Roberts, KDefforey, DTurner, BLCondron, LMPeek, SSilva, SKendall, CPaytan, A2018-05-142015-04-292015-112015-04-09Roberts, K., Defforey, D., Turner, B. L., Condron, L. M., Peek, S., Silva, S., . . . Paytan, A. (2015). Oxygen isotopes of phosphate and soil phosphorus cycling across a 6500year chronosequence under lowland temperate rainforest. Geoderma, 257, 14-21.0016-7061CM0GD (isidoc)https://hdl.handle.net/10182/9360Phosphorus (P) availability declines during ecosystem development due in part to chemical transformations of P in the soil. Here we report changes in soil P pools and the oxygen isotopic signature of inorganic phosphate (δ¹⁸Oₚ) in these pools over a 6500-year soil coastal dune chronosequence in a temperate humid environment. Total P declined from 384 to 129 mg P kg⁻¹ during the first few hundred years of pedogenesis, due mainly to the depletion of primary mineral P in the HCl-extractable pool. The δ¹⁸Oₚ of HCl-extractable inorganic P initially reflected the signature of the parent material, but shifted over time towards (but not reaching) isotopic equilibrium. In contrast, δ¹⁸Oₚ signatures of inorganic P extracted in water and NaHCO < inf > 3 < /inf > (approximately 9 and 39 mg P kg⁻¹, respectively) were variable but consistent with isotopic equilibrium with soil water. In the NaOH-extractable P pool, which doubled from 63 to 128 mg P kg⁻¹ in the early stages of pedogenesis and then gradually declined, the δ¹⁸Oₚ of the extracted inorganic P changed from equilibrium values early in the chronosequence to more depleted signatures in older soils, indicating greater rates of hydrolysis of labile organic P compounds such as DNA and increase involvement in P cycling as overall P availability declines through the sequence. In summary, this application of δ¹⁸Oₚ to a long-term soil chronosequence provides novel insight into P dynamics, indicating the importance of efficient recycling through tight uptake and mineralization in maintaining a stable bioavailable P pool during long-term ecosystem development.pp.14-21eng© 2015 Elsevier B.V. All rights reserved.phosphorussoil phosphorus cyclingJournal Article10.1016/j.geoderma.2015.04.010ANZSRC::0503 Soil Sciences1872-6259ANZSRC::4106 Soil sciences