A national research program examining enhanced efficiency fertilisers will aim to give Australian grain growers the tools to improve nitrogen use efficiency and reduce on-farm greenhouse gas (GHG) emissions.
Enhanced efficiency fertilisers (EEFs) use chemical or physical approaches to regulate the release of nitrogen and its availability to plants. They aim to reduce the risk of nitrogen loss by better synchronising the supply of fertiliser to the demands of the crop.
The University of Melbourne will lead the four-year, $17.33 million project, which is an investment of the Grains Research and Development Corporation (GRDC), in partnership with multiple research organisations and industry partners including CSBP Limited, Incitec Pivot Fertilisers, Nutrien Ag Solutions, N-Shield and Fertiliser Australia.
Project lead Associate Professor Helen Suter from the University of Melbourne said a number of EEF technologies are commercially available but relatively little is known about their efficacy in different climates and agroecosystems, and their economic and environmental benefits to the grains industry.
"Growers are looking for recommendations of what technologies work where, when, why and how, to make informed decisions about their nitrogen management strategies," Associate Professor Suter said.
"The project will establish a network of field trials across Australia in representative soils and cropping systems, where commercially available EEF technologies will be evaluated alongside conventional nitrogen fertilisers.
"These technologies include urease inhibitors (to reduce ammonia loss), nitrification inhibitors (to reduce nitrous oxide, nitrogen and leaching loss), dual (urease and nitrification) inhibitors and controlled release fertilisers (both targeting all loss pathways)."
GRDC Managing Director Nigel Hart said the strategic investment had been developed in response to grain grower needs with managing input costs and sustainability front of mind for the industry.
"As an organisation investing on behalf of Australian grain growers, we are keenly aware of the pressures our sector is facing from high input costs, particularly for nitrogen. There is a very real need to ensure we are using the most efficient fertilisers in the most efficient way," Mr Hart said.
"This research led by our partners at the University of Melbourne is critically important with the increasing need to understand and reduce emissions where we can as part of the long-term sustainability goals of farming operations and Australian agriculture more broadly."
Controlled-environment studies will complement the field-based activities, allowing a mechanistic understanding of soil nitrogen cycling and loss pathways, and will support modelling activities aimed at quantifying the environmental impact and potential nitrogen use efficiency gains associated with the use of EEFs across the grains industry.
The EEFs trialled will target key nitrogen loss mechanisms (denitrification, nitrate leaching, volatilisation) in different cropping regions and quantify crop nitrogen uptake to determine nitrogen use efficiency and return on investment.
This will be achieved using nitrogen-15 stable isotope labelled fertilisers, allowing the fate of fertilisers to be tracked in soils and plants.
GRDC sustainable cropping systems manager Cristina Martinez said EEFs had been raised across several GRDC National Grower Network (NGN) forums, particularly in Western Australia, and were front-of-mind for many growers given increasing sustainability requirements.
"Enhanced efficiency fertilisers are a potential option for reducing on-farm GHG emissions while also improving nitrogen use efficiency," Dr Martinez said.
"There are a few reasons for their low adoption amongst grain growers, which include higher cost – relative to standard fertiliser products – and uncertainty about how they behave and perform in the field and the return on investment they provide.
"This GRDC investment will demonstrate the effectiveness of these alternative fertiliser technologies within the grains industry and provide growers with clear recommendations regarding which technologies will perform best in their production systems to maximise return on investment."
Project research partners include the University of Melbourne, Department of Primary Industries and Regional Development Western Australia, University of Queensland, New South Wales Department of Primary Industries, CSIRO, Queensland Department of Environment and Science, Queensland University of Technology, La Trobe University, Birchip Cropping Group and Hart Field Site Group.
