11 Dec 2012
Combined Australian & New Zealand Soils Conference
Copies of papers presented at the Hobart Meeting
Papers co-authored by Dr Norton and presented at the Joint Soil Science Australia and New Zealand Society of Soil Science Conference - "Soil solutions for diverse landscapes".
Edis R, Norton R, and Dassanayake K. 2012. Soil nutrient budgets of Australian natural resource management regions. In: Proceedings of the 5th Joint Australian and New Zealand Soil Science Conference: Soil solutions for diverse landscapes. Hobart. (Eds LL Burkitt and LA Sparrow). p 11. (Australian Society of Soil Science Inc.)
Lam SK, D Chen, R Norton, R Armstrong, A Mosier, 2012. More nitrogen may be required for future grain production systems: A meta-analysis on the effect of elevated [CO2] on nitrogen dynamics. In: Proceedings of the 5th Joint Australian and New Zealand Soil Science Conference: Soil solutions for diverse landscapes. Hobart. (Eds LL Burkitt and LA Sparrow). p 442-445. (Australian Society of Soil Science Inc.)
Khan MT, R Norton, C Walker, R Edis, D Chen, HC Suter, 2012. Comparative effects of urea plus gypsum and urea plus ammonium sulphate on growth, yield and nutrition in canola cropping system in calcarosol of south-eastern Australia. In: Proceedings of the 5th Joint Australian and New Zealand Soil Science Conference: Soil solutions for diverse landscapes. Hobart. (Eds LL Burkitt and LA Sparrow). p 480. (Australian Society of Soil Science Inc.)
Lam SK, D Chen, R Norton, R Armstrong, A Mosier, 2012. The availability of residual legume and fertilizer nitrogen to a subsequent wheat crop under elevated CO2 concentration. In: Proceedings of the 5th Joint Australian and New Zealand Soil Science Conference: Soil solutions for diverse landscapes. Hobart. (Eds LL Burkitt and LA Sparrow). p 471-474. (Australian Society of Soil Science Inc.)
Additional Resources
Soil Nutrient BudgetsSize: 0.09 MB
Nitrogen demand under high carbon dioxideSize: 0.19 MB
Urea +gypsum versus ammonium sulfate on canolaSize: 0.12 MB
N residual availability under high carbon dioxideSize: 0.22 MB