Long-Term Integrated Nutrient Management in the Maize-Wheat Cropping System in Alluvial Soils of North-Western India: Influence on Soil Organic Carbon, Microbial Activity and Nutrient Status

Integrated nutrient management (INM) is a widely recognized tool to ensure sustainable crop productivity while preserving soil fertility. The addition of organic manures in soil has been evidenced to improve soil characteristics, in addition to improving nutrient availability. The soil samples, with five treatment combinations of chemical fertilizers with farmyard manure (FYM), were collected from a 17-year-old field experiment conducted at PAU, Ludhiana to investigate the effect of INM on the buildup of organic carbon (OC), microbial community, soil nutrient status and improvement in soil physical properties under the maize-wheat cropping system. The INM technique enhanced the OC content (0.44 to 0.66%), available N (152.8 to 164.9 kg ha(-1)), P (22.8 to 31.4 kg ha(-1)) and K (140.6 to 168.0 kg ha(-1)) after 17 years. The DTPA-extractable and total micronutrients (Zn, Cu, Fe, and Mn) status also improved significantly with FYM supplementation. The organic source, coupled with inorganic fertilizers, improved the water holding capacity, total porosity, soil respiration, microbial biomass C, microbial biomass N, and potentially mineralizable N. However, pH, EC, and bulk density of soil decreased with the addition of FYM, coupled with chemical fertilizers.

Automated summary

Integrated nutrient management (INM) is crucial for sustainable crop productivity and soil fertility preservation. Adding organic manures improves soil characteristics and nutrient availability, enhancing organic carbon content, available N, P, and K levels, as well as micronutrient status. The combination of organic and inorganic fertilizers also benefits soil physical properties and microbial activity, albeit impacting soil pH, EC, and bulk density.