Cultivated grasslands present a higher soil organic carbon sequestration efficiency under leguminous than under gramineous species

Abstract: Abstract. The establishment of grassland on abandoned cropland has been proposed as an effective method of mitigating climate change by increasing soil organic carbon (SOC) storage. In this study, five cultivated grasslands were established (three leguminous species – Coronilla varia, Onobrychis viciaefolia, Medicago sativa, and two gramineous species – Poa annua, Agropyron cristatum), one uncultivated, one natural grassland to examine how the SOC storage, sequestration rate and sequestration efficiency to cha… Show more

“…The higher species richness promote greater root biomass accumulation. The increase in the C input from fine root enhanced organic matter protection, which also promotes SOC accumulation in the surface soil (Liu et al, 2016b). Plants regulate SOC by controlling, assimilating and accumulating C in the plant root system and then release from soil to atmosphere through respiration and leaching.…”

Effects of biotic and abiotic factors on soil organic carbon in semi-arid grassland

“…The higher species richness promote greater root biomass accumulation. The increase in the C input from fine root enhanced organic matter protection, which also promotes SOC accumulation in the surface soil (Liu et al, 2016b). Plants regulate SOC by controlling, assimilating and accumulating C in the plant root system and then release from soil to atmosphere through respiration and leaching.…”

Effects of biotic and abiotic factors on soil organic carbon in semi-arid grassland