Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systems

Fayong Li; Xinqiang Liang; Hua Li; Yingbin Jin; Junwei Jin; Miaomiao He; Erwin Klumpp; Roland Bol

doi:10.1186/s12302-020-0299-5

Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systems

Fayong Li
, Xinqiang Liang
, Hua Li
, Yingbin Jin
, Junwei Jin
, Miaomiao He
, Erwin Klumpp
, Roland Bol

School of Environmental & Natural Sciences

Research output: Contribution to journal › Article › peer-review

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Abstract

Colloid-facilitated phosphorus (P) transport is recognized as an important pathway for the loss of soil P in agricultural systems; however, information regarding soil aggregate-associated colloidal P (Pcoll) is lacking. To elucidate the effects of aggregate size on the potential loss of Pcoll in agricultural systems, soils (0–20 cm depth) from six land-use types were sampled in the Zhejiang Province in the Yangtze River Delta region, China. The aggregate size fractions (2–8 mm, 0.26–2 mm, 0.053–0.26 mm and < 0.053 mm) were separated using the wet sieving method. Colloidal P and other soil parameters in aggregates were analyzed.

Original language	English
Article number	17
Journal	Environmental Sciences Europe
Volume	32
Issue number	1
DOIs	https://doi.org/10.1186/s12302-020-0299-5
Publication status	Published - 10 Feb 2020

Keywords

Soil aggregate
Colloidal phosphorus
pH
Geometric mean diameter
Loss of phosphorus

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1186/s12302-020-0299-5Licence: CC BY

2020 Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systemsFinal published version, 1.21 MBLicence: CC BY

Cite this

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title = "Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systems",

abstract = "Colloid-facilitated phosphorus (P) transport is recognized as an important pathway for the loss of soil P in agricultural systems; however, information regarding soil aggregate-associated colloidal P (Pcoll) is lacking. To elucidate the effects of aggregate size on the potential loss of Pcoll in agricultural systems, soils (0–20 cm depth) from six land-use types were sampled in the Zhejiang Province in the Yangtze River Delta region, China. The aggregate size fractions (2–8 mm, 0.26–2 mm, 0.053–0.26 mm and < 0.053 mm) were separated using the wet sieving method. Colloidal P and other soil parameters in aggregates were analyzed.",

keywords = "Soil aggregate, Colloidal phosphorus, pH, Geometric mean diameter, Loss of phosphorus",

author = "Fayong Li and Xinqiang Liang and Hua Li and Yingbin Jin and Junwei Jin and Miaomiao He and Erwin Klumpp and Roland Bol",

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T1 - Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systems

AU - Li, Fayong

AU - Liang, Xinqiang

AU - Li, Hua

AU - Jin, Yingbin

AU - Jin, Junwei

AU - He, Miaomiao

AU - Klumpp, Erwin

AU - Bol, Roland

PY - 2020/2/10

Y1 - 2020/2/10

N2 - Colloid-facilitated phosphorus (P) transport is recognized as an important pathway for the loss of soil P in agricultural systems; however, information regarding soil aggregate-associated colloidal P (Pcoll) is lacking. To elucidate the effects of aggregate size on the potential loss of Pcoll in agricultural systems, soils (0–20 cm depth) from six land-use types were sampled in the Zhejiang Province in the Yangtze River Delta region, China. The aggregate size fractions (2–8 mm, 0.26–2 mm, 0.053–0.26 mm and < 0.053 mm) were separated using the wet sieving method. Colloidal P and other soil parameters in aggregates were analyzed.

AB - Colloid-facilitated phosphorus (P) transport is recognized as an important pathway for the loss of soil P in agricultural systems; however, information regarding soil aggregate-associated colloidal P (Pcoll) is lacking. To elucidate the effects of aggregate size on the potential loss of Pcoll in agricultural systems, soils (0–20 cm depth) from six land-use types were sampled in the Zhejiang Province in the Yangtze River Delta region, China. The aggregate size fractions (2–8 mm, 0.26–2 mm, 0.053–0.26 mm and < 0.053 mm) were separated using the wet sieving method. Colloidal P and other soil parameters in aggregates were analyzed.

KW - Soil aggregate

KW - Colloidal phosphorus

KW - pH

KW - Geometric mean diameter

KW - Loss of phosphorus

U2 - 10.1186/s12302-020-0299-5

DO - 10.1186/s12302-020-0299-5

M3 - Article

SN - 2190-4707

VL - 32

JO - Environmental Sciences Europe

JF - Environmental Sciences Europe

IS - 1

M1 - 17

ER -

Enhanced soil aggregate stability limits colloidal phosphorus loss potentials in agricultural systems

Abstract

Keywords

UN SDGs

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