More money from mungbeans with nitrogen


New trial data is confirming that nitrogen can improve the performance of mungbean crops for growers seeking to maximise yields and returns.

Download this article

The surprising results come from Incitec Pivot Fertilisers’ long-term nutrition experiment at ‘Colonsay’ in southern Queensland and suggest that nitrogen fixation from inoculation may not be adequate or reliable, especially in late planted crops.

Lead researcher for the site, Bede O’Mara from Incitec Pivot Fertilisers, presented the results to growers at a field day earlier this month.

He suggested that growers consider applying up to 80 kg/ha of nitrogen pre-plant to ensure that the fast-growing crop has access to enough nitrogen to reach its yield potential.

The trial compared three rates of nitrogen applied mid-winter last year to the rhizobia inoculated mungbean crop sown on 1 January 2017 and harvested on 1 May 2017.

Mean grain yields jumped by significant margins with increases in nitrogen fertiliser, starting from 1.52 t/ha where no nitrogen fertiliser was added.

The crop yielded 1.85 t/ha where 40 kg/ha of nitrogen was applied and 2.14 t/ha where 80 kg/ha of nitrogen was applied.

Mr O’Mara said the highest returns net of fertiliser cost were achieved at this 80 kg/ha of nitrogen rate, calculated to be $1,714/ha. Returns were calculated based on urea delivered bulk on farm for $0.97/kg of nitrogen, triple superphosphate delivered bulk on farm for $2.71/kg of phosphorous and a gross receival price of $900/t for mungbeans.

“This was despite up to 20% of the harvested grain being graded out and the remainder achieving the lower manufacturing grade, largely due to weather damage from extreme heat and from downpours caused by ex-tropical cyclone Debbie,” he said. “Sadly, this was also the case for many commercial crops in 2017.”

The highest mean grain yield of 2.2 t/ha was achieved when 120 kg/ha of nitrogen was applied.

With the possibility of prices remaining high for good quality mungbeans, Mr O’Mara said growers were turning over thousands of hectares to the crop, making it the pillar crop in many summer grain rotations.

“Growers have every reason to invest in the success of their mungbean crops by supplying the nitrogen required to optimise yield in a good season and achieve the best possible returns,” he said.

Mr O’Mara said deep soil nitrogen testing can help determine whether a pre-plant nitrogen application is needed to support mungbean crop growth and yields.

The mungbeans in the trial had access to some nitrogen from background soil supplies, with estimated starting soil nitrogen levels ranging from 26 to more than 300 kg/ha of nitrogen.

“This was only revealed by soil testing well in advance of planting,” he said.

“Nitrogen deficiency symptoms in the nil treatments were only visually obvious at or after budding, which is too late for in-crop nitrogen applications to be effective.”

Based on the trial data, he said that 250 kg/ha or more of total soil and fertiliser-supplied nitrogen may be required to maximise yields in favourable seasons.

“The only problem for growers today is that any nitrogen applied to paddocks right now or at planting will need additional rainfall and more time than we have to move down into the root zone where it can be best utilised by the crop,” he said.

“For this season, growers may have the opportunity to make a late switch to mungbeans in paddocks originally set up with pre-plant nitrogen for other summer crops, if it is likely to provide a better return on the nitrogen investment.”

Mr O’Mara said post-harvest grain testing was conducted as part of the experiment.

“Grain tests showed nitrogen removal exceeded supply, even where 80 kg/ha of nitrogen was applied,” he said.

“The 80 kg/ha of nitrogen treatment removed 113 kg/ha of nitrogen, which equates to 45.5 kg of nitrogen for every tonne of grain harvested.

“We would ordinarily expect significant amounts of nitrogen to be fixed by a healthy inoculated mungbean crop, but the rhizobia may have slowed in function or died when exposed to the high temperatures. If this happened, the crop wouldn’t have fixed any or much nitrogen.”

The crop was planted late due to a dry spring and early summer.

In other results from the experiment, ENTEC urea showed some potential for improving yields.

ENTEC urea is used to stabilise ammonium in the soil, preventing the rapid conversion of ammonium to nitrate nitrogen.

"This helps to minimise the potential for losses following application through leaching and denitrification, and we certainly experienced some wetter periods through late winter and early spring in 2016 after the pre-plant applications,” he explained.

“It looks like using ENTEC urea may have allowed more of the nitrogen applied to be retained in the soil and available to the crop, as it significantly increased yields in the 40 kg/ha of nitrogen treatment compared with untreated urea.”

The comparison of urea with ENTEC urea has been a sub-treatment within the long-term experiment since 2013, providing short and long-term information about the effects of the enhanced efficiency fertiliser.

Incitec Pivot Fertilisers intends to further investigate into the effects of nitrogen and the use of ENTEC urea and urea in all crops grown under the experiment.

In the meantime, Mr O’Mara is encouraging growers to consider giving their mungbean crops a flying start this season with an improved soil supply of nitrogen.

For more information, feel free to contact Bede directly on 0417 896 377 or


1 O’Mara, B. (2015) ‘Deep phosphorus soil testing on the Darling Downs: some data and a call to action for best practice’ GRDC Update papers, Goondiwindi.
2 Bell, M. and Guppy, C. (2014) ‘Crop Nutrition Fact Sheet – Northern Region – Soil Testing for Crop Nutrition’ GRDC Factsheet.
3 Bell, M., Lester, D., Power, B., Zull, A., Cox, H., McMullen, G. and Laycock, J. (2014) ‘A calculator to assess the economics of deep placement P over time’ GRDC Update papers, Goondiwindi
4 Cox, H. (2017) ‘New deep P tool calculates the benefits and payback for you’ GRDC (!/
5 Central Downs Grower Group (2015) ‘Deep phosphorus placement case study – Integrating research into Darling Downs farming systems’ GRDC Update papers, Jondaryan.
6 Bell, M and Lester, D. (2016) ‘Phosphorus and potassium nutrition’ GRDC Update papers, Goondiwindi