期刊
GEODERMA
卷 206, 期 -, 页码 101-111出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.geoderma.2013.04.024
关键词
Phosphate; Colloid facilitated transport; Nanoparticles; Sorption; Reaction conditions
类别
Colloid (typically <1 mu m) facilitated phosphorus (P) transport in agricultural soils has received much research attention in recent decades due to the possibility of a mobile solid form of P, which may increase P runoff in some soils. The existing literature reports inconsistent results of colloidal P release as a percentage of total P in soil solution, separated at operationally defined size definitions by various centrifugation and/or filtration methods. The amount of total soil P attributed to colloidal particles remarkably ranges from 0 to 95%. The cause of colloidal P release has been difficult to assess since their experimental/environmental conditions (e.g., soil type, pH) vary from study to study. The case study presented here aims to focus on three controllable reaction conditions: ionic strength (I), pH and added P concentration, to elucidate their effect on P colloid release. Our case study showed that these reaction conditions do not largely alter the release of colloidal P in Ultisols of the southeastern United States (mildly acidic native pH, low organic C). However, the availability of colloidal P was slightly enhanced at near neutral pH in high [P] or high I (0.1 M) solutions. We further discussed these reaction conditions in selected literature studies to better assess the occurrence of colloid facilitated P transport in a wide variety of soil types and conditions. (C) 2013 Elsevier B.V. All rights reserved.
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