Soil phosphorus forms along a strong nutrient gradient in a tropical ombrotrophic wetland

Journal Publication ResearchOnline@JCU
Cheesman, Alexander W.;Turner, Benjamin L.;Reddy, K. Ramesh
Abstract

Phosphorus cycling influences productivity and diversity in tropical wetlands, yet little is known about the forms of P found in the accreting organic matter of these ecosystems. We used alkaline (NaOH-ethylenediamine tetraacetic acid [EDTA]) extraction and solution P-31 nuclear magnetic resonance (NMR) spectroscopy to characterize P in surface soils across a strong nutrient gradient within a tropical ombrotrophic peat dome. From the interior bog plain to the marginal Raphia taedigera swamp, total soil P increased from 14.6 to 70.9 g m(-3) and resin-extractable P from 0.1 to 30 mg kg(-1). Phosphatase activity declined across the same transect (364-46 mu mol methylumbelliferone kg(-1) min(-1)), indicating an increase in P availability toward the periphery of the wetland. Organic P identified by solution 31P NMR spectroscopy included phosphomonoesters (12-17%), phosphodiesters (10-14%), and phosphonates (up to 3.3% of total P). Inositol phosphates were not detected in these acidic peats. Inorganic P forms included orthophosphate (9-25% of total P), pyrophosphate (up to 3%), and long-chain polyphosphates; the latter occurred in concentrations (up to 24% of total soil P) considerably higher than previously found in wetland soils. The concentration of residual (unextractable) P was similar among sites (mean 280 mg kg(-1)), resulting in an increase in its proportion of the total soil P from 29% at the P-rich margins to 55% at the P-poor interior. This is the first information on the P composition of tropical wetland soils and provides a basis for further study of the cycling and contribution of P forms to the nutrition of plants and microorganisms.

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76

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1435-0661

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4

Pages Count

11

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Soil Science Society of America

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DOI

10.2136/sssaj2011.0365