Fertilising for yield and quality in sown grass pastures and forage crops
The Fertilising for yield and quality in grass pastures and forage crops: Scoping study investigated the feasibility of using strategic applications of nitrogen fertiliser in a range of scenarios to address pasture rundown and declining soil fertility.
Sown pasture rundown and declining soil fertility for forage crops are too serious to ignore with losses in beef production of up to 50% across Queensland. The feasibility of using strategic applications of nitrogen (N) fertiliser to address these losses was assessed by analysing a series of scenarios using data drawn from published studies, local fertiliser trials and expert opinion. While N fertilser can dramatically increase productivity (growth, feed quality and beef production gains of over 200% in some scenarios), the estimated economic benefits, derived from paddock level enterprise budgets for a fattening operation, were much more modest.
In the best-performing sown grass scenarios, average gross margins were doubled or tripled at the assumed fertiliser response rates, and internal rates of return of up to 11% were achieved. Using fertiliser on forage sorghum or oats was a much less attractive option and, under the paddock level analysis and assumptions used, forages struggled to be profitable even on fertile sites with no fertiliser input. The economics of nitrogen fertilising on grass pasture were sensitive to the assumed response rates in both pasture growth and liveweight gain. Consequently, targeted research is proposed to re-assess the responses used in this analysis, which are largely based on research 25-40 years ago when soils were generally more fertile and pastures less rundown.
When: 15 May 2013 to 17 August 2014
Contacts: David Lawrence, Stuart Buck, Brian Johnson, Gavin Peck
Collaborator: Department of Agriculture and Fisheries
For more information please read the final report summary and download the final report (B.NBP.0768) (PDF, 3 MB) from the Meat & Livestock Australia website.