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NDICEA - A digital tool to model nutrient balances across a crop rotation (OK-Net Arable Practice abstract)

{Tool} NDICEA - A digital tool to model nutrient balances across a crop rotation (OK-Net Arable Practice abstract). Creator(s): Mullender, Samantha. Issuing Organisation(s): ORC - Organic Research Centre. OK-Net Arable Practice abstract, no. 014. (2018)

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Document available online at: https://orgprints.org/32609


Using NDICEA, farmers can identify where problems with nutrient loss/imbalance occur in their rotation. They can experiment with changes in rotation or management to find the most effective strategies to address nutrient imbalances and nutrient losses due to leaching.
Practical recommendation
• NDICEA is a freely available, computer-based nutrient budgeting tool developed by the Louis Bolk Institute in the Netherlands. It takes data on the crop rotation for an individual field rotation, alongside data on climate, soil properties and management practices (e.g. seed rates, fertiliser application, cultivation regimes etc.) to map changes in soil nutrients over the course of the rotation.
• Application of the tool on seven organic farms found that, of eight fields modelled, seven had negative organic nitrogen balances and five had negative phosphate and potassium balances. The only farm with positive levels for both minerals achieved this through applications of either compost (35 t per ha) or chicken manure (10 to 17 t per ha) for six (out of eight) years of the rotation.
• In all cases, many of the nutrients added to the fields were lost through leaching or harvest of the high fertility ley before being available to the commercial crop. This was especially the case where the ley was broken in autumn, leaving the soil susceptible to leaching and denitrification over winter. Breaking the ley in spring makes the nutrients available for the next crop rather than being lost by leaching or denitrification. This is true even for autumn cropping.
• The biggest improvements to nutrient balance resulted from changing tillage practices to a reduced-till or, ideally, no-till system. For several cases, this change alone was enough to result in positive nutrient and organic nitrogen balances. Leaving the straw behind had very little impact on nutrient balances but did in-crease organic matter. Increasing the yield of the grass-clover ley can also significantly improve organic nitrogen balances plus soil nutrient retention.
• Using digestate from anaerobic digestion could present an alternative to rock phosphate. In addition to supplying phosphate, digestate can add nitrates, potassium and organic matter to the soil.

EPrint Type:Practice tool
What problem does the tool address?:There is often an assumption that organically managed farms must maintain a neutral or positive nutrient balance. However, this is not always the case. Consequently, knowing the best way to address a negative nutrient balance can be a challenge.
What solution does the tool offer?:NDICEA allows farmers to model crop rotations at a field scale under a given management regime and observe the nutrient balance over their course.
Country:United Kingdom of Great Britain and Northern Ireland
Type of Practice Tool:Practice abstracts
Theme:Nutrient management
Keywords:diagnostic tool, nutrient management
Keywords:measuring instruments, nutrient management, monitoring and evaluation, crop rotation, farm management, digital technology
Agrovoc keywords:
arable farming
nutrient management
measuring instruments
monitoring and evaluation
crop rotation
farm management
digital technology
Subjects: Farming Systems > Farm nutrient management
Research affiliation: European Union > Horizon 2020 > OK-Net Arable > OK-Net-Arable Tools
European Union > Horizon 2020 > OK-Net Arable
International Organizations > International Federation of Organic Agriculture Movements IFOAM > IFOAM EU Group
UK > Organic Research Centre (ORC)
Horizon Europe or H2020 Grant Agreement Number:652654
Related Links:https://organic-farmknowledge.org/tool/32609, http://www.ndicea.nl/
Project ID:ofk
Deposited By: Basler, Andreas
ID Code:32609
Deposited On:01 Feb 2018 13:24
Last Modified:01 Aug 2022 14:43
Document Language:English

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