Carbon and nitrogen sequestration and soil aggregation under sorghum cropping sequences

Abstract

Management practices, such as no tillage (NT) and intensive cropping, have potential to increase C and N sequestration in agricultural soils. The objectives of this study were to investigate the impacts of conventional tillage (CT), NT, and cropping intensity on soil organic C (SOC) and N (SON) sequestration and on distribution within aggregate-size fractions in a central Texas soil after 20 years of treatment imposition. Tillage regime and cropping sequence significantly impacted both SOC and SON sequestration. At 0–5 cm, NT increased SOC storage compared to CT by 33% and 97% and SON storage by 25% and 117% for a sorghum/wheat/soybean (SWS) rotation and a continuous sorghum monoculture, respectively. Total SOC and SON storage at both 0–5 and 5–15 cm was greater for SWS than continuous sorghum regardless of tillage regime. The majority of SOC and SON storage at 0–5 cm was observed in 250-μm to 2-mm aggregates, and at 5–15 cm, in the >2-mm and 250-μm to 2-mm fractions. Averaged across cropping sequences at 0–5 cm, NT increased SOC storage compared to CT by 212%, 96%, 0%, and 31%, and SON storage by 122%, 92%, 0%, and 37% in >2-mm, 250-μm to 2-mm, 53- to 250-μm, and <53-μm aggregate-size fractions. No tillage and increased cropping intensity improved soil fertility by increasing soil organic matter levels and potential nutrient supply to crops.