An integrated approach to a Nitrogen Use Efficiency indicator along the food chain Jan Willem Erisman Louis Bolk Institute, the Netherlands, Member EU Nitrogen Expert Panel With contributions from: Albert Bleeker, Jim Galloway, Brooke Atwell & Alley Leach
Outline Why nitrogen? Why a Nitrogen Use Efficiency indicator for the food chain? Changes in food and protein consumption Definition and examples of NUE Potential interventions Next steps
Food production contributes to the exceedance of Planetary boundaries
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Rockstrรถm et al. 2009
Erisman et al. (2015) 07/04/15
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The Nitrogen Dilemma Benefits: • Necessary for life • Synthetic nitrogen fertilizer supports food supply
Drawbacks: • Excess reactive nitrogen negatively affects environmental and human health
Challenge: Optimizing the use of nitrogen, while minimizing the negative impacts
Proposals for NUE targets Proposed an aspirational goal of 20% increase in crop NUE and full-chain NUE by 2020
Proposed a 30% increase in crop NUE by 2030, relative to current levels in countries with low efficiency
A full-chain Nitrogen Use Efficiency Indicator (NUE-FC) NUE has been proposed as an indicator for assessing progress in achieving the new Sustainable Development Goals A NUE indicator at farm level has been defined as the Noutput/N-input ratio. Criteria have been set for a ‘healthy NUE’ per system: on the ratio, a maximum output-input difference and a maximum input. A full food chain NUE provides an indicator for the efficiency of N from the production to the consumer and all the intermediate steps and couples production to consumption (diets)
Simple representation of the food chain
N creation N utilization (fertilizer, BNF) and recycling
N conservation N production N conservation N loss and N loss transport/energy and N loss
Why a NUE for the food chain? Help optimize nitrogen use in relation to diets Help reduce nitrogen losses in the food chain Identify areas for improvement Support policy development and evaluation (monitoring) Forms the basis for a labeling system and compare different products on ‘N-performance’ and raise public awareness Measure and improve systems
Changes in food and protein consumption: Processing American chicken sales 1961
1970
1980
1990
Whole carcass
85%
70
50
18
Retailed as parts
13
26
40
56
processing
3
4
10
26
1980: introduction of Chicken McNuggets
Smil, 2013
Changes in food and protein consumption: Supply chain Consumers
Retailers
Traders
Processors
Primary producers
Increased protein consumption
66% due to increase in population, 34% due to per capita increased consumption (Europe: 50-50)
Change in diets
Estimated increase in protein consumption for 2011 and 2050
Galloway et al. in prep.
Definition of NUE: output/input Biological N fixation
New N input Nitrogen Use Efficiency, NUE: NUE = N output/New N input New N input: - Fertilizer - BNF - Natural deposition N consumption (N output)
Some literature values Norway: 10% (Bleken and Bakken, 1997) Germany: 10% (Isermann and Isermann, 1998) USA: 15% and 5% animal protein (Howarth et al. 2002) East Asia: large range (Shindo et al. 2003; 2006) Global: 4-12% (Galloway and Cowling, 2002) Europe: 14% (Westhoek et al. 2014) China: 9% (Ma et al., 2012)
Nitrogen Use Efficiency in the whole food chain
Data: FAOSTAT
Data availability, NUE (EU N-flows)
Nitrogen Use Efficiency, NUE: NUE = N output/New N input NUE = 2,5/12 NUE = 21%
ENA, 2011; Westhoek et al. 2014)
Differences between member states
Uncorrected for import and export, BNF and for manure
Data availability, NUE (Dutch N-flows)
N in kton Blue = reasonable certain Purple = estimates or values resulting from the balance of the black box
NUE Netherlands Figure immediately shows the complexity of calculating NUE when the livestock cycle is included and food is heavily imported or exported The NUEFC in the Netherlands for 2005 was 17% for human consumption where the consumption was 70 Kton N in the Netherlands and 40 Kton net export and the total input includes fertilizer (280), import feed (350) and BNF (15) Food processing has an efficiency for human consumption of 48% Production of food products has an efficiency of 36%
Improved efficiency in the Netherlands
Alternative approaches N-Footprint: Life Cycle Analysis
Environmental Impact assessment N budget
A nitrogen footprint is the amount of reactive nitrogen released to the environment as a result of an entity’s resource consumption www.N-print.org
Usage: public awareness Goal:
Inform consumer choices with a clear and comprehensive environmental impact food label
Potential interventions: Aim for a larger share of vegetal protein
Improve NUE (farmer)
improve recycling improve recycling (processor) (retailer)
change diets (consumer)
improve recycling (consumer)
Next steps Link NUE at the farm scale to NUEFC Further develop methodology in relation to different steps in the food chain and different inputs, including import and export Better assess NUE for processing Data needs, accuracy and accessibility Show variation in NUEFC and its causes Demonstrate usage for policy development and monitor progress (examples)
Summary “EU NEUFC� The EU Nitrogen Expert Panel aims to contribute to improving NUE in food systems in Europe; The food chain is diverse and data availability is limited; There is a large variation in NUEFC in Europe; Two main parts can be distinguished: production and processing; There is great potential to use NUEFC to understand and improve the efficiency in the food chain; The challenge is to derive easy-to-use indicators for whole food systems (and also for farms) to help support policy development and monitor progress (e.g. SDGs).
Thank you for your attention! Jan Willem Erisman j.erisman@louisbolk.nl www.louisbolk.org