The fresher the N the better is one of the findings of new research which shows available nitrogen from farm dairy effluent diminishes the longer the effluent is stored.
The study by AgResearch for Ballance Agri-Nutrients is part of their Clearview Innovations Primary Growth Partnership programme. It shows both timing and technique can increase the amount of nitrogen available to support plant growth when farm dairy effluent and manure are used as nutrient sources.
The research was carried out in the Waikato and confirmed earlier findings that the longer effluent is stored, the greater the nitrogen loss that can occur in storage.
Ballance Science Manager, Aaron Stafford, said that in one trial, farm dairy effluent stored for 81 days lost 61 per cent of its nitrogen content, primarily via ammonia volatilisation.
“Ammonia losses following application of effluent tend to be relatively low, typically less than 3 percent, with the liquid nature of the product enabling the nitrogen to move quickly into the soil which offers protection from ammonia loss. This suggests that for effluent, preventing nitrogen loss in storage is more important than losses on application to the land,” says Aaron.
“However, losses from surface applied fresh manure were much higher, in a range of 11-19 percent with the highest losses in spring and lowest in summer, due to the nitrogen being retained near the soil surface for longer. Farmers can work around this by cultivating the manure into the soil as part of an annual cropping fertility management programme. This will reduce these losses and ensure more nitrogen can be taken up by plants.”
Aaron says animal waste like manure and farm dairy effluent is a valuable source of nutrients, and farmers should be looking to maximise the value from this resource.
“It also makes sense to get the effluent out of storage and onto the ground as soon as possible. Apart from the higher nitrogen benefit delivered by fresher effluent, there is the added advantage of bringing pond levels down, especially closer to winter when irrigation to land can be stalled by wet conditions. The lower the pond level coming into winter, the better the safety net is for farmers when it comes to staying within resource consent requirements.”
Aaron says all effluent is a valuable resource for delivering nutrients cheaply, although older effluent may mean different response rates.
“In total, plants respond similarly to nitrogen regardless of whether it is applied in fertiliser or effluent, although response patterns may be different due to differences in immediate availability. Minimising the loss of nitrogen from effluent and manure enables the full nutrient value of these resources to be realised.”
But Aaron says as dairy farms shift to bigger effluent storage ponds and with the increased use of herd shelters and standoff pads to protect the environment, finding ways to minimise ammonia loss from effluent, both in storage and upon application, will bring more benefits to farmers by retaining more of the nutrient value of the effluent.
“For example, our study showed there is some promise in reducing ammonia losses from farm dairy effluent in storage by making the naturally alkaline effluent slightly acidic. This is worth further research to determine how practically this can be done. Our own work shows a single dose of acid is not sufficient and that light regular dosing may be the answer.
“While this is not work we intend to continue with, we are more than happy to share such findings as others may be interested in taking it further.”
He says that improving recycling and utilisation of nutrients within farms should be a long term focus for the industry. In an effort to help improve domestic nutrient recycling, Ballance has also previously investigated stripping nutrients out of waste products using certain clays.
While technically possible, it was not economically feasible but “we are always seeking new ideas that will benefit New Zealand farmers.”
This post reproduces a press release from Ballance Agri-Nutrients.