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Journal of Plant Nutrition Volume 31, 2008 - Issue 11
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Original Articles

Phosphorus Use-Efficiency by Cotton Grown in an Alkaline Soil as Determined Using 32Phosphorus and 33Phosphorus Radio-Isotopes

Christopher G. Dorahy Australian Cotton Cooperative Research Centre, Narrabri, Australia; CSIRO Plant Industry, Narrabri, New South Wales, Australia; School of Rural Science and Natural Resources, The University of New England, New South Wales, Australia
,
Ian J. Rochester Australian Cotton Cooperative Research Centre, Narrabri, Australia; CSIRO Plant Industry, Narrabri, New South Wales, Australia
,
Graeme J. Blair Australian Cotton Cooperative Research Centre, Narrabri, Australia; School of Rural Science and Natural Resources, The University of New England, New South Wales, Australia
&
A. Raymond Till School of Rural Science and Natural Resources, The University of New England, New South Wales, Australia
Pages 1877-1888 | Received 11 Jul 2007, Accepted 09 Jan 2008, Published online: 10 Oct 2008
 
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ABSTRACT

32Phosphorus (P) and 33P radioisotopes were used to identify the contribution of soil and fertilizer P sources to P uptake by cotton (Gossypium hirsutum L.) grown in an alkaline soil representative of those used for growing cotton in Australia. Phosphorus fertilizer application only increased P concentration in the plants during leaf expansion, but had no effect on biomass production, P uptake at later growth stages sampled, or lint yield. However, at flowering, more than 50% of the P taken up was derived from within the fertilized band of soil, even though recovery of the 45 kg P ha−1 applied was low (1.2–3.4%). Phosphorus fertilizer application did not increase lint yield of cotton in this soil. Although P fertilizer recovery was poor, P fertilizer remained in an available form throughout the experiment indicating that pre-plant applications can remain effective. However, they will only be beneficial when soil P is limiting to crop growth.

ACKNOWLEDGMENTS

This work was funded by the Australian Cotton Cooperative Research Centre (Project 5.3.1). Dr Nelly Blair, Kate Dorahy, Judi Kenny, Leanne Lisle, Greg Roberts and Dr Anthony Whitbread provided valuable technical assistance.

Notes

∗ = P < 0.05;—= not determined.

ALint yield (g container−1).

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