Phosphate Sorption Characteristics of European Alpine Soils

Phosphate Sorption Characteristics of European Alpine Soils

We evaluated the chemical properties controlling phosphate (PO4–P) sorption characteristics of alpine soils at elevations of 1725 to 2900 m above sea level in four European mountain ranges (the Tatra Mountains, Slovakia and Poland; the Alps, Austria; the Pyrenees, Spain and France; and the Rila Moun...

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Bibliographic Details
Published in:Soil Science Society of America journal Vol. 75; no. 3; pp. 862 - 870
Main Authors: Kaňa, Jiří, Kopacek, Jiri, Camarero, Lluis, Garcia-Pausas, Jordi
Format: Journal Article
Language:English
Published: Madison, WI Soil Science Society of America 01-05-2011
The Soil Science Society of America, Inc
American Society of Agronomy
Subjects:
acid soils
Acidic soils
Adsorption
Agronomy. Soil science and plant productions
Aluminum
Biological and medical sciences
Chemical properties
Chemistry
Earth sciences
Earth, ocean, space
Exact sciences and technology
Forest soils
Fundamental and applied biological sciences. Psychology
iron
mineral soils
Mountain regions
Mountains
organic horizons
Organic soils
potassium dihydrogen phosphate
Soil horizons
Soil pH
Soil science
Soils
Sorption
sorption isotherms
Surficial geology
Vegetation
Water quality
Europe
mountains
Characteristics
phosphates
Phosphorus compound
Soil science
Physical environment
Earth science
sorption
Mountain soils
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Summary:We evaluated the chemical properties controlling phosphate (PO4–P) sorption characteristics of alpine soils at elevations of 1725 to 2900 m above sea level in four European mountain ranges (the Tatra Mountains, Slovakia and Poland; the Alps, Austria; the Pyrenees, Spain and France; and the Rila Mountains, Bulgaria). PO4–P sorption isotherms were determined, ranging in concentration from 0 to 6.5 mM KH2PO4 at original soil pH, and were evaluated using the Langmuir equation. PO4–P sorption maxima (Xmax) varied from 6 to 145 mmol kg−1 in the dry (105°C) fine soil fraction (<2 mm). Concentrations of Al oxohydroxides, determined as oxalate extractable aluminum (Alo), ranged between 36 and 770 mmol kg−1, and were the dominant parameter affecting the soil's ability to adsorb PO4–P. In the Tatra Mountains, Rila, and Alps, oxalate-extractable iron (Feo) was also important, while in the Pyrenees we found a significant correlation (p < 0.01) between Xmax and total organic C concentrations. The ability of Al and Fe oxohydroxides to adsorb PO4–P was higher in areas with more acidic soils (the Tatra Mountains) than in areas with higher soil pH (the Pyrenees), and in the more acidic uppermost organic soil horizons than in mineral soil horizons. A simple model based only on two basic soil characteristics (Alo and pH) explained 81 to 89% of the Xmax variability observed in individual mountain areas and 74% of the Xmax variability associated with all samples.
Bibliography:http://dx.doi.org/10.2136/sssaj2010.0259
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ISSN:0361-5995
1435-0661
DOI:10.2136/sssaj2010.0259