Forages for Reduced Nitrate Leaching
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4 min read
The DairyNZ-led programme, Forages for Reduced Nitrate Leaching (FRNL) studied ways to decrease nitrate leaching from various farming systems. One primary cause of nitrogen leaching is the urine patch in grazed pasture. Adjusting forages can tackle this issue by altering the amount of nitrogen in animal diets, which in turn affects nitrogen in their urine. Some effective methods include using specific pasture species, low nitrogen feed crops, and catch crops. Collaboration with the Overseer model ensures farmers can see the benefits and apply them effectively. The programme combined the expertise of multiple organisations, focusing on practical solutions and ensuring farmers' feedback shaped research.
What was the FRNL programme?
The DairyNZ-led programme Forages for Reduced Nitrate Leaching – a cross-sector approach (2013-2019) provided new scientific knowledge, tools and technologies for forage production that can amount to more than 20% reduction of nitrate leaching from dairy, arable, sheep and beef and mixed-farming systems.
Project status: completed
What impact did this project have?
The DairyNZ-led programme Forages for Reduced Nitrate Leaching – a cross-sector approach (2013-2019) provided new scientific knowledge, tools and technologies for forage production that can amount to more than 20% reduction of nitrate leaching from dairy, arable, sheep and beef and mixed-farming systems.
Key results and links to all scientific papers delivered in FRNL
How forages can reduce nitrate leaching
A urine patch is the primary source of nitrogen (N) leaching in grazed pasture and crop. Forages can reduce nitrate leaching by:
- reducing the amount of N in the diet, which reduces the amount of N excreted in urine
- reducing the N concentration of the urine, improving the utilisation of this N
- increasing plant N uptake from the soil before it drains away, by greater growth in the cool high-drainage season or by deeper root systems.
Key programme results
- Some pasture species, such as plantain and Italian ryegrass, can reduce nitrogen concentration of urine from animals and improve plant nitrogen uptake in the cooler season.
- Low nitrogen, high quality feed crops, such as fodder beet, maize and cereals, reduce urinary nitrogen excretion by animals.
- Catch crops, such as oats, reduce nitrate leaching when established early in the winter season, through the uptake of water and nitrogen. These crops also provide additional feed and may increase total annual dry matter production.
Diverse pasture, low-N crops and catch crops appeared to be practical options in many situations and were readily implemented on farm. Collaboration with Overseer ensures that these options will be reflected by the model, so that farmers can assess the benefits in their specific situation and how to adjust management to optimise their use. For the FRNL monitor farms, success of reducing modelled nitrate leaching varied, depending on what the farm was already doing, concurrent changes in management, soil type and climate.
Farmers and researchers talk about the benefits of their collaboration in the Forages for Reduced Nitrate Leaching Programme.
What we did
The Forages for Reduced Nitrate Leaching programme combined the expertise and resources of these monitor farms and three Crown Research Institutes (AgResearch, Plant & Food Research, Manaaki Whenua - Landcare Research), one university (Lincoln University), and two industry-good bodies (DairyNZ and the Foundation for Arable Research). The main funder of the programme was the Ministry of Business, Innovation and Employment (MBIE) with the six programme partners providing co-funding.
FRNL used a range of field trials, lysimeter studies and animal trials to define viable options. Collaboration with commercial farms, the FRNL monitor farms, ensured their applicability and adoptability. The farmers provided feedback throughout the programme, and research questions and experiments were adjusted accordingly. This flexibility in the programme proved to be a critical factor for its success.
The FRNL monitor farmers tested and demonstrated the researched mitigation options on farm. The use of plantain, fodder beet and catch crops did not appear to impact negatively on feed supply and farm profit. Modelling the farm systems showed year-to-year variation in nitrate leaching, and for some farms substantial improvements since the start of the programme. The monitor farmers’ questions and feedback directed the development of information to support implementing these options on farm.
FRNL and Overseer model
The Forages for Reduced Nitrate Leaching (FRNL) programme identified early on that having the effects of mitigation options reflected in the Overseer model would be an important outcome of the programme.
Led by AgResearch, research results were collated and proposals for model changes were made*. With the recent update of Overseer, the model will now reflect the effects of plantain’s plant composition on urine nitrogen excretion: less of the excreted nitrogen ends up in urine and urine patches have a lower nitrogen load due to a greater urine volume per animal per day. Depending on the proportion of plantain in the animals’ diet, this will reduce the N leached.
Further research underway
Further research on soil processes is underway in the Plantain Potency and Practice programme and may in the future result in further updates of the model to also reflect those effects. FRNL used the cultivar ‘Ceres Tonic’ in the various experiments. Other work suggested similar effects of ‘Agritonic’ but that differences between cultivars exist. More information can also be found on the Plantain page.
