Litcius/Paper detail

Upper limits to sustainable organic wheat yields

Thomas Döring, Daniel Neuhoff

2021Scientific Reports20 citationsDOIOpen Access PDF

Abstract

Abstract Current use of mineral nitrogen (N) fertilizers is unsustainable because of its high fossil energy requirements and a considerable enrichment of the biosphere with reactive N. Biological nitrogen fixation (BNF) from leguminous crops is the most important renewable primary N source, especially in organic farming. However, it remains unclear to which degree BNF can sustainably replace mineral N, overcome the organic to conventional (O:C) yield gap and contribute to food security. Using an agronomic modelling approach, we show that in high-yielding areas farming systems exclusively based on BNF are unlikely to sustainably reach yield levels of mineral-N based systems. For a high reference wheat yield (7.5 t ha −1 ) and a realistic proportion of fodder legumes in the rotation (33%) even optimistic levels of BNF (282 kg N ha −1 ), resulted in an O:C ratio far below parity (0.62). Various constraints limit the agricultural use of BNF, such as arable land available for legumes and highly variable performance under on-farm conditions. Reducing the O:C yield gap through legumes will require BNF performance to be increased and N losses to be minimised, yet our results show that limits to the productivity of legume-based farming systems will still remain inevitable.

Topics & Concepts

Arable landOrganic farmingAgricultureSustainabilityEnvironmental scienceAgronomyFodderYield (engineering)AgroforestryCroppingFood securityBiologyEcologyMaterials scienceMetallurgyAgronomic Practices and Intercropping SystemsSoil Carbon and Nitrogen DynamicsLegume Nitrogen Fixing Symbiosis