J, Surridge B. Can industrial by-products enhance phosphorus retention within vegetated buffer strips? European Journal of Soil Science. 2015 Jan;66(1):42-52. Epub 2014 Nov 3. doi: 10.1111/ejss.12196

Author

Habibiandehkordi, Reza ; Quinton, John ; Surridge, Ben. / Can industrial by-products enhance phosphorus retention within vegetated buffer strips?. In: European Journal of Soil Science. 2015 ; Vol. 66, No. 1. pp. 42-52.

Bibtex

@article{1c0f942e14a54d6ea067247041eddedc,
title = "Can industrial by-products enhance phosphorus retention within vegetated buffer strips?",
abstract = "Using industrial by-products (IBPs) in conjunction with vegetated buffer strips (VBSs) has the potential to be a cost-effective strategy for tackling phosphorus (P) export from agricultural land. Using an integrated mesocosm approach, we examined the effect of surface application of IBPs within VBSs on the removal of P fractions in surface and sub-surface flow. Artificial run-off was applied to VBSs (1.2 m long × 0.4 m wide, and 5% slope) that were amended with either 20 t ha−1 of Al-based water treatment residual (Al-WTR) or 20 t ha−1 of ochre, or remained as unamended controls. To explore the persistence of the effects of amendment over multiple run-off events, two 30-minute artificial run-off events (3 litre minute−1) were applied to the mesocosms over a period of five days. When compared with inflow concentrations, the unamended VBSs reduced total P (37–54%) and particulate P (61–64%) concentrations in surface run-off, but increased soluble reactive P (SRP) (5–9%) and total dissolved P concentrations (4–8%). Enhancing VBSs with IBPs improved retention of soluble P fractions in surface run-off, for example, 61–62 and 15–19% of the SRP in the inflow was retained in VBSs amended with Al-WTR and ochre, respectively. Surface application of either ochre or Al-WTR also reduced the concentrations of soluble P fractions in sub-surface flow. The magnitude of these effects depended on inflow P concentrations. Unlike Al-WTR, the effectiveness of ochre gradually declined over the duration of each run-off event because of erosion of ochre by run-off.",
author = "Reza Habibiandehkordi and John Quinton and Ben Surridge",
year = "2015",
month = jan,
doi = "10.1111/ejss.12196",
language = "English",
volume = "66",
pages = "42--52",
journal = "European Journal of Soil Science",
issn = "1351-0754",
publisher = "Wiley-Blackwell",
number = "1",

}

RIS

TY - JOUR

T1 - Can industrial by-products enhance phosphorus retention within vegetated buffer strips?

AU - Habibiandehkordi, Reza

AU - Quinton, John

AU - Surridge, Ben

PY - 2015/1

Y1 - 2015/1

N2 - Using industrial by-products (IBPs) in conjunction with vegetated buffer strips (VBSs) has the potential to be a cost-effective strategy for tackling phosphorus (P) export from agricultural land. Using an integrated mesocosm approach, we examined the effect of surface application of IBPs within VBSs on the removal of P fractions in surface and sub-surface flow. Artificial run-off was applied to VBSs (1.2 m long × 0.4 m wide, and 5% slope) that were amended with either 20 t ha−1 of Al-based water treatment residual (Al-WTR) or 20 t ha−1 of ochre, or remained as unamended controls. To explore the persistence of the effects of amendment over multiple run-off events, two 30-minute artificial run-off events (3 litre minute−1) were applied to the mesocosms over a period of five days. When compared with inflow concentrations, the unamended VBSs reduced total P (37–54%) and particulate P (61–64%) concentrations in surface run-off, but increased soluble reactive P (SRP) (5–9%) and total dissolved P concentrations (4–8%). Enhancing VBSs with IBPs improved retention of soluble P fractions in surface run-off, for example, 61–62 and 15–19% of the SRP in the inflow was retained in VBSs amended with Al-WTR and ochre, respectively. Surface application of either ochre or Al-WTR also reduced the concentrations of soluble P fractions in sub-surface flow. The magnitude of these effects depended on inflow P concentrations. Unlike Al-WTR, the effectiveness of ochre gradually declined over the duration of each run-off event because of erosion of ochre by run-off.

AB - Using industrial by-products (IBPs) in conjunction with vegetated buffer strips (VBSs) has the potential to be a cost-effective strategy for tackling phosphorus (P) export from agricultural land. Using an integrated mesocosm approach, we examined the effect of surface application of IBPs within VBSs on the removal of P fractions in surface and sub-surface flow. Artificial run-off was applied to VBSs (1.2 m long × 0.4 m wide, and 5% slope) that were amended with either 20 t ha−1 of Al-based water treatment residual (Al-WTR) or 20 t ha−1 of ochre, or remained as unamended controls. To explore the persistence of the effects of amendment over multiple run-off events, two 30-minute artificial run-off events (3 litre minute−1) were applied to the mesocosms over a period of five days. When compared with inflow concentrations, the unamended VBSs reduced total P (37–54%) and particulate P (61–64%) concentrations in surface run-off, but increased soluble reactive P (SRP) (5–9%) and total dissolved P concentrations (4–8%). Enhancing VBSs with IBPs improved retention of soluble P fractions in surface run-off, for example, 61–62 and 15–19% of the SRP in the inflow was retained in VBSs amended with Al-WTR and ochre, respectively. Surface application of either ochre or Al-WTR also reduced the concentrations of soluble P fractions in sub-surface flow. The magnitude of these effects depended on inflow P concentrations. Unlike Al-WTR, the effectiveness of ochre gradually declined over the duration of each run-off event because of erosion of ochre by run-off.

U2 - 10.1111/ejss.12196

DO - 10.1111/ejss.12196

M3 - Journal article

VL - 66

SP - 42

EP - 52

JO - European Journal of Soil Science

JF - European Journal of Soil Science

SN - 1351-0754

IS - 1

ER -