Compost Legacy Down‐Regulates Biological Nitrogen Fixation in a Long‐Term Field Experiment

Abstract

Core Ideas Compost‐based management enhanced soil organic matter in a Michigan Alfisol. Nitrogen fixation rates in soybean and red clover varied with management history. Weather markedly influenced the quantity of N fixed in three crop systems. Soil labile pool influence on N fixation can act as an internal regulator. Biological nitrogen fixation (BNF) is a fundamental process relied on in agriculture, yet few field studies have examined regulation through soil inorganic N feedbacks or considered seasonal effects. In a Michigan long‐term field experiment we examined soil labile C and N pools and impact on BNF in two species, over multiple years. The 15N natural abundance method was used to quantify BNF, with nodulated and non‐nodulated soybean [Glycine max (L.) Merr.] isolines and red clover (Trifolium pratense L.). Soil organic C status of plots was consistent with a gradient established through historical inputs: 0.8% (fertilizer management) to 0.9% (+ cover crop) to 1.2% (+ compost + cover crop). The fraction of nitrogen derived from atmosphere (fNdfa) in red clover and soybean over 3 yr was 61 to 58% with compost management, and 71 to 72% with fertilizer. This represented a downregulation of 19% (red clover) and 15% (soybean) in compost and cover crop managed plots, relative to inorganic fertilizer. In addition to management effects, we found that weather markedly influenced the total amount of N fixation over the 3 yr of the study. A mesic season supported vigorous soybean growth and 195 kg N ha−1 BNF, compared to 95 and 90 kg N ha−1 BNF in a dry and an excessively wet season. This study found that compost‐based management increased pools of labile C and N that internally downregulated BNF, while enhancing soybean yield compared to conventional management.