Phosphorus biogeochemistry across a precipitation gradient in grasslands of central North America

Soil P transformations and distribution studies under water limited conditions that characterize many grasslands may provide further insight into the importance of abiotic and biotic P controls within grass-dominated ecosystems. We assessed transformations between P pools across four sites spanning...

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Bibliographic Details
Published in:Journal of arid environments 2010-08, Vol.74 (8), p.954-961
Main Authors: Ippolito, J.A., Blecker, S.W., Freeman, C.L., McCulley, R.L., Blair, J.M., Kelly, E.F.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
biogeochemistry
Biological and medical sciences
Calcium carbonate
Ecosystems
fractionation
Fundamental and applied biological sciences. Psychology
General aspects
Grasses
Grassland ecosystems
grassland soils
Grasslands
Horizon
phosphorus
Phosphorus biogeochemistry
Precipitation
semiarid soils
Sequential phosphorus extraction
Soil (material)
soil chemical properties
soil nutrients
soil physical properties
Soil weathering
Steppes
Synecology
Terrestrial ecosystems
Transformations
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Summary:Soil P transformations and distribution studies under water limited conditions that characterize many grasslands may provide further insight into the importance of abiotic and biotic P controls within grass-dominated ecosystems. We assessed transformations between P pools across four sites spanning the shortgrass steppe, mixed grass prairie, and tallgrass prairie along a 400-mm precipitation gradient across the central Great Plains. Pedon total elemental and constituent mass balance analyses reflected a pattern of increased chemical weathering from the more arid shortgrass steppe to the more mesic tallgrass prairie. Soil surface A horizon P accumulation was likely related to increased biocycling and biological mining. Soluble P, a small fraction of total P in surface A horizons, was greatest at the mixed grass sites. The distribution of secondary soil P fractions across the gradient suggested decreasing Ca-bound P and increasing amounts of occluded P with increasing precipitation. Surface A horizons contained evidence of Ca-bound P in the absence of CaCO 3, while in subsurface horizons the Ca-bound P was associated with increasing CaCO 3 content. Calcium-bound P, which dominates in water-limited systems, forms under different sets of soil chemical conditions in different climatic regimes, demonstrating the importance of carbonate regulation of P in semi-arid ecosystems.
ISSN:0140-1963
1095-922X
DOI:10.1016/j.jaridenv.2010.01.003