In some regions, farmers will need to report their Overseer nitrogen leaching number to regulators. These regulators will have their own requirements for providing evidence or auditing farm management. The choice of plantain cultivar may be one aspect these regulators will want to verify. Additionally, the percentage of plantain in the pasture will need to be entered in Overseer. DairyNZ developed an easy-to-use approach to assess plantain content.
Hover over the map below and click on the hotspots for more information on the monitor farms.
Inside Dairy and Technical Series articles
The power of combining field trials and modelling
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Media release
369 KB
Combining field trial data with simulation models can offer new insights into complex plant-soil interactions.
Tactical Use of Fertilizer Nitrogen
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Research paper
190 KB
Research paper (1978) on the incorporation of tactical N inputs into the general management and evidence gained from N fertilizer trials.
Farming for a lower footprint – what should we focus on? (Technical Series September 2019)
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Guide
234 KB
Research on mitigating greenhouse gases and nitrogen leaching - Do they reduce farms’ environmental footprints and improve profitability?
Plantain helping farmers to achieve environmental targets
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Media release
192 KB
Once considered a weed, a modern plantain cultivar is showing promise for reducing nitrate leaching and greenhouse gas emissions.
Technical Series April 2019: N Surplus Shows Performance Article
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Media release
2.9 MB
We’ll look at what N surplus is and how farmers can use it as part of a targeted nitrogen management plan to improve the farm’s performance.
Inside Dairy July 2018: Grassroots Science Article
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Media release
759 KB
An article relating to the FRNL programme and featuring Ngāi Tahu and Paritea was published in Inside Dairy July 2018.
Waikato Research Reveals Benefits Of Using Catch Crops
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Media release
1 MB
Using a catch crop can reduce a farm’s nutrient footprint and increase homegrown feed yield.
Getting Plantain into Your System
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Media release
463 KB
A review of the benefits and challenges around plantainn establishment and management.
Grazing Systems and Less N Leaching
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Media release
2.4 MB
Learn more about reducing nitrate leaching by adapting grazing systems to alternative plant species and cultivars.
Fodder beet – friend or foe?
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Media release
318 KB
This research investigates the proportion of fodder beet in the diet, and total diet composition and its role in animal performance, N excretion and animal health.
Best Irrigation Practice Saves Water and Grows More
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Media release
492 KB
Research on how to achieve efficient use of water and nutrients and protect New Zealand’s water quality, irrigation systems and management.
Meeting nitrogen leaching reductions while retaining a profitable system - a Selwyn catchment example (Technical Series October 2017)
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Guide
260 KB
Farmers in Canterbury are some of the first to face the challenge of reducing their nitrogen (N) losses, many to well below their current level.
Pasture species mixtures to reduce nitrogen leaching (Technical Series June 2017)
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Guide
424 KB
Mixed-species pastures (herb species added to grasses and white clover), can increase herbage production and reduce the risk of nitrogen leaching.
Forages to Reduce Urine Patch N Leaching
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Magazine
475 KB
Find out how the Forages for Reduced Nitrate Leaching (FRNL) programme is investigating livestock excreting urine and using forages to increase N uptake.
Forage systems to reduce nitrate leaching - November 2014
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Media release
117 KB
Canterbury farmers are participating in a research programme led by DairyNZ to develop profitable solutions that reduce nitrate leaching.
Forage systems to reduce nitrate leaching - October 2014
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Media release
439 KB
Key findings from the FRNL research project.
The following reports document the process to determine the required changes in the Overseer model, to reflect the plantain effect on reducing nitrogen leaching:
Integration report – evaluation of FRNL data against Overseer (April 2019)
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Guide
1 MB
This report outlines the findings from an evaluation of Overseer against experimental data.
Recommendations for implementation of plantain-based pasture in Overseer (Feb 2020)
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Guide
959 KB
The aim of this report is to describe the changes in Overseer required to build the known effects of plantain into the model.
Plantain sensitivity analysis (April 2020)
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Guide
2.2 MB
The aim of this report is to evaluate the effect of suggested Overseer model changes on nitrogen leaching estimates from plantain-rich pasture blocks.
Testing of the Overseer plantain block model (July 2020)
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Guide
1.7 MB
Evidence that the model has been correctly implemented by comparing actual results with expected results.
Additional Resources
Selwyn and Hinds - Meeting a Sustainable Future: Canlac – December 2018
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Guide
1.5 MB
Canlac Holdings is a 1370 cow, 335 effective ha farm located in the Selwyn catchment.
Additional links
Plantain overview
/feed/crops/plantain-overview/Plantain Potency and Practice
/research/science-projects/plantain-potency-and-practice/Assessing Plantain
/feed/crops/assessing-plantain/Evaluating Plantain Cultivar
/feed/crops/evaluating-plantain-cultivar/Fodder Beet overview
/feed/crops/fodder-beet-overview/Catch Crops
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