Organic phosphorus in solutions and leachates from soils treated with animal slurries

Organic phosphorus in solutions and leachates from soils treated with animal slurries

A substantial part of the total phosphorus (P) in soil solution and leachates can be present as dissolved organic phosphorus (DOP). The DOP may be more mobile than inorganic orthophosphate and thus it can be an important P source for surface water eutrophication. This paper describes a series of fou...

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Bibliographic Details
Published in:Journal of environmental quality Vol. 26; no. 2; pp. 372 - 378
Main Authors: Chardon, W. J., Oenema, O., Castilho, P., Vriesema, R., Japenga, J., Blaauw, D.
Format: Journal Article
Language:English
Published: Madison, WI American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America 01-03-1997
Crop Science Society of America
American Society of Agronomy
Subjects:
Animal manures
bodem
Bodemfysica
derivaten
derivatives
dierlijke meststoffen
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
fosfaten
fosforo
fosforpentoxide
Leachates
leaching
lessivat
lixiviados
Organic phosphorus
phosphates
phosphore
phosphorus
phosphorus pentoxide
Pollution, environment geology
Slurries
soil
Soil Physics
Soil treatment
Soils
sol
solucion
solution
solutions
suelo
Surficial geology
uitspoelen
fractionation
lysimeters
eutrophication
agricultural waste
colloidal materials
concentration
leaching
nitrates
pollution
surface water
depth
solution
chromatography
organic materials
dissolved materials
leachate
soils
phosphorus
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Summary:A substantial part of the total phosphorus (P) in soil solution and leachates can be present as dissolved organic phosphorus (DOP). The DOP may be more mobile than inorganic orthophosphate and thus it can be an important P source for surface water eutrophication. This paper describes a series of four experiments that investigated the effects of animal waste application to sandy soil on DOP leaching. The first experiment examined the effect of storing pig slurry on DOP fractionation, using gel permeation chromatography. Experiment two and three examined the immediate and long-term effects of animal waste application to soil in laboratory columns and outdoor maize-grown lysimeters, respectively. In the fourth experiment concentrations of DOP and total P (TP) in soil solutions at various depths were determined in a long-term field experiment. Results indicate that DOP in pig slurry is mainly found in high molecular weight (MW) compounds (Exp. 1). From the soil column more than 90%, and from the lysimeters more than 70% of TP leached as DOP (Exp. 2 and 3). In the lysimeter experiment (Exp. 3), leaching of TP mainly occurred in periods of low Cl and NO3 concentrations, induced by high leaching rates. This may indicate that P transport in these periods was mediated by DOC or other colloidal particles. The field experiment (Exp. 4), showed that DOP as a percentage of TP in the soil solution increased from about 10% in the topsoil to more than 70% at 70 to 80 cm depth, which was mainly due to a decrease in MRP. Thus, DOP is an important form of P in leachates and in soil solutions in the subsoil, and characterization of this DOP can improve our understanding of P leaching from soils.
Bibliography:T
T01
ISSN:0047-2425
1537-2537
DOI:10.2134/jeq1997.00472425002600020006x