Mitigation of Greenhouse Gas Emissions from Agricultural Fields through Bioresource Management

Efficient bioresource management can alter soil biochemistry and physical properties, leading to reduced greenhouse gas (GHG) emissions from agricultural fields. The objective of this study was evaluate the role organic amendments including biodigestate (BD), biochar (BC), their combinations with inorganic fertilizer (IF) in increasing carbon sequestration potential mitigation GHG potato (Solanum tuberosum) Six BD, BC, IF, BDIF BCIF, control (C) were replicated four times under a completely randomized block design during 2021 growing season potatoes Prince Edward Island, Canada. An LI-COR analyzer used monitor dioxide (CO2), methane (CH4), nitrous oxide (N2O) treatment plots. Analysis variance (ANOVA) results depicted higher moisture-holding capacities plots at relatively lower elevations comparatively lesser volumetric moisture content elevations. Soil also impacted by temperature rainfall events. There significant effect events data collection, i.e., length (p-value ? 0.05) on surface temperature, increased summer months. ANOVA revealed that BCIF significantly sequestered more than other treatments. six experimental treatments twelve collection had effects emission CO2. However, BD least CO2 followed BC plots, an increase atmospheric/soil temperature. Results concluded fertilizers help reduce soils enhance environmental sustainability.