Litcius/Paper detail

Carbon to nitrogen ratio and quantity of organic amendment interactively affect crop growth and soil mineral N retention

Maartje van der Sloot, David Kleijn, Gerlinde B. De Deyn, Juul Limpens

2022Crop and Environment78 citationsDOIOpen Access PDF

Abstract

Using organic amendments to improve arable soils in the long term is a careful balancing act of applying amendments with the right carbon to nitrogen ratio (C:N ratio) at adequate quantity to avoid nitrogen (N) leaching while promoting or retaining crop growth in the short term. So far, most studies examining the relationship between C:N ratio and N mineralization and immobilization were done without plants. In this study we explored how crop biomass and N leaching change with increasing C:N ratio and quantity of organic amendments to arable soil. We conducted an open-air mesocosm experiment with organic amendments application across a range in C:N ratio (10 to 60) and quantity (10 to 50 ton ha-1) to sandy arable soil using a full-factorial design. Spring wheat was planted and grown for six months during which three rainfall events were simulated to test treatment effects on N leaching. Applying amendments with a C:N ratio of 20 and higher decreased crop biomass and increased mineral soil N, while amendments with a C:N ratio of 10 had the opposite effect. Applying larger quantities of amendments reinforced the effect of the C:N ratio on crop biomass. N leaching remained unaffected by either amendment C:N ratio or quantity or even mineral fertilizer as N leaching only occurred in the control treatment without plants. Our results suggests that growing a crop is adequate to prevent N leaching. Applying organic amendments do not pose a different risk regarding N leaching when compared to mineral fertilizer and slurry.

Topics & Concepts

AmendmentLeaching (pedology)AgronomyArable landNitrogenEnvironmental scienceSoil carbonMineralization (soil science)Soil conditionerFertilizerSoil waterCrop yieldChemistrySoil scienceBiologyAgricultureEcologyPolitical scienceOrganic chemistryLawSoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsPlant nutrient uptake and metabolism